home/src/shell_manager.cc

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#include "shell_manager.hh"
#include "context.hh"
#include "buffer_utils.hh"
#include "event_manager.hh"
#include "file.hh"
#include <chrono>
#include <cstring>
#include <sys/types.h>
#include <sys/wait.h>
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#include <unistd.h>
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extern char **environ;
namespace Kakoune
{
ShellManager::ShellManager()
{
const char* path = getenv("PATH");
auto new_path = format("{}:{}", path, split_path(get_kak_binary_path()).first);
setenv("PATH", new_path.c_str(), 1);
}
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namespace
{
struct Pipe
{
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Pipe() { ::pipe(m_fd); }
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~Pipe() { close_read_fd(); close_write_fd(); }
int read_fd() const { return m_fd[0]; }
int write_fd() const { return m_fd[1]; }
void close_read_fd() { close_fd(m_fd[0]); }
void close_write_fd() { close_fd(m_fd[1]); }
private:
void close_fd(int& fd) { if (fd != -1) { close(fd); fd = -1; } }
int m_fd[2];
};
pid_t spawn_process(StringView cmdline, ConstArrayView<String> params, ConstArrayView<String> kak_env,
const Pipe& child_stdout, const Pipe& child_stdin, const Pipe& child_stderr)
{
Vector<const char*> envptrs;
for (char** envp = environ; *envp; ++envp)
envptrs.push_back(*envp);
for (auto& env : kak_env)
envptrs.push_back(env.c_str());
envptrs.push_back(nullptr);
const char* shell = "/bin/sh";
auto cmdlinezstr = cmdline.zstr();
Vector<const char*> execparams = { shell, "-c", cmdlinezstr };
if (not params.empty())
execparams.push_back(shell);
for (auto& param : params)
execparams.push_back(param.c_str());
execparams.push_back(nullptr);
if (pid_t pid = fork())
return pid;
auto move = [](int oldfd, int newfd) { dup2(oldfd, newfd); close(oldfd); };
close(child_stdout.write_fd());
move(child_stdout.read_fd(), 0);
close(child_stdin.read_fd());
move(child_stdin.write_fd(), 1);
close(child_stderr.read_fd());
move(child_stderr.write_fd(), 2);
execve(shell, (char* const*)execparams.data(), (char* const*)envptrs.data());
exit(-1);
return -1;
}
}
std::pair<String, int> ShellManager::eval(
StringView cmdline, const Context& context, StringView input,
Flags flags, const ShellContext& shell_context)
{
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static const Regex re(R"(\bkak_(\w+)\b)");
using Clock = std::chrono::steady_clock;
using TimePoint = Clock::time_point;
const DebugFlags debug_flags = context.options()["debug"].get<DebugFlags>();
const bool profile = debug_flags & DebugFlags::Profile;
if (debug_flags & DebugFlags::Shell)
write_to_debug_buffer(format("shell:\n{}\n----\n", cmdline));
auto start_time = profile ? Clock::now() : TimePoint{};
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Vector<String> kak_env;
for (RegexIterator<const char*> it{cmdline.begin(), cmdline.end(), re}, end;
it != end; ++it)
{
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StringView name{(*it)[1].first, (*it)[1].second};
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auto match_name = [&](const String& s) {
return s.length() > name.length() and
prefix_match(s, name) and s[name.length()] == '=';
};
if (find_if(kak_env, match_name) != kak_env.end())
continue;
auto var_it = shell_context.env_vars.find(name);
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try
{
const String& value = var_it != shell_context.env_vars.end() ?
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var_it->value : get_val(name, context);
kak_env.push_back(format("kak_{}={}", name, value));
} catch (runtime_error&) {}
}
auto spawn_time = profile ? Clock::now() : TimePoint{};
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Pipe child_stdin, child_stdout, child_stderr;
pid_t pid = spawn_process(cmdline, shell_context.params, kak_env,
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child_stdin, child_stdout, child_stderr);
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child_stdin.close_read_fd();
child_stdout.close_write_fd();
child_stderr.close_write_fd();
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write(child_stdin.write_fd(), input);
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child_stdin.close_write_fd();
auto wait_time = profile ? Clock::now() : TimePoint{};
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struct PipeReader : FDWatcher
{
PipeReader(Pipe& pipe, String& contents)
: FDWatcher(pipe.read_fd(),
[&contents, &pipe](FDWatcher& watcher, EventMode) {
char buffer[1024];
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size_t size = ::read(pipe.read_fd(), buffer, 1024);
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if (size <= 0)
{
pipe.close_read_fd();
watcher.disable();
return;
}
contents += StringView{buffer, buffer+size};
})
{}
};
String stdout_contents, stderr_contents;
PipeReader stdout_reader{child_stdout, stdout_contents};
PipeReader stderr_reader{child_stderr, stderr_contents};
// block SIGCHLD to make sure we wont receive it before
// our call to pselect, that will end up blocking indefinitly.
sigset_t mask, orig_mask;
sigemptyset(&mask);
sigaddset(&mask, SIGCHLD);
sigprocmask(SIG_BLOCK, &mask, &orig_mask);
auto restore_mask = on_scope_end([&] { sigprocmask(SIG_SETMASK, &orig_mask, nullptr); });
int status = 0;
// check for termination now that SIGCHLD is blocked
bool terminated = waitpid(pid, &status, WNOHANG);
while (not terminated or
((flags & Flags::WaitForStdout) and
(child_stdout.read_fd() != -1 or child_stderr.read_fd() != -1)))
{
EventManager::instance().handle_next_events(EventMode::Urgent, &orig_mask);
if (not terminated)
terminated = waitpid(pid, &status, WNOHANG);
}
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if (not stderr_contents.empty())
write_to_debug_buffer(format("shell stderr: <<<\n{}>>>", stderr_contents));
if (profile)
{
TimePoint end_time = Clock::now();
auto full = std::chrono::duration_cast<std::chrono::milliseconds>(end_time - start_time);
auto spawn = std::chrono::duration_cast<std::chrono::milliseconds>(wait_time - spawn_time);
auto wait = std::chrono::duration_cast<std::chrono::milliseconds>(end_time - wait_time);
write_to_debug_buffer(format("shell execution took {} ms (spawn: {}, wait: {})",
(size_t)full.count(), (size_t)spawn.count(), (size_t)wait.count()));
}
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return { stdout_contents, WIFEXITED(status) ? WEXITSTATUS(status) : -1 };
}
void ShellManager::register_env_var(StringView str, bool prefix,
EnvVarRetriever retriever)
{
m_env_vars.push_back({ str.str(), prefix, std::move(retriever) });
}
String ShellManager::get_val(StringView name, const Context& context) const
{
auto env_var = std::find_if(
m_env_vars.begin(), m_env_vars.end(),
[name](const EnvVarDesc& desc) {
return desc.prefix ? prefix_match(name, desc.str) : name == desc.str;
});
if (env_var == m_env_vars.end())
throw runtime_error("no such env var: " + name);
return env_var->func(name, context);
}
}