Stop blocking ruby during long-running operations

This commit is contained in:
John Keiser 2014-03-24 15:39:25 -07:00 committed by Andre Nathan
parent 0b4aa13121
commit acc636b1c8
5 changed files with 708 additions and 154 deletions

View file

@ -5,6 +5,7 @@
#include <lxc/attach_options.h> #include <lxc/attach_options.h>
#include <stdint.h> #include <stdint.h>
#include <string.h> #include <string.h>
#include <signal.h>
#define SYMBOL(s) ID2SYM(rb_intern(s)) #define SYMBOL(s) ID2SYM(rb_intern(s))
@ -383,9 +384,23 @@ container_state(VALUE self)
return rb_str_intern(rb_funcall(rb_state, rb_intern("downcase"), 0)); return rb_str_intern(rb_funcall(rb_state, rb_intern("downcase"), 0));
} }
struct add_device_node_outside_gil_args
{
struct container_data *data;
char *src_path;
char *dest_path;
};
static VALUE
add_device_node_outside_gil(void *args_void)
{
struct add_device_node_outside_gil_args *args = (struct add_device_node_outside_gil_args *)args_void;
return INT2NUM( args->data->container->add_device_node(args->data->container, args->src_path, args->dest_path) );
}
/* /*
* call-seq: * call-seq:
* container.add_device_node(src_path, dst_path = src_path) * container.add_device_node(src_path, dest_path = src_path)
* *
* Adds a device node to the container. * Adds a device node to the container.
*/ */
@ -393,17 +408,16 @@ static VALUE
container_add_device_node(int argc, VALUE *argv, VALUE self) container_add_device_node(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
char *src_path, *dst_path; VALUE rb_src_path, rb_dest_path;
struct container_data *data; struct add_device_node_outside_gil_args args;
VALUE rb_src_path, rb_dst_path;
rb_scan_args(argc, argv, "11", &rb_src_path, &rb_dst_path); rb_scan_args(argc, argv, "11", &rb_src_path, &rb_dest_path);
src_path = NIL_P(rb_src_path) ? NULL : StringValuePtr(rb_src_path); args.src_path = StringValuePtr(rb_src_path);
dst_path = NIL_P(rb_dst_path) ? NULL : StringValuePtr(rb_dst_path); args.dest_path = NIL_P(rb_dest_path) ? NULL : StringValuePtr(rb_dest_path);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->add_device_node(data->container, src_path, dst_path); ret = NUM2INT(rb_thread_blocking_region(add_device_node_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to add device node"); rb_raise(Error, "unable to add device node");
@ -593,6 +607,15 @@ err:
return NULL; return NULL;
} }
static VALUE lxc_wait_for_pid_status_without_gil(void* pid)
{
return INT2NUM(lxc_wait_for_pid_status(*(pid_t*)pid));
}
static void kill_pid_without_gil(void* pid)
{
kill(*(pid_t*)pid, SIGKILL);
}
/* /*
* call-seq: * call-seq:
* container.attach(opts = {}, &block) * container.attach(opts = {}, &block)
@ -650,7 +673,13 @@ container_attach(int argc, VALUE *argv, VALUE self)
goto out; goto out;
if (wait) { if (wait) {
ret = lxc_wait_for_pid_status(pid); ret = NUM2INT(
rb_thread_blocking_region(
lxc_wait_for_pid_status_without_gil,
&pid,
kill_pid_without_gil,
&pid
));
/* handle case where attach fails */ /* handle case where attach fails */
if (WIFEXITED(ret) && WEXITSTATUS(ret) == 255) if (WIFEXITED(ret) && WEXITSTATUS(ret) == 255)
ret = -1; ret = -1;
@ -702,6 +731,30 @@ container_clear_config_item(VALUE self, VALUE rb_key)
return self; return self;
} }
struct clone_outside_gil_args
{
struct container_data *data;
struct lxc_container *new_container;
char *name;
char *config_path;
int flags;
char *bdev_type;
char *bdev_data;
uint64_t new_size;
char **hook_args;
};
static VALUE
clone_outside_gil(void *args_void)
{
struct clone_outside_gil_args *args = (struct clone_outside_gil_args *)args_void;
struct lxc_container *container = args->data->container;
args->new_container = container->clone(container, args->name,
args->config_path, args->flags, args->bdev_type, args->bdev_data,
args->new_size, args->hook_args);
return Qnil;
}
/* /*
* call-seq: * call-seq:
* container.clone(clone_name, opts = {}) * container.clone(clone_name, opts = {})
@ -719,27 +772,22 @@ container_clear_config_item(VALUE self, VALUE rb_key)
static VALUE static VALUE
container_clone(int argc, VALUE *argv, VALUE self) container_clone(int argc, VALUE *argv, VALUE self)
{ {
int flags;
uint64_t new_size;
char *name, *config_path, *bdev_type, *bdev_data;
char **hook_args;
struct lxc_container *container, *new_container;
struct container_data *data;
VALUE rb_name, rb_opts; VALUE rb_name, rb_opts;
VALUE rb_flags, rb_config_path, rb_bdev_type, rb_bdev_data; VALUE rb_flags, rb_config_path, rb_bdev_type, rb_bdev_data;
VALUE rb_new_size, rb_hook_args; VALUE rb_new_size, rb_hook_args;
VALUE rb_args[2]; VALUE rb_args[2];
struct clone_outside_gil_args args;
rb_scan_args(argc, argv, "11", &rb_name, &rb_opts); rb_scan_args(argc, argv, "11", &rb_name, &rb_opts);
name = StringValuePtr(rb_name); args.name = StringValuePtr(rb_name);
config_path = NULL; args.config_path = NULL;
flags = 0; args.flags = 0;
bdev_type = NULL; args.bdev_type = NULL;
bdev_data = NULL; args.bdev_data = NULL;
new_size = 0; args.new_size = 0;
hook_args = NULL; args.hook_args = NULL;
rb_config_path = Qnil; rb_config_path = Qnil;
@ -747,49 +795,65 @@ container_clone(int argc, VALUE *argv, VALUE self)
Check_Type(rb_opts, T_HASH); Check_Type(rb_opts, T_HASH);
rb_config_path = rb_hash_aref(rb_opts, SYMBOL("config_path")); rb_config_path = rb_hash_aref(rb_opts, SYMBOL("config_path"));
if (!NIL_P(rb_config_path)) if (!NIL_P(rb_config_path))
config_path = StringValuePtr(rb_config_path); args.config_path = StringValuePtr(rb_config_path);
rb_flags = rb_hash_aref(rb_opts, SYMBOL("flags")); rb_flags = rb_hash_aref(rb_opts, SYMBOL("flags"));
if (!NIL_P(rb_flags)) if (!NIL_P(rb_flags))
flags = NUM2INT(rb_flags); args.flags = NUM2INT(rb_flags);
rb_bdev_type = rb_hash_aref(rb_opts, SYMBOL("bdev_type")); rb_bdev_type = rb_hash_aref(rb_opts, SYMBOL("bdev_type"));
if (!NIL_P(rb_bdev_type)) if (!NIL_P(rb_bdev_type))
bdev_type = StringValuePtr(rb_bdev_type); args.bdev_type = StringValuePtr(rb_bdev_type);
rb_bdev_data = rb_hash_aref(rb_opts, SYMBOL("bdev_data")); rb_bdev_data = rb_hash_aref(rb_opts, SYMBOL("bdev_data"));
if (!NIL_P(rb_bdev_data)) if (!NIL_P(rb_bdev_data))
bdev_data = StringValuePtr(rb_bdev_data); args.bdev_data = StringValuePtr(rb_bdev_data);
rb_new_size = rb_hash_aref(rb_opts, SYMBOL("new_size")); rb_new_size = rb_hash_aref(rb_opts, SYMBOL("new_size"));
if (!NIL_P(rb_bdev_data)) if (!NIL_P(rb_bdev_data))
new_size = NUM2ULL(rb_new_size); args.new_size = NUM2ULL(rb_new_size);
rb_hook_args = rb_hash_aref(rb_opts, SYMBOL("hook_args")); rb_hook_args = rb_hash_aref(rb_opts, SYMBOL("hook_args"));
if (!NIL_P(rb_hook_args)) if (!NIL_P(rb_hook_args))
hook_args = ruby_to_c_string_array(rb_hook_args); args.hook_args = ruby_to_c_string_array(rb_hook_args);
} }
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
container = data->container;
new_container = container->clone(container, name, config_path, rb_thread_blocking_region(clone_outside_gil, &args, NULL, NULL);
flags, bdev_type, bdev_data, new_size,
hook_args);
if (hook_args) if (args.hook_args)
free_c_string_array(hook_args); free_c_string_array(args.hook_args);
if (new_container == NULL) if (args.new_container == NULL)
rb_raise(Error, "unable to clone container"); rb_raise(Error, "unable to clone container");
lxc_container_put(new_container); lxc_container_put(args.new_container);
rb_args[0] = rb_name; rb_args[0] = rb_name;
rb_args[1] = rb_config_path; rb_args[1] = rb_config_path;
return rb_class_new_instance(2, rb_args, Container); return rb_class_new_instance(2, rb_args, Container);
} }
struct console_outside_gil_args
{
struct container_data *data;
int tty_num;
int stdin_fd;
int stdout_fd;
int stderr_fd;
int escape;
};
static VALUE
console_outside_gil(void *args_void)
{
struct console_outside_gil_args *args = (struct console_outside_gil_args *)args_void;
return INT2NUM( args->data->container->console(args->data->container, args->tty_num,
args->stdin_fd, args->stdout_fd,
args->stderr_fd, args->escape) );
}
/* /*
* call-seq: * call-seq:
* container.console(opts = {}) * container.console(opts = {})
@ -807,29 +871,44 @@ static VALUE
container_console(int argc, VALUE *argv, VALUE self) container_console(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
int tty_num = -1, stdin_fd = 0, stdout_fd = 1, stderr_fd = 2, escape = 1; struct console_outside_gil_args args;
struct container_data *data;
struct lxc_container *container;
VALUE rb_opts; VALUE rb_opts;
VALUE rb_opt;
args.tty_num = -1;
args.stdin_fd = 0;
args.stdout_fd = 1;
args.stdout_fd = 2;
args.escape = 1;
rb_scan_args(argc, argv, "01", &rb_opts); rb_scan_args(argc, argv, "01", &rb_opts);
switch (TYPE(rb_opts)) { switch (TYPE(rb_opts)) {
case T_HASH: case T_HASH:
tty_num = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("tty_num"))); rb_opt = rb_hash_aref(rb_opts, SYMBOL("tty_num"));
stdin_fd = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("stdin_fd"))); if (!NIL_P(rb_opt))
stdout_fd = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("stdout_fd"))); args.tty_num = NUM2INT(rb_opt);
stderr_fd = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("stderr_fd"))); rb_opt = rb_hash_aref(rb_opts, SYMBOL("stdin_fd"));
escape = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("escape"))); if (!NIL_P(rb_opt))
args.stdin_fd = NUM2INT(rb_opt);
rb_opt = rb_hash_aref(rb_opts, SYMBOL("stdout_fd"));
if (!NIL_P(rb_opt))
args.stdout_fd = NUM2INT(rb_opt);
rb_opt = rb_hash_aref(rb_opts, SYMBOL("stderr_fd"));
if (!NIL_P(rb_opt))
args.stderr_fd = NUM2INT(rb_opt);
rb_opt = rb_hash_aref(rb_opts, SYMBOL("escape"));
if (!NIL_P(rb_opt))
args.escape = NUM2INT(rb_opt);
break;
case T_NIL:
break; break;
default: default:
rb_raise(rb_eArgError, "options must be a hash"); rb_raise(rb_eArgError, "options must be a hash");
} }
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
container = data->container;
ret = container->console(container, tty_num, stdin_fd, stdout_fd, stderr_fd, ret = NUM2INT(rb_thread_blocking_region(console_outside_gil, &args, NULL, NULL));
escape);
if (ret != 0) if (ret != 0)
rb_raise(Error, "unable to access container console"); rb_raise(Error, "unable to access container console");
@ -863,6 +942,23 @@ container_console_fd(int argc, VALUE *argv, VALUE self)
return rb_class_new_instance(1, rb_io_args, rb_cIO); return rb_class_new_instance(1, rb_io_args, rb_cIO);
} }
/* Used to run container->create outside of GIL */
struct container_create_outside_gil_args {
struct container_data *data;
char *template;
char *bdevtype;
int flags;
char **args;
};
static VALUE
container_create_outside_gil(void *args_void)
{
struct container_create_outside_gil_args *args = (struct container_create_outside_gil_args *)args_void;
int ret = args->data->container->create(args->data->container, args->template, args->bdevtype, NULL, args->flags, args->args);
return INT2NUM(ret);
}
/* /*
* call-seq: * call-seq:
* container.create(template, bdevtype = nil, flags = 0, args = []) * container.create(template, bdevtype = nil, flags = 0, args = [])
@ -876,28 +972,26 @@ container_console_fd(int argc, VALUE *argv, VALUE self)
static VALUE static VALUE
container_create(int argc, VALUE *argv, VALUE self) container_create(int argc, VALUE *argv, VALUE self)
{ {
int ret, flags; int ret;
char *template;
char *bdevtype;
char **args = { NULL };
struct container_data *data;
struct lxc_container *container;
VALUE rb_template, rb_bdevtype, rb_flags, rb_args; VALUE rb_template, rb_bdevtype, rb_flags, rb_args;
struct container_create_outside_gil_args args;
char ** default_args = { NULL };
args.args = default_args;
rb_scan_args(argc, argv, "13", &rb_template, &rb_bdevtype, &rb_flags, &rb_args); rb_scan_args(argc, argv, "13", &rb_template, &rb_bdevtype, &rb_flags, &rb_args);
template = StringValuePtr(rb_template); args.template = StringValuePtr(rb_template);
bdevtype = NIL_P(rb_bdevtype) ? NULL : StringValuePtr(rb_bdevtype); args.bdevtype = NIL_P(rb_bdevtype) ? NULL : StringValuePtr(rb_bdevtype);
flags = NIL_P(rb_flags) ? 0 : NUM2INT(rb_flags); args.flags = NIL_P(rb_flags) ? 0 : NUM2INT(rb_flags);
if (!NIL_P(rb_args)) if (!NIL_P(rb_args))
args = ruby_to_c_string_array(rb_args); args.args = ruby_to_c_string_array(rb_args);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
container = data->container;
ret = container->create(container, template, bdevtype, NULL, flags, args); ret = NUM2INT(rb_thread_blocking_region(container_create_outside_gil, &args, NULL, NULL));
if (!NIL_P(rb_args)) if (!NIL_P(rb_args))
free_c_string_array(args); free_c_string_array(args.args);
if (!ret) if (!ret)
rb_raise(Error, "unable to create container"); rb_raise(Error, "unable to create container");
@ -905,6 +999,14 @@ container_create(int argc, VALUE *argv, VALUE self)
return self; return self;
} }
static VALUE
destroy_outside_gil(void* data_void)
{
struct container_data *data = (struct container_data *)data_void;
return INT2NUM( data->container->destroy(data->container) );
}
/* /*
* call-seq: * call-seq:
* container.destroy * container.destroy
@ -919,12 +1021,19 @@ container_destroy(VALUE self)
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, data);
ret = data->container->destroy(data->container); ret = NUM2INT(rb_thread_blocking_region(destroy_outside_gil, data, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to destroy container"); rb_raise(Error, "unable to destroy container");
return self; return self;
} }
static VALUE
freeze_outside_gil(void* data_void)
{
struct container_data *data = (struct container_data *)data_void;
return INT2NUM( data->container->freeze(data->container) );
}
/* /*
* call-seq: * call-seq:
* container.freeze * container.freeze
@ -939,7 +1048,7 @@ container_freeze(VALUE self)
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, data);
ret = data->container->freeze(data->container); ret = NUM2INT(rb_thread_blocking_region(freeze_outside_gil, data, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to freeze container"); rb_raise(Error, "unable to freeze container");
@ -1146,6 +1255,19 @@ container_ips(int argc, VALUE *argv, VALUE self)
return rb_ips; return rb_ips;
} }
struct load_config_outside_gil_args
{
struct container_data *data;
char *path;
};
static VALUE
load_config_outside_gil(void *args_void)
{
struct load_config_outside_gil_args *args = (struct load_config_outside_gil_args *)args_void;
return INT2NUM( args->data->container->load_config(args->data->container, args->path) );
}
/* /*
* call-seq: * call-seq:
* container.load_config(config_path = nil) * container.load_config(config_path = nil)
@ -1156,22 +1278,28 @@ static VALUE
container_load_config(int argc, VALUE *argv, VALUE self) container_load_config(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
char *path;
struct container_data *data;
VALUE rb_path; VALUE rb_path;
struct load_config_outside_gil_args args;
rb_scan_args(argc, argv, "01", &rb_path); rb_scan_args(argc, argv, "01", &rb_path);
path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path); args.path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->load_config(data->container, path); ret = NUM2INT(rb_thread_blocking_region(load_config_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to load configuration file"); rb_raise(Error, "unable to load configuration file");
return self; return self;
} }
static VALUE
reboot_outside_gil(void* data_void)
{
struct container_data *data = (struct container_data *)data_void;
return INT2NUM( data->container->reboot(data->container) );
}
/* /*
* call-seq: * call-seq:
* container.reboot * container.reboot
@ -1186,16 +1314,30 @@ container_reboot(VALUE self)
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, data);
ret = data->container->reboot(data->container); ret = NUM2INT(rb_thread_blocking_region(reboot_outside_gil, data, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to reboot container"); rb_raise(Error, "unable to reboot container");
return self; return self;
} }
struct remove_device_node_outside_gil_args
{
struct container_data *data;
char *src_path;
char *dest_path;
};
static VALUE
remove_device_node_outside_gil(void *args_void)
{
struct remove_device_node_outside_gil_args *args = (struct remove_device_node_outside_gil_args *)args_void;
return INT2NUM( args->data->container->remove_device_node(args->data->container, args->src_path, args->dest_path) );
}
/* /*
* call-seq: * call-seq:
* container.remove_device_node(src_path, dst_path = src_path) * container.remove_device_node(src_path, dest_path = src_path)
* *
* Removes a device node from the container. * Removes a device node from the container.
*/ */
@ -1203,25 +1345,35 @@ static VALUE
container_remove_device_node(int argc, VALUE *argv, VALUE self) container_remove_device_node(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
char *src_path, *dst_path; VALUE rb_src_path, rb_dest_path;
struct lxc_container *container; struct remove_device_node_outside_gil_args args;
struct container_data *data;
VALUE rb_src_path, rb_dst_path;
rb_scan_args(argc, argv, "11", &rb_src_path, &rb_dst_path); rb_scan_args(argc, argv, "11", &rb_src_path, &rb_dest_path);
src_path = StringValuePtr(rb_src_path); args.src_path = StringValuePtr(rb_src_path);
dst_path = NIL_P(rb_dst_path) ? NULL : StringValuePtr(rb_dst_path); args.dest_path = NIL_P(rb_dest_path) ? NULL : StringValuePtr(rb_dest_path);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
container = data->container;
ret = container->remove_device_node(container, src_path, dst_path); ret = NUM2INT(rb_thread_blocking_region(remove_device_node_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to remove device node"); rb_raise(Error, "unable to remove device node");
return self; return self;
} }
struct rename_outside_gil_args
{
struct container_data *data;
char *name;
};
static VALUE
rename_outside_gil(void* args_void)
{
struct rename_outside_gil_args *args = (struct rename_outside_gil_args *)args_void;
return INT2NUM( args->data->container->rename(args->data->container, args->name) );
}
/* /*
* call-seq: * call-seq:
* container.rename(new_name) * container.rename(new_name)
@ -1233,14 +1385,14 @@ static VALUE
container_rename(VALUE self, VALUE rb_name) container_rename(VALUE self, VALUE rb_name)
{ {
int ret; int ret;
char *name;
struct container_data *data;
VALUE rb_args[2]; VALUE rb_args[2];
struct rename_outside_gil_args args;
name = StringValuePtr(rb_name); Data_Get_Struct(self, struct container_data, args.data);
Data_Get_Struct(self, struct container_data, data);
ret = data->container->rename(data->container, name); args.name = StringValuePtr(rb_name);
ret = NUM2INT(rb_thread_blocking_region(rename_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to rename container"); rb_raise(Error, "unable to rename container");
@ -1278,20 +1430,32 @@ container_running_config_item(VALUE self, VALUE rb_key)
return rb_value; return rb_value;
} }
struct save_config_outside_gil_args
{
struct container_data *data;
char *path;
};
static VALUE
save_config_outside_gil(void *args_void)
{
struct save_config_outside_gil_args *args = (struct save_config_outside_gil_args *)args_void;
return INT2NUM( args->data->container->save_config(args->data->container, args->path) );
}
static VALUE static VALUE
container_save_config(int argc, VALUE *argv, VALUE self) container_save_config(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
char *path;
struct container_data *data;
VALUE rb_path; VALUE rb_path;
struct save_config_outside_gil_args args;
rb_scan_args(argc, argv, "01", &rb_path); rb_scan_args(argc, argv, "01", &rb_path);
path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path); args.path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->save_config(data->container, path); ret = NUM2INT(rb_thread_blocking_region(save_config_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to save configuration file"); rb_raise(Error, "unable to save configuration file");
@ -1391,6 +1555,19 @@ container_set_config_path(VALUE self, VALUE rb_path)
return self; return self;
} }
struct shutdown_outside_gil_args
{
struct container_data *data;
int timeout;
};
static VALUE
shutdown_outside_gil(void* args_void)
{
struct shutdown_outside_gil_args *args = (struct shutdown_outside_gil_args *)args_void;
return INT2NUM( args->data->container->shutdown(args->data->container, args->timeout) );
}
/* /*
* call-seq: * call-seq:
* container.shutdown(timeout = -1) * container.shutdown(timeout = -1)
@ -1402,22 +1579,36 @@ container_set_config_path(VALUE self, VALUE rb_path)
static VALUE static VALUE
container_shutdown(int argc, VALUE *argv, VALUE self) container_shutdown(int argc, VALUE *argv, VALUE self)
{ {
int ret, timeout; int ret;
struct container_data *data;
VALUE rb_timeout; VALUE rb_timeout;
struct shutdown_outside_gil_args args;
rb_scan_args(argc, argv, "01", &rb_timeout); rb_scan_args(argc, argv, "01", &rb_timeout);
timeout = NIL_P(rb_timeout) ? -1 : NUM2INT(rb_timeout);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->shutdown(data->container, timeout); args.timeout = NIL_P(rb_timeout) ? -1 : NUM2INT(rb_timeout);
ret = NUM2INT(rb_thread_blocking_region(shutdown_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to shutdown container"); rb_raise(Error, "unable to shutdown container");
return self; return self;
} }
struct snapshot_outside_gil_args
{
struct container_data *data;
char *path;
};
static VALUE
snapshot_outside_gil(void* args_void)
{
struct snapshot_outside_gil_args *args = (struct snapshot_outside_gil_args *)args_void;
return INT2NUM( args->data->container->snapshot(args->data->container, args->path) );
}
/* /*
* call-seq: * call-seq:
* container.snapshot(path = nil) * container.snapshot(path = nil)
@ -1428,17 +1619,16 @@ static VALUE
container_snapshot(int argc, VALUE *argv, VALUE self) container_snapshot(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
char *path;
char new_name[20]; char new_name[20];
struct container_data *data;
VALUE rb_path; VALUE rb_path;
struct snapshot_outside_gil_args args;
rb_scan_args(argc, argv, "01", &rb_path); rb_scan_args(argc, argv, "01", &rb_path);
path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path); args.path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->snapshot(data->container, path); ret = NUM2INT(rb_thread_blocking_region(snapshot_outside_gil, &args, NULL, NULL));
if (ret < 0) if (ret < 0)
rb_raise(Error, "unable to snapshot container"); rb_raise(Error, "unable to snapshot container");
@ -1449,6 +1639,19 @@ container_snapshot(int argc, VALUE *argv, VALUE self)
return rb_str_new2(new_name); return rb_str_new2(new_name);
} }
struct snapshot_destroy_outside_gil_args
{
struct container_data *data;
char *name;
};
static VALUE
snapshot_destroy_outside_gil(void* args_void)
{
struct snapshot_destroy_outside_gil_args *args = (struct snapshot_destroy_outside_gil_args *)args_void;
return INT2NUM( args->data->container->snapshot_destroy(args->data->container, args->name) );
}
/* /*
* call-seq: * call-seq:
* container.snapshot_destroy(name) * container.snapshot_destroy(name)
@ -1459,20 +1662,32 @@ static VALUE
container_snapshot_destroy(VALUE self, VALUE rb_name) container_snapshot_destroy(VALUE self, VALUE rb_name)
{ {
int ret; int ret;
char *name; struct snapshot_destroy_outside_gil_args args;
struct container_data *data;
name = StringValuePtr(rb_name); Data_Get_Struct(self, struct container_data, args.data);
Data_Get_Struct(self, struct container_data, data); args.name = StringValuePtr(rb_name);
ret = data->container->snapshot_destroy(data->container, name); ret = NUM2INT(rb_thread_blocking_region(snapshot_destroy_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to destroy snapshot"); rb_raise(Error, "unable to destroy snapshot");
return self; return self;
} }
struct snapshot_list_outside_gil_args
{
struct container_data *data;
struct lxc_snapshot *snapshots;
};
static VALUE
snapshot_list_outside_gil(void* args_void)
{
struct snapshot_list_outside_gil_args *args = (struct snapshot_list_outside_gil_args *)args_void;
return INT2NUM( args->data->container->snapshot_list(args->data->container, &args->snapshots) );
}
/* /*
* call-seq: * call-seq:
* container.snapshot_list * container.snapshot_list
@ -1483,30 +1698,43 @@ static VALUE
container_snapshot_list(VALUE self) container_snapshot_list(VALUE self)
{ {
int i, num_snapshots; int i, num_snapshots;
struct lxc_snapshot *snapshots;
struct container_data *data;
VALUE rb_snapshots; VALUE rb_snapshots;
struct snapshot_list_outside_gil_args args;
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
num_snapshots = data->container->snapshot_list(data->container, &snapshots); num_snapshots = NUM2INT(rb_thread_blocking_region(snapshot_list_outside_gil, &args, NULL, NULL));
if (num_snapshots < 0) if (num_snapshots < 0)
rb_raise(Error, "unable to list snapshots"); rb_raise(Error, "unable to list snapshots");
rb_snapshots = rb_ary_new2(num_snapshots); rb_snapshots = rb_ary_new2(num_snapshots);
for (i = 0; i < num_snapshots; i++) { for (i = 0; i < num_snapshots; i++) {
VALUE attrs = rb_ary_new2(4); VALUE attrs = rb_ary_new2(4);
rb_ary_store(attrs, 0, rb_str_new2(snapshots[i].name)); rb_ary_store(attrs, 0, rb_str_new2(args.snapshots[i].name));
rb_ary_store(attrs, 1, rb_str_new2(snapshots[i].comment_pathname)); rb_ary_store(attrs, 1, rb_str_new2(args.snapshots[i].comment_pathname));
rb_ary_store(attrs, 2, rb_str_new2(snapshots[i].timestamp)); rb_ary_store(attrs, 2, rb_str_new2(args.snapshots[i].timestamp));
rb_ary_store(attrs, 3, rb_str_new2(snapshots[i].lxcpath)); rb_ary_store(attrs, 3, rb_str_new2(args.snapshots[i].lxcpath));
snapshots[i].free(&snapshots[i]); args.snapshots[i].free(&args.snapshots[i]);
rb_ary_store(rb_snapshots, i, attrs); rb_ary_store(rb_snapshots, i, attrs);
} }
return rb_snapshots; return rb_snapshots;
} }
struct snapshot_restore_outside_gil_args
{
struct container_data *data;
char *name;
char *new_name;
};
static VALUE
snapshot_restore_outside_gil(void* args_void)
{
struct snapshot_restore_outside_gil_args *args = (struct snapshot_restore_outside_gil_args *)args_void;
return INT2NUM( args->data->container->snapshot_restore(args->data->container, args->name, args->new_name) );
}
/* /*
* call-seq: * call-seq:
* container.snapshot_restore(name, new_name = nil) * container.snapshot_restore(name, new_name = nil)
@ -1517,23 +1745,42 @@ static VALUE
container_snapshot_restore(int argc, VALUE *argv, VALUE self) container_snapshot_restore(int argc, VALUE *argv, VALUE self)
{ {
int ret; int ret;
char *name, *new_name; struct snapshot_restore_outside_gil_args args;
struct container_data *data;
VALUE rb_name, rb_new_name; VALUE rb_name, rb_new_name;
rb_scan_args(argc, argv, "11", &rb_name, &rb_new_name); rb_scan_args(argc, argv, "11", &rb_name, &rb_new_name);
name = StringValuePtr(rb_name); args.name = StringValuePtr(rb_name);
new_name = NIL_P(rb_new_name) ? NULL : StringValuePtr(rb_new_name); args.new_name = NIL_P(rb_new_name) ? NULL : StringValuePtr(rb_new_name);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->snapshot_restore(data->container, name, new_name); ret = NUM2INT(rb_thread_blocking_region(snapshot_restore_outside_gil, &args, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to restore snapshot"); rb_raise(Error, "unable to restore snapshot");
return self; return self;
} }
struct start_outside_gil_args
{
struct container_data *data;
int use_init;
int daemonize;
int close_fds;
char **args;
};
static VALUE
start_outside_gil(void* args_void)
{
struct start_outside_gil_args *args = (struct start_outside_gil_args *)args_void;
struct lxc_container *container = args->data->container;
container->want_close_all_fds(container, args->close_fds);
container->want_daemonize(container, args->daemonize);
return INT2NUM( container->start(container, args->use_init, args->args) );
}
/* /*
* call-seq: * call-seq:
* container.start(opts = {}) * container.start(opts = {})
@ -1548,41 +1795,38 @@ container_snapshot_restore(int argc, VALUE *argv, VALUE self)
static VALUE static VALUE
container_start(int argc, VALUE *argv, VALUE self) container_start(int argc, VALUE *argv, VALUE self)
{ {
int ret, use_init, daemonize, close_fds; int ret;
char **args;
struct container_data *data;
VALUE rb_use_init, rb_daemonize, rb_close_fds, rb_args, rb_opts; VALUE rb_use_init, rb_daemonize, rb_close_fds, rb_args, rb_opts;
struct start_outside_gil_args args;
use_init = 0; args.use_init = 0;
daemonize = 1; args.daemonize = 1;
close_fds = 0; args.close_fds = 0;
args = NULL; args.args = NULL;
rb_args = Qnil; rb_args = Qnil;
rb_scan_args(argc, argv, "01", &rb_opts); rb_scan_args(argc, argv, "01", &rb_opts);
if (!NIL_P(rb_opts)) { if (!NIL_P(rb_opts)) {
Check_Type(rb_opts, T_HASH); Check_Type(rb_opts, T_HASH);
rb_use_init = rb_hash_aref(rb_opts, SYMBOL("use_init")); rb_use_init = rb_hash_aref(rb_opts, SYMBOL("use_init"));
use_init = (rb_use_init != Qnil) && (rb_use_init != Qfalse); args.use_init = (rb_use_init != Qnil) && (rb_use_init != Qfalse);
rb_daemonize = rb_hash_aref(rb_opts, SYMBOL("daemonize")); rb_daemonize = rb_hash_aref(rb_opts, SYMBOL("daemonize"));
daemonize = (rb_daemonize != Qnil) && (rb_daemonize != Qfalse); args.daemonize = (rb_daemonize != Qnil) && (rb_daemonize != Qfalse);
rb_close_fds = rb_hash_aref(rb_opts, SYMBOL("close_fds")); rb_close_fds = rb_hash_aref(rb_opts, SYMBOL("close_fds"));
close_fds = (rb_close_fds != Qnil) && (rb_close_fds != Qfalse); args.close_fds = (rb_close_fds != Qnil) && (rb_close_fds != Qfalse);
rb_args = rb_hash_aref(rb_opts, SYMBOL("args")); rb_args = rb_hash_aref(rb_opts, SYMBOL("args"));
args = NIL_P(rb_args) ? NULL : ruby_to_c_string_array(rb_args); args.args = NIL_P(rb_args) ? NULL : ruby_to_c_string_array(rb_args);
} }
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
data->container->want_close_all_fds(data->container, close_fds); ret = NUM2INT(rb_thread_blocking_region(start_outside_gil, &args, NULL, NULL));
data->container->want_daemonize(data->container, daemonize);
ret = data->container->start(data->container, use_init, args);
if (!NIL_P(rb_args)) if (!NIL_P(rb_args))
free_c_string_array(args); free_c_string_array(args.args);
if (!ret) if (!ret)
rb_raise(Error, "unable to start container"); rb_raise(Error, "unable to start container");
@ -1590,6 +1834,13 @@ container_start(int argc, VALUE *argv, VALUE self)
return self; return self;
} }
static VALUE
stop_outside_gil(void* data_void)
{
struct container_data *data = (struct container_data *)data_void;
return INT2NUM( data->container->stop(data->container) );
}
/* /*
* call-seq: * call-seq:
* container.stop * container.stop
@ -1604,13 +1855,20 @@ container_stop(VALUE self)
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, data);
ret = data->container->stop(data->container); ret = NUM2INT(rb_thread_blocking_region(stop_outside_gil, data, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to stop container"); rb_raise(Error, "unable to stop container");
return self; return self;
} }
static VALUE
unfreeze_outside_gil(void* data_void)
{
struct container_data *data = (struct container_data *)data_void;
return INT2NUM( data->container->unfreeze(data->container) );
}
/* /*
* call-seq: * call-seq:
* container.unfreeze * container.unfreeze
@ -1625,13 +1883,27 @@ container_unfreeze(VALUE self)
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, data);
ret = data->container->unfreeze(data->container); ret = NUM2INT(rb_thread_blocking_region(unfreeze_outside_gil, data, NULL, NULL));
if (!ret) if (!ret)
rb_raise(Error, "unable to unfreeze container"); rb_raise(Error, "unable to unfreeze container: #{lxc_strerror(ret)}");
return self; return self;
} }
struct wait_outside_gil_args
{
struct container_data *data;
int timeout;
char *state;
};
static VALUE
wait_outside_gil(void* args_void)
{
struct wait_outside_gil_args *args = (struct wait_outside_gil_args *)args_void;
return INT2NUM( args->data->container->wait(args->data->container, args->state, args->timeout) );
}
/* /*
* call-seq: * call-seq:
* container.wait(state, timeout = -1) * container.wait(state, timeout = -1)
@ -1642,22 +1914,21 @@ container_unfreeze(VALUE self)
static VALUE static VALUE
container_wait(int argc, VALUE *argv, VALUE self) container_wait(int argc, VALUE *argv, VALUE self)
{ {
int ret, timeout; int ret;
char *state;
struct container_data *data;
VALUE rb_state_str, rb_state, rb_timeout; VALUE rb_state_str, rb_state, rb_timeout;
struct wait_outside_gil_args args;
rb_scan_args(argc, argv, "11", &rb_state, &rb_timeout); rb_scan_args(argc, argv, "11", &rb_state, &rb_timeout);
rb_state_str = rb_funcall(rb_state, rb_intern("to_s"), 0); rb_state_str = rb_funcall(rb_state, rb_intern("to_s"), 0);
rb_state_str = rb_funcall(rb_state_str, rb_intern("upcase"), 0); rb_state_str = rb_funcall(rb_state_str, rb_intern("upcase"), 0);
state = StringValuePtr(rb_state_str); args.state = StringValuePtr(rb_state_str);
timeout = NIL_P(rb_timeout) ? -1 : NUM2INT(rb_timeout); args.timeout = NIL_P(rb_timeout) ? -1 : NUM2INT(rb_timeout);
Data_Get_Struct(self, struct container_data, data); Data_Get_Struct(self, struct container_data, args.data);
ret = data->container->wait(data->container, state, timeout); ret = NUM2INT( rb_thread_blocking_region(wait_outside_gil, &args, NULL, NULL) );
if (!ret) if (!ret)
rb_raise(Error, "error waiting for container"); rb_raise(Error, "error waiting for container");
@ -1713,7 +1984,7 @@ Init_lxc(void)
rb_define_method(Container, "load_config", container_load_config, -1); rb_define_method(Container, "load_config", container_load_config, -1);
rb_define_method(Container, "reboot", container_reboot, 0); rb_define_method(Container, "reboot", container_reboot, 0);
rb_define_method(Container, "remove_device_node", rb_define_method(Container, "remove_device_node",
container_remove_device_node, 0); container_remove_device_node, -1);
rb_define_method(Container, "rename", container_rename, 1); rb_define_method(Container, "rename", container_rename, 1);
rb_define_method(Container, "running_config_item", rb_define_method(Container, "running_config_item",
container_running_config_item, 1); container_running_config_item, 1);

27
test/test_helpers.rb Normal file
View file

@ -0,0 +1,27 @@
require 'lxc'
require 'test/unit/assertions'
module TestHelpers
def assert_long_running_function_does_not_block_ruby(&block)
r, w = IO.pipe
begin
# Write something after a very short period, but only if Ruby isn't blocked!
t = Thread.new do
sleep(0.001)
# Sleep twice so that if the function is blocking and we wake up just
# after block.call(c) somehow, we will go back to sleep briefly and
# allow B to be written
sleep(0.001)
w.write('A')
end
# Call the function and see if Ruby gets blocked
block.call
w.write('B')
chars = r.read(2)
assert(chars == 'AB', "Expected thread to write before block finished, but it did not. Expected 'AB', got '#{chars}'")
ensure
r.close
w.close
end
end
end

View file

@ -0,0 +1,25 @@
$:.unshift File.expand_path(File.join(File.dirname(__FILE__), 'lib'))
require 'test/unit'
require 'lxc'
require 'test_helpers'
class TestLXCCreateAsynchronous < Test::Unit::TestCase
include TestHelpers
def setup
if Process::Sys::geteuid != 0
raise 'This test must be ran as root'
end
@name = 'test_async_create'
container = LXC::Container.new(@name)
container.destroy if container.defined?
end
def test_create_allows_ruby_to_continue
c = LXC::Container.new(@name)
assert_long_running_function_does_not_block_ruby do
c.create('ubuntu')
end
end
end

View file

@ -6,11 +6,15 @@ require 'lxc'
class TestLXCCreated < Test::Unit::TestCase class TestLXCCreated < Test::Unit::TestCase
def setup def setup
if Process::Sys::geteuid != 0 if Process::Sys::geteuid != 0
raise 'This test must be ran as root' raise 'This test must be run as root'
end end
@name = 'test' @name = 'test'
@container = LXC::Container.new(@name) @container = LXC::Container.new(@name)
@container.create('ubuntu') unless @container.defined? @container.create('ubuntu') unless @container.defined?
# Make sure the renamed_test container does not exist, for the rename test
@new_name = "renamed_#{@name}"
new_container = LXC::Container.new(@new_name)
new_container.destroy if new_container.defined?
end end
def test_container_defined def test_container_defined
@ -41,9 +45,8 @@ class TestLXCCreated < Test::Unit::TestCase
end end
def test_container_rename def test_container_rename
new_name = "renamed_#{@name}" renamed = @container.rename(@new_name)
renamed = @container.rename(new_name) assert_equal(@new_name, renamed.name)
assert_equal(new_name, renamed.name)
rerenamed = renamed.rename(@name) rerenamed = renamed.rename(@name)
assert_equal(@name, rerenamed.name) assert_equal(@name, rerenamed.name)
end end

View file

@ -0,0 +1,228 @@
$:.unshift File.expand_path(File.join(File.dirname(__FILE__), 'lib'))
require 'test/unit'
require 'lxc'
require 'test_helpers'
class TestLXCLongRunning < Test::Unit::TestCase
include TestHelpers
def setup
if Process::Sys::geteuid != 0
raise 'This test must be run as root'
end
@name = 'test'
@container = LXC::Container.new(@name)
@container.create('ubuntu') unless @container.defined?
@container.start unless @container.running?
@container.unfreeze
# Destroy leftover snapshots so we don't take up the whole disk
@container.snapshot_list.each do |snapshot, commentfile, timestamp, snapshotfile|
@container.snapshot_destroy(snapshot)
end
end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_add_device_node_allows_ruby_to_continue
# assert_long_running_function_does_not_block_ruby do
# @container.add_device_node('/dev/ttyS0')
# end
# end
def test_attach_wait_true_allows_ruby_to_continue
assert_long_running_function_does_not_block_ruby do
@container.attach(wait: true) do
sleep(2)
end
end
end
def test_clone_allows_ruby_to_continue
# Ensure the "cloned" VM does not exist
cloned_name = "#{@name}_cloned"
cloned_to_destroy = LXC::Container.new(cloned_name)
cloned_to_destroy.destroy if cloned_to_destroy.defined?
cloned = nil
@container.stop
begin
assert_long_running_function_does_not_block_ruby do
cloned = @container.clone(cloned_name)
end
ensure
@container.start
end
# Verify that it did something
assert(@container.name == @name, "original container name has changed from '#{@name}' to '#{@container.name}''")
assert(@container.running?, "original container is not running")
assert(cloned.name == cloned_name, "new container name should be '#{cloned_name}', is '#{cloned.name}'")
assert(cloned.init_pid != @container.init_pid, "cloned container init pid is the same as the original! Something ain't right.")
end
# TODO Unsure how to test this without attaching to the actual tty! Must be a way to obtain a pipe or false tty of some sort. Manual run reveals it works, however.
# def test_console_allows_ruby_to_continue
# assert_long_running_function_does_not_block_ruby do
# @container.console
# end
# end
def test_destroy_allows_ruby_to_continue
container = LXC::Container.new("test_destroy")
container.create('ubuntu') if !container.defined?
assert_long_running_function_does_not_block_ruby do
container.destroy
end
assert(!container.defined?, "Destroy did not destroy the container!")
end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_freeze_allows_ruby_to_continue
# begin
# assert_long_running_function_does_not_block_ruby do
# @container.freeze
# end
# ensure
# @container.unfreeze
# end
# end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_load_config_allows_ruby_to_continue
# File.open('/tmp/blah', 'w') do |file|
# file.write("\n\n\n\n")
# end
# begin
# container = LXC::Container.new('blahdeblah')
# assert_long_running_function_does_not_block_ruby do
# container.load_config('/tmp/blah')
# end
# ensure
# File.delete('/tmp/blah')
# end
# end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_reboot_allows_ruby_to_continue
# assert_long_running_function_does_not_block_ruby do
# @container.reboot
# end
# end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_remove_device_node_allows_ruby_to_continue
# assert_long_running_function_does_not_block_ruby do
# @container.remove_device_node('/dev/ttyS0')
# end
# end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_save_config_allows_ruby_to_continue
# File.unlink('/tmp/blah') if File.exist?('/tmp/blah')
# assert_long_running_function_does_not_block_ruby do
# @container.save_config('/tmp/blah')
# end
# assert(File.exist?('/tmp/blah'), "save_config did not save /tmp/blah!")
# end
def test_shutdown_allows_ruby_to_continue
begin
assert_long_running_function_does_not_block_ruby do
@container.shutdown
end
ensure
@container.start if !@container.running?
end
end
def test_snapshot_allows_ruby_to_continue
@container.stop
begin
assert_long_running_function_does_not_block_ruby do
@container.snapshot
end
ensure
@container.start
end
end
def test_snapshot_destroy_allows_ruby_to_continue
@container.stop
begin
snapshot = @container.snapshot
assert_long_running_function_does_not_block_ruby do
@container.snapshot_destroy(snapshot)
end
ensure
@container.start
end
end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_snapshot_list_allows_ruby_to_continue
# @container.stop
# begin
# snapshot = @container.snapshot
# assert_long_running_function_does_not_block_ruby do
# assert(@container.snapshot_list > 0, "Snapshot list was empty!"
# end
# ensure
# @container.start
# end
# end
def test_snapshot_restore_allows_ruby_to_continue
@container.stop
begin
snapshot = @container.snapshot
assert_long_running_function_does_not_block_ruby do
@container.snapshot_restore(snapshot)
end
ensure
@container.start
end
end
def test_start_allows_ruby_to_continue
@container.stop
assert_long_running_function_does_not_block_ruby do
@container.start
end
assert(@container.running?, "Start did not start container! State = #{@container.state}")
end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_stop_allows_ruby_to_continue
# begin
# assert_long_running_function_does_not_block_ruby do
# @container.stop
# end
# assert(!@container.running?, "Stop did not stop container! State = #{@container.state}")
# ensure
# @container.start if !@container.running?
# end
# end
# TODO find a way to test unblockness for functions that don't run quite so long
# def test_unfreeze_allows_ruby_to_continue
# @container.freeze
# assert_long_running_function_does_not_block_ruby do
# @container.unfreeze
# end
# end
def test_wait_allows_ruby_to_continue
t = Thread.new do
sleep(0.5)
@container.stop
end
begin
assert_long_running_function_does_not_block_ruby do
@container.wait(:stopped, 2)
end
assert(@container.state == :stopped, "Container never stopped! State is now #{@container.state.inspect}")
ensure
t.join
@container.start if !@container.running?
end
end
end