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#include <stdint.h>
#include <stdbool.h>
#include <uv.h>
#include "os/uv_helpers.h"
#include "os/job.h"
#include "os/job_defs.h"
#include "os/rstream.h"
#include "os/rstream_defs.h"
#include "os/wstream.h"
#include "os/wstream_defs.h"
#include "os/event.h"
#include "os/event_defs.h"
#include "os/time.h"
#include "os/shell.h"
#include "vim.h"
#include "memory.h"
#include "term.h"
#define EXIT_TIMEOUT 25
#define MAX_RUNNING_JOBS 100
#define JOB_BUFFER_SIZE 1024
#define JOB_WRITE_MAXMEM 1024 * 1024
struct job {
// Job id the index in the job table plus one.
int id;
// Number of polls after a SIGTERM that will trigger a SIGKILL
int exit_timeout;
// exit_cb may be called while there's still pending data from stdout/stderr.
// We use this reference count to ensure the JobExit event is only emitted
// when stdout/stderr are drained
int pending_refs;
// Same as above, but for freeing the job memory which contains
// libuv handles. Only after all are closed the job can be safely freed.
int pending_closes;
// If the job was already stopped
bool stopped;
// Data associated with the job
void *data;
// Callbacks
job_exit_cb exit_cb;
rstream_cb stdout_cb, stderr_cb;
// Readable streams(std{out,err})
RStream *out, *err;
// Writable stream(stdin)
WStream *in;
// Structures for process spawning/management used by libuv
uv_process_t proc;
uv_process_options_t proc_opts;
uv_stdio_container_t stdio[3];
uv_pipe_t proc_stdin, proc_stdout, proc_stderr;
};
static Job *table[MAX_RUNNING_JOBS] = {NULL};
static uint32_t job_count = 0;
static uv_prepare_t job_prepare;
// Some helpers shared in this module
static bool is_alive(Job *job);
static Job * find_job(int id);
static void free_job(Job *job);
// Callbacks for libuv
static void job_prepare_cb(uv_prepare_t *handle);
static void read_cb(RStream *rstream, void *data, bool eof);
static void exit_cb(uv_process_t *proc, int64_t status, int term_signal);
static void close_cb(uv_handle_t *handle);
static void emit_exit_event(Job *job);
void job_init()
{
uv_disable_stdio_inheritance();
uv_prepare_init(uv_default_loop(), &job_prepare);
}
void job_teardown()
{
// 20 tries will give processes about 1 sec to exit cleanly
uint32_t remaining_tries = 20;
bool all_dead = true;
int i;
Job *job;
// Politely ask each job to terminate
for (i = 0; i < MAX_RUNNING_JOBS; i++) {
if ((job = table[i]) != NULL) {
all_dead = false;
uv_process_kill(&job->proc, SIGTERM);
}
}
if (all_dead) {
return;
}
os_delay(10, 0);
// Right now any exited process are zombies waiting for us to acknowledge
// their status with `wait` or handling SIGCHLD. libuv does that
// automatically (and then calls `exit_cb`) but we have to give it a chance
// by running the loop one more time
uv_run(uv_default_loop(), UV_RUN_NOWAIT);
// Prepare to start shooting
for (i = 0; i < MAX_RUNNING_JOBS; i++) {
if ((job = table[i]) == NULL) {
continue;
}
// Still alive
while (is_alive(job) && remaining_tries--) {
os_delay(50, 0);
// Acknowledge child exits
uv_run(uv_default_loop(), UV_RUN_NOWAIT);
}
if (is_alive(job)) {
uv_process_kill(&job->proc, SIGKILL);
}
}
}
int job_start(char **argv,
void *data,
rstream_cb stdout_cb,
rstream_cb stderr_cb,
job_exit_cb job_exit_cb)
{
int i;
Job *job;
// Search for a free slot in the table
for (i = 0; i < MAX_RUNNING_JOBS; i++) {
if (table[i] == NULL) {
break;
}
}
if (i == MAX_RUNNING_JOBS) {
// No free slots
return 0;
}
job = xmalloc(sizeof(Job));
// Initialize
job->id = i + 1;
job->pending_refs = 3;
job->pending_closes = 4;
job->data = data;
job->stdout_cb = stdout_cb;
job->stderr_cb = stderr_cb;
job->exit_cb = job_exit_cb;
job->stopped = false;
job->exit_timeout = EXIT_TIMEOUT;
job->proc_opts.file = argv[0];
job->proc_opts.args = argv;
job->proc_opts.stdio = job->stdio;
job->proc_opts.stdio_count = 3;
job->proc_opts.flags = UV_PROCESS_WINDOWS_HIDE;
job->proc_opts.exit_cb = exit_cb;
job->proc_opts.cwd = NULL;
job->proc_opts.env = NULL;
job->proc.data = NULL;
job->proc_stdin.data = NULL;
job->proc_stdout.data = NULL;
job->proc_stderr.data = NULL;
// Initialize the job std{in,out,err}
uv_pipe_init(uv_default_loop(), &job->proc_stdin, 0);
job->stdio[0].flags = UV_CREATE_PIPE | UV_READABLE_PIPE;
job->stdio[0].data.stream = (uv_stream_t *)&job->proc_stdin;
uv_pipe_init(uv_default_loop(), &job->proc_stdout, 0);
job->stdio[1].flags = UV_CREATE_PIPE | UV_WRITABLE_PIPE;
job->stdio[1].data.stream = (uv_stream_t *)&job->proc_stdout;
uv_pipe_init(uv_default_loop(), &job->proc_stderr, 0);
job->stdio[2].flags = UV_CREATE_PIPE | UV_WRITABLE_PIPE;
job->stdio[2].data.stream = (uv_stream_t *)&job->proc_stderr;
// Spawn the job
if (uv_spawn(uv_default_loop(), &job->proc, &job->proc_opts) != 0) {
free_job(job);
return -1;
}
// Give all handles a reference to the job
handle_set_job((uv_handle_t *)&job->proc, job);
handle_set_job((uv_handle_t *)&job->proc_stdin, job);
handle_set_job((uv_handle_t *)&job->proc_stdout, job);
handle_set_job((uv_handle_t *)&job->proc_stderr, job);
job->in = wstream_new(JOB_WRITE_MAXMEM);
wstream_set_stream(job->in, (uv_stream_t *)&job->proc_stdin);
// Start the readable streams
job->out = rstream_new(read_cb, JOB_BUFFER_SIZE, job, true);
job->err = rstream_new(read_cb, JOB_BUFFER_SIZE, job, true);
rstream_set_stream(job->out, (uv_stream_t *)&job->proc_stdout);
rstream_set_stream(job->err, (uv_stream_t *)&job->proc_stderr);
rstream_start(job->out);
rstream_start(job->err);
// Save the job to the table
table[i] = job;
// Start polling job status if this is the first
if (job_count == 0) {
uv_prepare_start(&job_prepare, job_prepare_cb);
}
job_count++;
return job->id;
}
bool job_stop(int id)
{
Job *job = find_job(id);
if (job == NULL || job->stopped) {
return false;
}
job->stopped = true;
return true;
}
bool job_write(int id, char *data, uint32_t len)
{
Job *job = find_job(id);
if (job == NULL || job->stopped) {
free(data);
return false;
}
if (!wstream_write(job->in, data, len, true)) {
job_stop(job->id);
return false;
}
return true;
}
void job_exit_event(Event event)
{
Job *job = event.data.job;
// Free the slot now, 'exit_cb' may want to start another job to replace
// this one
table[job->id - 1] = NULL;
if (job->exit_cb) {
// Invoke the exit callback
job->exit_cb(job, job->data);
}
// Free the job resources
free_job(job);
// Stop polling job status if this was the last
job_count--;
if (job_count == 0) {
uv_prepare_stop(&job_prepare);
}
}
int job_id(Job *job)
{
return job->id;
}
void *job_data(Job *job)
{
return job->data;
}
static bool is_alive(Job *job)
{
return uv_process_kill(&job->proc, 0) == 0;
}
static Job * find_job(int id)
{
if (id <= 0 || id > MAX_RUNNING_JOBS) {
return NULL;
}
return table[id - 1];
}
static void free_job(Job *job)
{
uv_close((uv_handle_t *)&job->proc_stdout, close_cb);
uv_close((uv_handle_t *)&job->proc_stdin, close_cb);
uv_close((uv_handle_t *)&job->proc_stderr, close_cb);
uv_close((uv_handle_t *)&job->proc, close_cb);
}
/// Iterates the table, sending SIGTERM to stopped jobs and SIGKILL to those
/// that didn't die from SIGTERM after a while(exit_timeout is 0).
static void job_prepare_cb(uv_prepare_t *handle)
{
Job *job;
int i;
for (i = 0; i < MAX_RUNNING_JOBS; i++) {
if ((job = table[i]) == NULL || !job->stopped) {
continue;
}
if ((job->exit_timeout--) == EXIT_TIMEOUT) {
// Job was just stopped, close all stdio handles and send SIGTERM
uv_process_kill(&job->proc, SIGTERM);
} else if (job->exit_timeout == 0) {
// We've waited long enough, send SIGKILL
uv_process_kill(&job->proc, SIGKILL);
}
}
}
// Wraps the call to std{out,err}_cb and emits a JobExit event if necessary.
static void read_cb(RStream *rstream, void *data, bool eof)
{
Job *job = data;
if (rstream == job->out) {
job->stdout_cb(rstream, data, eof);
} else {
job->stderr_cb(rstream, data, eof);
}
if (eof && --job->pending_refs == 0) {
emit_exit_event(job);
}
}
// Emits a JobExit event if both rstreams are closed
static void exit_cb(uv_process_t *proc, int64_t status, int term_signal)
{
Job *job = handle_get_job((uv_handle_t *)proc);
if (--job->pending_refs == 0) {
emit_exit_event(job);
}
}
static void emit_exit_event(Job *job)
{
Event event;
event.type = kEventJobExit;
event.data.job = job;
event_push(event);
}
static void close_cb(uv_handle_t *handle)
{
Job *job = handle_get_job(handle);
if (--job->pending_closes == 0) {
// Only free the job memory after all the associated handles are properly
// closed by libuv
rstream_free(job->out);
rstream_free(job->err);
wstream_free(job->in);
shell_free_argv(job->proc_opts.args);
free(job->data);
free(job);
}
}
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