#include #include /* for PER_* constants */ #include /* for CLONE_* constants */ #include #include #include #define SYMBOL(s) ID2SYM(rb_intern(s)) extern int lxc_wait_for_pid_status(pid_t pid); static VALUE Error; struct container_data { struct lxc_container *container; }; static char ** ruby_to_c_string_array(VALUE rb_arr) { int i; size_t len; char **arr; len = RARRAY_LEN(rb_arr); arr = malloc(len); if (arr == NULL) rb_raise(rb_eNoMemError, "unable to allocate array"); for (i = 0; i < len; i++) { VALUE s = rb_ary_entry(rb_arr, i); arr[i] = strdup(StringValuePtr(s)); } return arr; } static void free_char_pointer_array(char **arr, size_t len) { size_t i; for (i = 0; i < len; i++) free(arr[i]); free(arr); } static void container_free(void *data) { struct container_data *d = (struct container_data *)data; lxc_container_put(d->container); free(d); } static VALUE container_alloc(VALUE klass) { struct container_data *data; return Data_Make_Struct(klass, struct container_data, NULL, container_free, data); } static VALUE container_initialize(int argc, VALUE *argv, VALUE self) { char *name, *config_path; struct lxc_container *container; struct container_data *data; VALUE rb_name, rb_config_path; rb_scan_args(argc, argv, "11", &rb_name, &rb_config_path); name = StringValuePtr(rb_name); config_path = NIL_P(rb_config_path) ? NULL : StringValuePtr(rb_config_path); container = lxc_container_new(name, config_path); if (container == NULL) rb_raise(Error, "error creating container %s", name); Data_Get_Struct(self, struct container_data, data); data->container = container; return self; } static VALUE container_config_file_name(VALUE self) { char *config_file_name; struct container_data *data; Data_Get_Struct(self, struct container_data, data); config_file_name = data->container->config_file_name(data->container); return rb_str_new2(config_file_name); } static VALUE container_controllable_p(VALUE self) { int controllable; struct container_data *data; Data_Get_Struct(self, struct container_data, data); controllable = data->container->may_control(data->container); return controllable ? Qtrue : Qfalse; } static VALUE container_defined_p(VALUE self) { int defined; struct container_data *data; Data_Get_Struct(self, struct container_data, data); defined = data->container->is_defined(data->container); return defined ? Qtrue : Qfalse; } static VALUE container_init_pid(VALUE self) { pid_t pid; struct container_data *data; Data_Get_Struct(self, struct container_data, data); pid = data->container->init_pid(data->container); if (pid < 0) return Qnil; return INT2NUM(pid); } static VALUE container_name(VALUE self) { struct container_data *data; Data_Get_Struct(self, struct container_data, data); return rb_str_new2(data->container->name); } static VALUE container_running_p(VALUE self) { int running; struct container_data *data; Data_Get_Struct(self, struct container_data, data); running = data->container->is_running(data->container); return running ? Qtrue : Qfalse; } static VALUE container_state(VALUE self) { const char *state; struct container_data *data; Data_Get_Struct(self, struct container_data, data); state = data->container->state(data->container); return rb_str_new2(state); } static VALUE container_add_device_node(int argc, VALUE *argv, VALUE self) { int ret; char *src_path, *dst_path; struct container_data *data; VALUE rb_src_path, rb_dst_path; rb_scan_args(argc, argv, "11", &rb_src_path, &rb_dst_path); src_path = NIL_P(rb_src_path) ? NULL : StringValuePtr(rb_src_path); dst_path = NIL_P(rb_dst_path) ? NULL : StringValuePtr(rb_dst_path); Data_Get_Struct(self, struct container_data, data); ret = data->container->add_device_node(data->container, src_path, dst_path); if (!ret) rb_raise(Error, "unable to add device node"); return self; } static VALUE lxc_attach_exec_block_cb(VALUE block) { rb_funcall3(block, rb_intern("call"), 0, NULL); return INT2FIX(0); } static VALUE lxc_attach_exec_rescue_cb() { return INT2FIX(1); } static int lxc_attach_exec(void *payload) { VALUE res = rb_rescue(lxc_attach_exec_block_cb, (VALUE)payload, lxc_attach_exec_rescue_cb, (VALUE)NULL); return FIX2INT(res); } static int io_fileno(VALUE io) { return NUM2INT(rb_funcall(io, rb_intern("fileno"), 0)); } static int is_integer(VALUE v) { return (TYPE(v) == T_FIXNUM || TYPE(v) == T_BIGNUM); } static int is_string(VALUE v) { return TYPE(v) == T_STRING; } static int is_string_array(VALUE v) { size_t i, len; if (TYPE(v) != T_ARRAY) return 0; len = RARRAY_LEN(v); for (i = 0; i < len; i++) { if (TYPE(rb_ary_entry(v, i)) != T_STRING) return 0; } return 1; } static int is_io(VALUE v) { return !strcmp(rb_obj_classname(v), "IO"); } static void lxc_attach_free_options(lxc_attach_options_t *opts) { if (!opts) return; if (opts->initial_cwd) free(opts->initial_cwd); if (opts->extra_env_vars) { free_char_pointer_array(opts->extra_env_vars, RARRAY_LEN(opts->extra_env_vars)); } if (opts->extra_keep_env) { free_char_pointer_array(opts->extra_keep_env, RARRAY_LEN(opts->extra_keep_env)); } free(opts); } static lxc_attach_options_t * lxc_attach_parse_options(VALUE rb_opts) { lxc_attach_options_t default_opts = LXC_ATTACH_OPTIONS_DEFAULT; lxc_attach_options_t *opts; VALUE rb_attach_flags, rb_namespaces, rb_personality, rb_initial_cwd; VALUE rb_uid, rb_gid, rb_env_policy, rb_extra_env_vars, rb_extra_keep_env; VALUE rb_stdin, rb_stdout, rb_stderr; if (!NIL_P(rb_opts) && TYPE(rb_opts) != T_HASH) rb_raise(Error, "need options to be a hash"); opts = malloc(sizeof(*opts)); if (opts == NULL) rb_raise(rb_eNoMemError, "unable to allocate options"); memcpy(opts, &default_opts, sizeof(*opts)); if (NIL_P(rb_opts)) return opts; rb_attach_flags = rb_hash_aref(rb_opts, SYMBOL("flags")); if (!NIL_P(rb_attach_flags)) { if (is_integer(rb_attach_flags)) opts->attach_flags = NUM2INT(rb_attach_flags); else goto err; } rb_namespaces = rb_hash_aref(rb_opts, SYMBOL("namespaces")); if (!NIL_P(rb_namespaces)) { if (is_integer(rb_namespaces)) opts->namespaces = NUM2INT(rb_namespaces); else goto err; } rb_personality = rb_hash_aref(rb_opts, SYMBOL("personality")); if (!NIL_P(rb_personality)) { if (is_integer(rb_personality)) opts->personality = NUM2INT(rb_personality); else goto err; } rb_initial_cwd = rb_hash_aref(rb_opts, SYMBOL("initial_cwd")); if (!NIL_P(rb_initial_cwd)) { if (is_string(rb_initial_cwd)) opts->initial_cwd = StringValuePtr(rb_initial_cwd); else goto err; } rb_uid = rb_hash_aref(rb_opts, SYMBOL("uid")); if (!NIL_P(rb_uid)) { if (is_integer(rb_uid)) opts->uid = NUM2INT(rb_uid); else goto err; } rb_gid = rb_hash_aref(rb_opts, SYMBOL("gid")); if (!NIL_P(rb_gid)) { if (is_integer(rb_gid)) opts->gid = NUM2INT(rb_gid); else goto err; } rb_env_policy = rb_hash_aref(rb_opts, SYMBOL("env_policy")); if (!NIL_P(rb_env_policy)) { if (is_integer(rb_env_policy)) opts->env_policy = NUM2INT(rb_env_policy); else goto err; } rb_extra_env_vars = rb_hash_aref(rb_opts, SYMBOL("extra_env_vars")); if (!NIL_P(rb_extra_env_vars)) { if (is_string_array(rb_extra_env_vars)) opts->extra_env_vars = ruby_to_c_string_array(rb_extra_env_vars); else goto err; } rb_extra_keep_env = rb_hash_aref(rb_opts, SYMBOL("extra_keep_env")); if (!NIL_P(rb_extra_keep_env)) { if (is_string_array(rb_extra_keep_env)) opts->extra_keep_env = ruby_to_c_string_array(rb_extra_keep_env); else goto err; } rb_stdin = rb_hash_aref(rb_opts, SYMBOL("stdin")); if (!NIL_P(rb_stdin)) { if (is_io(rb_stdin)) opts->stdin_fd = io_fileno(rb_stdin); else goto err; } rb_stdout = rb_hash_aref(rb_opts, SYMBOL("stdout")); if (!NIL_P(rb_stdout)) { if (is_io(rb_stdout)) opts->stdout_fd = io_fileno(rb_stdout); else goto err; } rb_stderr = rb_hash_aref(rb_opts, SYMBOL("stderr")); if (!NIL_P(rb_stderr)) { if (is_io(rb_stderr)) opts->stderr_fd = io_fileno(rb_stderr); else goto err; } return opts; err: lxc_attach_free_options(opts); return NULL; } static VALUE container_attach(int argc, VALUE *argv, VALUE self) { int wait; long ret; pid_t pid; lxc_attach_options_t *opts; struct container_data *data; VALUE block, rb_opts, rb_wait; if (!rb_block_given_p()) rb_raise(Error, "no block given"); block = rb_block_proc(); rb_scan_args(argc, argv, "01", &rb_opts); rb_wait = rb_hash_delete(rb_opts, SYMBOL("wait")); opts = lxc_attach_parse_options(rb_opts); if (opts == NULL) rb_raise(Error, "unable to parse attach options"); wait = rb_wait == Qnil || rb_wait == Qfalse ? 0 : 1; Data_Get_Struct(self, struct container_data, data); ret = data->container->attach(data->container, lxc_attach_exec, (void *)block, opts, &pid); if (ret < 0) goto out; if (wait) { ret = lxc_wait_for_pid_status(pid); /* handle case where attach fails */ if (WIFEXITED(ret) && WEXITSTATUS(ret) == 255) ret = -1; } else { ret = pid; } out: lxc_attach_free_options(opts); return LONG2NUM(ret); } static VALUE container_clear_config(VALUE self) { struct container_data *data; Data_Get_Struct(self, struct container_data, data); data->container->clear_config(data->container); return self; } static VALUE container_clear_config_item(VALUE self, VALUE rb_key) { int ret; char *key; struct container_data *data; key = StringValuePtr(rb_key); Data_Get_Struct(self, struct container_data, data); ret = data->container->clear_config_item(data->container, key); if (!ret) rb_raise(Error, "unable to clear config item %s", key); return self; } static VALUE container_clone(int argc, VALUE *argv, VALUE self) { int flags; unsigned long new_size; char *new_name, *config_path, *bdev_type, *bdev_data; char **hook_args; struct lxc_container *container, *new_container; struct container_data *data; VALUE rb_new_name, rb_config_path, rb_bdev_type, rb_bdev_data, rb_hook_args; VALUE rb_opts; rb_scan_args(argc, argv, "01", &rb_opts); if (TYPE(rb_opts) != T_HASH) rb_raise(rb_eArgError, "clone options must be a hash"); rb_new_name = rb_hash_aref(rb_opts, SYMBOL("new_name")); new_name = StringValuePtr(rb_new_name); rb_config_path = rb_hash_aref(rb_opts, SYMBOL("config_path")); config_path = StringValuePtr(rb_config_path); flags = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("flags"))); rb_bdev_type = rb_hash_aref(rb_opts, SYMBOL("bdev_type")); bdev_type = StringValuePtr(rb_bdev_type); rb_bdev_data = rb_hash_aref(rb_opts, SYMBOL("bdev_data")); bdev_data = StringValuePtr(rb_bdev_data); new_size = NUM2ULONG(rb_hash_aref(rb_opts, SYMBOL("new_size"))); rb_hook_args = rb_hash_aref(rb_opts, SYMBOL("hook_args")); hook_args = NIL_P(rb_hook_args) ? NULL : ruby_to_c_string_array(rb_hook_args); if (hook_args) free_char_pointer_array(hook_args, RARRAY_LEN(hook_args)); Data_Get_Struct(self, struct container_data, data); container = data->container; new_container = container->clone(container, new_name, config_path, flags, bdev_type, bdev_data, new_size, hook_args); if (new_container == NULL) rb_raise(Error, "unable to clone container"); lxc_container_put(new_container); return self; } static VALUE container_console(int argc, VALUE *argv, VALUE self) { int ret; int tty_num = -1, stdin_fd = 0, stdout_fd = 1, stderr_fd = 2, escape = 1; struct container_data *data; struct lxc_container *container; VALUE rb_opts; rb_scan_args(argc, argv, "01", &rb_opts); switch (TYPE(rb_opts)) { case T_HASH: tty_num = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("tty_num"))); stdin_fd = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("stdin_fd"))); stdout_fd = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("stdout_fd"))); stderr_fd = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("stderr_fd"))); escape = NUM2INT(rb_hash_aref(rb_opts, SYMBOL("escape"))); break; default: rb_raise(rb_eArgError, "options must be a hash"); } Data_Get_Struct(self, struct container_data, data); container = data->container; ret = container->console(container, tty_num, stdin_fd, stdout_fd, stderr_fd, escape); if (ret != 0) rb_raise(Error, "unable to access container console"); return self; } static VALUE container_console_fd(int argc, VALUE *argv, VALUE self) { int ret, tty_num, master_fd; struct container_data *data; VALUE rb_tty_num; VALUE rb_io_args[1]; rb_scan_args(argc, argv, "01", &rb_tty_num); tty_num = NIL_P(rb_tty_num) ? -1 : NUM2INT(rb_tty_num); Data_Get_Struct(self, struct container_data, data); ret = data->container->console_getfd(data->container, &tty_num, &master_fd); if (ret < 0) rb_raise(Error, "unable to allocate tty"); rb_io_args[0] = INT2NUM(master_fd); return rb_class_new_instance(1, rb_io_args, rb_cIO); } static VALUE container_create(int argc, VALUE *argv, VALUE self) { int ret, flags; char *template; char **args = { NULL }; struct container_data *data; struct lxc_container *container; VALUE rb_template, rb_flags, rb_args; rb_scan_args(argc, argv, "12", &rb_template, &rb_flags, &rb_args); template = StringValuePtr(rb_template); flags = NIL_P(rb_flags) ? 0 : NUM2INT(rb_flags); if (!NIL_P(rb_args)) args = ruby_to_c_string_array(rb_args); Data_Get_Struct(self, struct container_data, data); container = data->container; ret = container->create(container, template, NULL, NULL, flags, args); if (!NIL_P(rb_args)) free_char_pointer_array(args, RARRAY_LEN(rb_args)); if (!ret) rb_raise(Error, "unable to create container"); return self; } static VALUE container_destroy(VALUE self) { int ret; struct container_data *data; Data_Get_Struct(self, struct container_data, data); ret = data->container->destroy(data->container); if (!ret) rb_raise(Error, "unable to destroy container"); return self; } static VALUE container_freeze(VALUE self) { int ret; struct container_data *data; Data_Get_Struct(self, struct container_data, data); ret = data->container->freeze(data->container); if (!ret) rb_raise(Error, "unable to freeze container"); return self; } static VALUE container_cgroup_item(VALUE self, VALUE rb_key) { int len1, len2; char *key, *value; struct container_data *data; struct lxc_container *container; VALUE ret; Data_Get_Struct(self, struct container_data, data); container = data->container; key = StringValuePtr(rb_key); len1 = container->get_cgroup_item(container, key, NULL, 0); if (len1 < 0) rb_raise(Error, "invalid cgroup entry for %s", key); value = malloc(sizeof(char) * len1 + 1); if (value == NULL) rb_raise(rb_eNoMemError, "unable to allocate cgroup value"); len2 = container->get_cgroup_item(container, key, value, len1 + 1); if (len1 != len2) { free(value); rb_raise(Error, "unable to read cgroup value"); } ret = rb_str_new2(value); free(value); return ret; } static VALUE container_config_item(VALUE self, VALUE rb_key) { int len1, len2; char *key, *value; struct container_data *data; struct lxc_container *container; VALUE rb_config; Data_Get_Struct(self, struct container_data, data); container = data->container; key = StringValuePtr(rb_key); len1 = container->get_config_item(container, key, NULL, 0); if (len1 < 0) rb_raise(Error, "invalid configuration key: %s", key); value = malloc(sizeof(char) * len1 + 1); if (value == NULL) rb_raise(rb_eNoMemError, "unable to allocate configuration value"); len2 = container->get_config_item(container, key, value, len1 + 1); if (len1 != len2) { free(value); rb_raise(Error, "unable to read configuration file"); } rb_config = rb_str_new2(value); free(value); /* Return a list in case of multiple lines */ return value[len2-1] == '\n' ? rb_str_split(rb_config, "\n") : rb_config; } static VALUE container_config_path(VALUE self) { struct container_data *data; Data_Get_Struct(self, struct container_data, data); return rb_str_new2(data->container->get_config_path(data->container)); } static VALUE container_keys(VALUE self, VALUE rb_key) { int len1, len2; char *key, *value; struct container_data *data; struct lxc_container *container; VALUE rb_keys; Data_Get_Struct(self, struct container_data, data); container = data->container; key = StringValuePtr(rb_key); len1 = container->get_keys(container, key, NULL, 0); if (len1 < 0) rb_raise(Error, "invalid configuration key: %s", key); value = malloc(sizeof(char) * len1 + 1); if (value == NULL) rb_raise(rb_eNoMemError, "unable to allocate configuration value"); len2 = container->get_keys(container, key, value, len1 + 1); if (len1 != len2) { free(value); rb_raise(Error, "unable to read configuration keys"); } rb_keys = rb_str_new2(value); free(value); return value[len2-1] == '\n' ? rb_str_split(rb_keys, "\n") : rb_keys; } static VALUE container_interfaces(VALUE self) { int i, num_interfaces; char **interfaces; struct container_data *data; VALUE rb_interfaces; Data_Get_Struct(self, struct container_data, data); interfaces = data->container->get_interfaces(data->container); if (!interfaces) return rb_ary_new(); for (num_interfaces = 0; interfaces[num_interfaces]; num_interfaces++) ; rb_interfaces = rb_ary_new2(num_interfaces); for (i = 0; i < num_interfaces; i++) rb_ary_store(rb_interfaces, i, rb_str_new2(interfaces[i])); free_char_pointer_array(interfaces, num_interfaces); return rb_interfaces; } static VALUE container_ips(int argc, VALUE *argv, VALUE self) { int i, num_ips, scope; char *interface, *family; char **ips; struct container_data *data; VALUE rb_ips, rb_interface, rb_family, rb_scope; rb_scan_args(argc, argv, "03", &rb_interface, &rb_family, &rb_scope); interface = NIL_P(rb_interface) ? NULL : StringValuePtr(rb_interface); family = NIL_P(rb_family) ? NULL : StringValuePtr(rb_family); scope = NIL_P(rb_scope) ? 0 : NUM2INT(rb_scope); Data_Get_Struct(self, struct container_data, data); ips = data->container->get_ips(data->container, interface, family, scope); if (ips == NULL) return rb_ary_new(); for (num_ips = 0; ips[num_ips]; num_ips++) ; rb_ips = rb_ary_new2(num_ips); for (i = 0; i < num_ips; i++) rb_ary_store(rb_ips, i, rb_str_new2(ips[i])); free_char_pointer_array(ips, num_ips); return rb_ips; } static VALUE container_load_config(int argc, VALUE *argv, VALUE self) { int ret; char *path; struct container_data *data; VALUE rb_path; rb_scan_args(argc, argv, "01", &rb_path); path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path); Data_Get_Struct(self, struct container_data, data); ret = data->container->load_config(data->container, path); if (!ret) rb_raise(Error, "unable to load configuration file"); return self; } static VALUE container_reboot(VALUE self) { int ret; struct container_data *data; Data_Get_Struct(self, struct container_data, data); ret = data->container->reboot(data->container); if (!ret) rb_raise(Error, "unable to reboot container"); return self; } static VALUE container_remove_device_node(int argc, VALUE *argv, VALUE self) { int ret; char *src_path, *dst_path; struct lxc_container *container; struct container_data *data; VALUE rb_src_path, rb_dst_path; rb_scan_args(argc, argv, "11", &rb_src_path, &rb_dst_path); src_path = StringValuePtr(rb_src_path); dst_path = NIL_P(rb_dst_path) ? NULL : StringValuePtr(rb_dst_path); Data_Get_Struct(self, struct container_data, data); container = data->container; ret = container->remove_device_node(container, src_path, dst_path); if (!ret) rb_raise(Error, "unable to remove device node"); return self; } static VALUE container_save_config(int argc, VALUE *argv, VALUE self) { int ret; char *path; struct container_data *data; VALUE rb_path; rb_scan_args(argc, argv, "01", &rb_path); path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path); Data_Get_Struct(self, struct container_data, data); ret = data->container->save_config(data->container, path); if (!ret) rb_raise(Error, "unable to save configuration file"); return self; } static VALUE container_set_cgroup_item(VALUE self, VALUE rb_key, VALUE rb_value) { int ret; char *key, *value; struct container_data *data; key = StringValuePtr(rb_key); value = StringValuePtr(rb_value); Data_Get_Struct(self, struct container_data, data); ret = data->container->set_cgroup_item(data->container, key, value); if (!ret) rb_raise(Error, "unable to set cgroup item %s to %s", key, value); return self; } static VALUE container_set_config_item(VALUE self, VALUE rb_key, VALUE rb_value) { int ret; char *key, *value; struct container_data *data; Data_Get_Struct(self, struct container_data, data); key = StringValuePtr(rb_key); switch (TYPE(rb_value)) { case T_STRING: { value = StringValuePtr(rb_value); ret = data->container->set_config_item(data->container, key, value); if (!ret) { rb_raise(Error, "unable to set configuration item %s to %s", key, value); } return self; } case T_ARRAY: { size_t i; size_t len = RARRAY_LEN(rb_value); for (i = 0; i < len; i++) { VALUE rb_entry = rb_ary_entry(rb_value, i); char *entry = StringValuePtr(rb_entry); ret = data->container->set_config_item(data->container, key, entry); if (!ret) { rb_raise(Error, "unable to set configuration item %s to %s", key, entry); } } return self; } default: rb_raise(Error, "configuration value must be either string or array"); } } static VALUE container_set_config_path(VALUE self, VALUE rb_path) { int ret; char *path; struct container_data *data; path = StringValuePtr(rb_path); Data_Get_Struct(self, struct container_data, data); ret = data->container->set_config_path(data->container, path); if (!ret) rb_raise(Error, "unable to set configuration path to %s", path); return self; } static VALUE container_shutdown(int argc, VALUE *argv, VALUE self) { int ret, timeout; struct container_data *data; VALUE 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); ret = data->container->shutdown(data->container, timeout); if (!ret) rb_raise(Error, "unable to shutdown container"); return self; } static VALUE container_snapshot(int argc, VALUE *argv, VALUE self) { int ret; char *path; char new_name[20]; struct container_data *data; VALUE rb_path; rb_scan_args(argc, argv, "01", &rb_path); path = NIL_P(rb_path) ? NULL : StringValuePtr(rb_path); Data_Get_Struct(self, struct container_data, data); ret = data->container->snapshot(data->container, path); if (ret < 0) rb_raise(Error, "unable to snapshot container"); ret = snprintf(new_name, 20, "snap%d", ret); if (ret < 0 || ret >= 20) rb_raise(Error, "unable to snapshot container"); return rb_str_new2(new_name); } static VALUE container_snapshot_destroy(VALUE self, VALUE rb_name) { int ret; char *name; struct container_data *data; name = StringValuePtr(rb_name); Data_Get_Struct(self, struct container_data, data); ret = data->container->snapshot_destroy(data->container, name); if (!ret) rb_raise(Error, "unable to destroy snapshot"); return self; } static VALUE container_snapshot_list(VALUE self) { int i, num_snapshots; struct lxc_snapshot *snapshots; struct container_data *data; VALUE rb_snapshots; Data_Get_Struct(self, struct container_data, data); num_snapshots = data->container->snapshot_list(data->container, &snapshots); if (num_snapshots < 0) rb_raise(Error, "unable to list snapshots"); rb_snapshots = rb_ary_new2(num_snapshots); for (i = 0; i < num_snapshots; i++) { VALUE attrs = rb_ary_new2(4); rb_ary_store(attrs, 0, rb_str_new2(snapshots[i].name)); rb_ary_store(attrs, 1, rb_str_new2(snapshots[i].comment_pathname)); rb_ary_store(attrs, 2, rb_str_new2(snapshots[i].timestamp)); rb_ary_store(attrs, 3, rb_str_new2(snapshots[i].lxcpath)); snapshots[i].free(&snapshots[i]); rb_ary_store(rb_snapshots, i, attrs); } return rb_snapshots; } static VALUE container_snapshot_restore(int argc, VALUE *argv, VALUE self) { int ret; char *name, *new_name; struct container_data *data; VALUE rb_name, rb_new_name; rb_scan_args(argc, argv, "11", &rb_name, &rb_new_name); name = StringValuePtr(rb_name); new_name = NIL_P(rb_new_name) ? NULL : StringValuePtr(rb_new_name); Data_Get_Struct(self, struct container_data, data); ret = data->container->snapshot_restore(data->container, name, new_name); if (!ret) rb_raise(Error, "unable to restore snapshot"); return self; } static VALUE container_start(int argc, VALUE *argv, VALUE self) { int ret, use_init, daemonize, close_fds; char **args; struct container_data *data; VALUE rb_use_init, rb_daemonize, rb_close_fds, rb_args, rb_opts; use_init = 0; daemonize = 1; close_fds = 0; args = NULL; rb_args = Qnil; rb_scan_args(argc, argv, "01", &rb_opts); if (!NIL_P(rb_opts)) { Check_Type(rb_opts, T_HASH); rb_use_init = rb_hash_aref(rb_opts, SYMBOL("use_init")); use_init = (rb_use_init != Qnil) && (rb_use_init != Qfalse); rb_daemonize = rb_hash_aref(rb_opts, SYMBOL("daemonize")); daemonize = (rb_daemonize != Qnil) && (rb_daemonize != Qfalse); rb_close_fds = rb_hash_aref(rb_opts, SYMBOL("close_fds")); close_fds = (rb_close_fds != Qnil) && (rb_close_fds != Qfalse); rb_args = rb_hash_aref(rb_opts, SYMBOL("args")); args = NIL_P(rb_args) ? NULL : ruby_to_c_string_array(rb_args); } Data_Get_Struct(self, struct container_data, data); data->container->want_close_all_fds(data->container, close_fds); data->container->want_daemonize(data->container, daemonize); ret = data->container->start(data->container, use_init, args); if (!NIL_P(rb_args)) free_char_pointer_array(args, RARRAY_LEN(rb_args)); if (!ret) rb_raise(Error, "unable to start container"); return self; } static VALUE container_stop(VALUE self) { int ret; struct container_data *data; Data_Get_Struct(self, struct container_data, data); ret = data->container->stop(data->container); if (!ret) rb_raise(Error, "unable to stop container"); return self; } static VALUE container_unfreeze(VALUE self) { int ret; struct container_data *data; Data_Get_Struct(self, struct container_data, data); ret = data->container->unfreeze(data->container); if (!ret) rb_raise(Error, "unable to unfreeze container"); return self; } static VALUE container_wait(int argc, VALUE *argv, VALUE self) { int ret, timeout; char *state; struct container_data *data; VALUE rb_state, rb_timeout; rb_scan_args(argc, argv, "11", &rb_state, &rb_timeout); state = StringValuePtr(rb_state); timeout = NIL_P(rb_timeout) ? -1 : NUM2INT(rb_timeout); Data_Get_Struct(self, struct container_data, data); ret = data->container->wait(data->container, state, timeout); if (!ret) rb_raise(Error, "error waiting for container"); return self; } static VALUE lxc_default_config_path(VALUE self) { return rb_str_new2(lxc_get_default_config_path()); } static VALUE lxc_version(VALUE self) { return rb_str_new2(lxc_get_version()); } static VALUE lxc_list_containers(int argc, VALUE *argv, VALUE self) { int i, num_containers; int active, defined; char *config; char **names; VALUE rb_active, rb_defined, rb_config; VALUE rb_opts; VALUE rb_containers; rb_scan_args(argc, argv, "01", &rb_opts); if (NIL_P(rb_opts)) { active = 1; defined = 1; config = NULL; } else { Check_Type(rb_opts, T_HASH); rb_active = rb_hash_aref(rb_opts, SYMBOL("active")); active = (rb_active != Qnil) && (rb_active != Qfalse); rb_defined = rb_hash_aref(rb_opts, SYMBOL("defined")); defined = (rb_defined != Qnil) && (rb_defined != Qfalse); rb_config = rb_hash_aref(rb_opts, SYMBOL("config_path")); config = NIL_P(rb_config) ? NULL : StringValuePtr(rb_config); } num_containers = 0; if (active && defined) num_containers = list_all_containers(config, &names, NULL); else if (active) num_containers = list_active_containers(config, &names, NULL); else if (defined) num_containers = list_defined_containers(config, &names, NULL); if (num_containers < 0) rb_raise(Error, "failure to list containers"); rb_containers = rb_ary_new2(num_containers); for (i = 0; i < num_containers; i++) rb_ary_store(rb_containers, i, rb_str_new2(names[i])); free_char_pointer_array(names, num_containers); return rb_containers; } void Init_lxc(void) { VALUE LXC = rb_define_module("LXC"); //rb_define_singleton_method(LXC, "arch_to_personality", // lxc_arch_to_personality, 1); //rb_define_singleton_method(LXC, "attach_run_command", // lxc_attach_run_command, 0); //rb_define_singleton_method(LXC, "attach_run_shell", // lxc_attach_run_shell, 0); rb_define_singleton_method(LXC, "default_config_path", lxc_default_config_path, 0); rb_define_singleton_method(LXC, "version", lxc_version, 0); rb_define_singleton_method(LXC, "list_containers", lxc_list_containers, -1); VALUE Container = rb_define_class_under(LXC, "Container", rb_cObject); rb_define_alloc_func(Container, container_alloc); rb_define_method(Container, "initialize", container_initialize, -1); rb_define_method(Container, "config_file_name", container_config_file_name, 0); rb_define_method(Container, "controllable?", container_controllable_p, 0); rb_define_method(Container, "defined?", container_defined_p, 0); rb_define_method(Container, "init_pid", container_init_pid, 0); rb_define_method(Container, "name", container_name, 0); rb_define_method(Container, "running?", container_running_p, 0); rb_define_method(Container, "state", container_state, 0); rb_define_method(Container, "add_device_node", container_add_device_node, -1); rb_define_method(Container, "attach", container_attach, -1); rb_define_method(Container, "clear_config", container_clear_config, -1); rb_define_method(Container, "clear_config_item", container_clear_config_item, 1); rb_define_method(Container, "clone", container_clone, -1); rb_define_method(Container, "console", container_console, -1); rb_define_method(Container, "console_fd", container_console_fd, -1); rb_define_method(Container, "create", container_create, -1); rb_define_method(Container, "destroy", container_destroy, 0); rb_define_method(Container, "freeze", container_freeze, 0); rb_define_method(Container, "cgroup_item", container_cgroup_item, 1); rb_define_method(Container, "config_item", container_config_item, 1); rb_define_method(Container, "config_path", container_config_path, 0); rb_define_method(Container, "keys", container_keys, 1); rb_define_method(Container, "interfaces", container_interfaces, 0); rb_define_method(Container, "ip_addresses", container_ips, -1); rb_define_method(Container, "load_config", container_load_config, -1); rb_define_method(Container, "reboot", container_reboot, 0); rb_define_method(Container, "remove_device_node", container_remove_device_node, 0); rb_define_method(Container, "save_config", container_save_config, -1); rb_define_method(Container, "set_cgroup_item", container_set_cgroup_item, 2); rb_define_method(Container, "set_config_item", container_set_config_item, 2); rb_define_method(Container, "config_path=", container_set_config_path, 1); rb_define_method(Container, "shutdown", container_shutdown, -1); rb_define_method(Container, "snapshot", container_snapshot, -1); rb_define_method(Container, "snapshot_destroy", container_snapshot_destroy, 1); rb_define_method(Container, "snapshot_list", container_snapshot_list, 0); rb_define_method(Container, "snapshot_restore", container_snapshot_restore, -1); rb_define_method(Container, "start", container_start, -1); rb_define_method(Container, "stop", container_stop, 0); rb_define_method(Container, "unfreeze", container_unfreeze, 0); rb_define_method(Container, "wait", container_wait, -1); #define LXC_CONTAINER_CONST(c) rb_define_const(LXC, #c, LONG2NUM(c)) /* namespace flags */ LXC_CONTAINER_CONST(CLONE_NEWUTS); LXC_CONTAINER_CONST(CLONE_NEWIPC); LXC_CONTAINER_CONST(CLONE_NEWUSER); LXC_CONTAINER_CONST(CLONE_NEWPID); LXC_CONTAINER_CONST(CLONE_NEWNET); LXC_CONTAINER_CONST(CLONE_NEWNS); /* attach: environment variable handling */ LXC_CONTAINER_CONST(LXC_ATTACH_CLEAR_ENV); LXC_CONTAINER_CONST(LXC_ATTACH_KEEP_ENV); /* attach: attach options */ LXC_CONTAINER_CONST(LXC_ATTACH_DEFAULT); LXC_CONTAINER_CONST(LXC_ATTACH_DROP_CAPABILITIES); LXC_CONTAINER_CONST(LXC_ATTACH_LSM_EXEC); LXC_CONTAINER_CONST(LXC_ATTACH_LSM_NOW); LXC_CONTAINER_CONST(LXC_ATTACH_MOVE_TO_CGROUP); LXC_CONTAINER_CONST(LXC_ATTACH_REMOUNT_PROC_SYS); LXC_CONTAINER_CONST(LXC_ATTACH_SET_PERSONALITY); /* clone: clone flags */ LXC_CONTAINER_CONST(LXC_CLONE_COPYHOOKS); LXC_CONTAINER_CONST(LXC_CLONE_KEEPMACADDR); LXC_CONTAINER_CONST(LXC_CLONE_KEEPNAME); LXC_CONTAINER_CONST(LXC_CLONE_SNAPSHOT); /* create: create flags */ LXC_CONTAINER_CONST(LXC_CREATE_QUIET); #undef LXC_CONTAINER_CONST Error = rb_define_class_under(LXC, "Error", rb_eStandardError); }