/* * Copyright (C) 2020-2021 Jo-Philipp Wich * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include "ucode/module.h" #define err_return(err, ...) do { set_error(err, __VA_ARGS__); return NULL; } while(0) static struct { enum ubus_msg_status code; char *msg; } last_error; __attribute__((format(printf, 2, 3))) static void set_error(int errcode, const char *fmt, ...) { va_list ap; free(last_error.msg); last_error.code = errcode; last_error.msg = NULL; if (fmt) { va_start(ap, fmt); xvasprintf(&last_error.msg, fmt, ap); va_end(ap); } } static char * _arg_type(uc_type_t type) { switch (type) { case UC_INTEGER: return "an integer value"; case UC_BOOLEAN: return "a boolean value"; case UC_STRING: return "a string value"; case UC_DOUBLE: return "a double value"; case UC_ARRAY: return "an array"; case UC_OBJECT: return "an object"; case UC_REGEXP: return "a regular expression"; case UC_CLOSURE: return "a function"; default: return "the expected type"; } } static bool _args_get(uc_vm_t *vm, size_t nargs, ...) { uc_value_t **ptr, *arg; uc_type_t type, t; const char *name; size_t index = 0; va_list ap; bool opt; va_start(ap, nargs); while (true) { name = va_arg(ap, const char *); if (!name) break; arg = uc_fn_arg(index++); type = va_arg(ap, uc_type_t); opt = va_arg(ap, int); ptr = va_arg(ap, uc_value_t **); if (!opt && !arg) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Argument %s is required", name); t = ucv_type(arg); if (t == UC_CFUNCTION) t = UC_CLOSURE; if (arg && t != type) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Argument %s is not %s", name, _arg_type(type)); *ptr = arg; } va_end(ap); return true; } #define args_get(vm, nargs, ...) do { if (!_args_get(vm, nargs, __VA_ARGS__, NULL)) return NULL; } while(0) static uc_resource_type_t *subscriber_type; static uc_resource_type_t *listener_type; static uc_resource_type_t *request_type; static uc_resource_type_t *notify_type; static uc_resource_type_t *object_type; static uc_resource_type_t *defer_type; static uc_resource_type_t *conn_type; static uint64_t n_cb_active; static bool have_own_uloop; static struct blob_buf buf; typedef struct { int timeout; struct blob_buf buf; struct ubus_context *ctx; } uc_ubus_connection_t; typedef struct { struct ubus_request request; struct uloop_timeout timeout; struct ubus_context *ctx; size_t registry_index; bool complete; uc_vm_t *vm; uc_value_t *callback; uc_value_t *response; } uc_ubus_deferred_t; typedef struct { struct ubus_object obj; struct ubus_context *ctx; size_t registry_index; uc_vm_t *vm; } uc_ubus_object_t; typedef struct { struct ubus_request_data req; struct uloop_timeout timeout; struct ubus_context *ctx; size_t registry_index; bool replied; uc_vm_t *vm; } uc_ubus_request_t; typedef struct { struct ubus_notify_request req; struct ubus_context *ctx; size_t registry_index; bool complete; uc_vm_t *vm; } uc_ubus_notify_t; typedef struct { struct ubus_event_handler ev; struct ubus_context *ctx; size_t registry_index; uc_vm_t *vm; } uc_ubus_listener_t; typedef struct { struct ubus_subscriber sub; struct ubus_context *ctx; size_t registry_index; uc_vm_t *vm; } uc_ubus_subscriber_t; static uc_value_t * uc_ubus_error(uc_vm_t *vm, size_t nargs) { uc_stringbuf_t *buf; const char *s; if (last_error.code == 0) return NULL; buf = ucv_stringbuf_new(); if (last_error.code == UBUS_STATUS_UNKNOWN_ERROR && last_error.msg) { ucv_stringbuf_addstr(buf, last_error.msg, strlen(last_error.msg)); } else { s = ubus_strerror(last_error.code); ucv_stringbuf_addstr(buf, s, strlen(s)); if (last_error.msg) ucv_stringbuf_printf(buf, ": %s", last_error.msg); } set_error(0, NULL); return ucv_stringbuf_finish(buf); } static void _uc_reg_get(uc_vm_t *vm, const char *key, size_t idx, size_t nptrs, ...) { uc_value_t *reg = uc_vm_registry_get(vm, key), **val; va_list ap; size_t i; va_start(ap, nptrs); for (i = 0; i < nptrs; i++) { val = va_arg(ap, uc_value_t **); if (val) *val = ucv_array_get(reg, idx + i); } va_end(ap); } static size_t _uc_reg_add(uc_vm_t *vm, const char *key, size_t nptrs, ...) { uc_value_t *reg = uc_vm_registry_get(vm, key); size_t idx, i; va_list ap; if (!reg) { reg = ucv_array_new(vm); uc_vm_registry_set(vm, key, reg); } va_start(ap, nptrs); for (idx = 0;; idx += nptrs) { if (ucv_array_get(reg, idx) == NULL) { for (i = 0; i < nptrs; i++) ucv_array_set(reg, idx + i, va_arg(ap, uc_value_t *)); break; } } va_end(ap); return idx; } static void _uc_reg_clear(uc_vm_t *vm, const char *key, size_t idx, size_t nptrs) { uc_value_t *reg = uc_vm_registry_get(vm, key); while (nptrs > 0) { nptrs--; ucv_array_set(reg, idx + nptrs, NULL); } } #define request_reg_add(vm, request, cb) \ _uc_reg_add(vm, "ubus.requests", 2, request, cb) #define request_reg_get(vm, idx, request, cb) \ _uc_reg_get(vm, "ubus.requests", idx, 2, request, cb) #define request_reg_clear(vm, idx) \ _uc_reg_clear(vm, "ubus.requests", idx, 2) #define object_reg_add(vm, obj, msg, cb) \ _uc_reg_add(vm, "ubus.objects", 3, obj, msg, cb) #define object_reg_get(vm, idx, obj, msg, cb) \ _uc_reg_get(vm, "ubus.objects", idx, 3, obj, msg, cb) #define object_reg_clear(vm, idx) \ _uc_reg_clear(vm, "ubus.objects", idx, 3) #define notify_reg_add(vm, notify, dcb, scb, ccb) \ _uc_reg_add(vm, "ubus.notifications", 4, notify, dcb, scb, ccb) #define notify_reg_get(vm, idx, notify, dcb, scb, ccb) \ _uc_reg_get(vm, "ubus.notifications", idx, 4, notify, dcb, scb, ccb) #define notify_reg_clear(vm, idx) \ _uc_reg_clear(vm, "ubus.notifications", idx, 4) #define listener_reg_add(vm, listener, cb) \ _uc_reg_add(vm, "ubus.listeners", 2, listener, cb) #define listener_reg_get(vm, idx, listener, cb) \ _uc_reg_get(vm, "ubus.listeners", idx, 2, listener, cb) #define listener_reg_clear(vm, idx) \ _uc_reg_clear(vm, "ubus.listeners", idx, 2) #define subscriber_reg_add(vm, subscriber, ncb, rcb) \ _uc_reg_add(vm, "ubus.subscribers", 3, subscriber, ncb, rcb) #define subscriber_reg_get(vm, idx, subscriber, ncb, rcb) \ _uc_reg_get(vm, "ubus.subscribers", idx, 3, subscriber, ncb, rcb) #define subscriber_reg_clear(vm, idx) \ _uc_reg_clear(vm, "ubus.subscribers", idx, 3) static uc_value_t * blob_to_ucv(uc_vm_t *vm, struct blob_attr *attr, bool table, const char **name); static uc_value_t * blob_array_to_ucv(uc_vm_t *vm, struct blob_attr *attr, size_t len, bool table) { uc_value_t *o = table ? ucv_object_new(vm) : ucv_array_new(vm); uc_value_t *v; struct blob_attr *pos; size_t rem = len; const char *name; if (!o) return NULL; __blob_for_each_attr(pos, attr, rem) { name = NULL; v = blob_to_ucv(vm, pos, table, &name); if (table && name) ucv_object_add(o, name, v); else if (!table) ucv_array_push(o, v); else ucv_put(v); } return o; } static uc_value_t * blob_to_ucv(uc_vm_t *vm, struct blob_attr *attr, bool table, const char **name) { void *data; int len; if (!blobmsg_check_attr(attr, false)) return NULL; if (table && blobmsg_name(attr)[0]) *name = blobmsg_name(attr); data = blobmsg_data(attr); len = blobmsg_data_len(attr); switch (blob_id(attr)) { case BLOBMSG_TYPE_BOOL: return ucv_boolean_new(*(uint8_t *)data); case BLOBMSG_TYPE_INT16: return ucv_int64_new((int16_t)be16_to_cpu(*(uint16_t *)data)); case BLOBMSG_TYPE_INT32: return ucv_int64_new((int32_t)be32_to_cpu(*(uint32_t *)data)); case BLOBMSG_TYPE_INT64: return ucv_int64_new((int64_t)be64_to_cpu(*(uint64_t *)data)); case BLOBMSG_TYPE_DOUBLE: ; union { double d; uint64_t u64; } v; v.u64 = be64_to_cpu(*(uint64_t *)data); return ucv_double_new(v.d); case BLOBMSG_TYPE_STRING: return ucv_string_new(data); case BLOBMSG_TYPE_ARRAY: return blob_array_to_ucv(vm, data, len, false); case BLOBMSG_TYPE_TABLE: return blob_array_to_ucv(vm, data, len, true); default: return NULL; } } static void ucv_array_to_blob(uc_value_t *val, struct blob_buf *blob); static void ucv_object_to_blob(uc_value_t *val, struct blob_buf *blob); static void ucv_to_blob(const char *name, uc_value_t *val, struct blob_buf *blob) { int64_t n; void *c; switch (ucv_type(val)) { case UC_NULL: blobmsg_add_field(blob, BLOBMSG_TYPE_UNSPEC, name, NULL, 0); break; case UC_BOOLEAN: blobmsg_add_u8(blob, name, ucv_boolean_get(val)); break; case UC_INTEGER: n = ucv_int64_get(val); if (errno == ERANGE) blobmsg_add_u64(blob, name, ucv_uint64_get(val)); else if (n >= INT32_MIN && n <= INT32_MAX) blobmsg_add_u32(blob, name, n); else blobmsg_add_u64(blob, name, n); break; case UC_DOUBLE: blobmsg_add_double(blob, name, ucv_double_get(val)); break; case UC_STRING: blobmsg_add_string(blob, name, ucv_string_get(val)); break; case UC_ARRAY: c = blobmsg_open_array(blob, name); ucv_array_to_blob(val, blob); blobmsg_close_array(blob, c); break; case UC_OBJECT: c = blobmsg_open_table(blob, name); ucv_object_to_blob(val, blob); blobmsg_close_table(blob, c); break; default: break; } } static void ucv_array_to_blob(uc_value_t *val, struct blob_buf *blob) { size_t i; for (i = 0; i < ucv_array_length(val); i++) ucv_to_blob(NULL, ucv_array_get(val, i), blob); } static void ucv_object_to_blob(uc_value_t *val, struct blob_buf *blob) { ucv_object_foreach(val, k, v) ucv_to_blob(k, v, blob); } static uc_value_t * uc_ubus_connect(uc_vm_t *vm, size_t nargs) { uc_value_t *socket, *timeout; uc_ubus_connection_t *c; args_get(vm, nargs, "socket", UC_STRING, true, &socket, "timeout", UC_INTEGER, true, &timeout); c = xalloc(sizeof(*c)); c->ctx = ubus_connect(socket ? ucv_string_get(socket) : NULL); c->timeout = timeout ? ucv_int64_get(timeout) : 30; if (!c->ctx) { free(c); err_return(UBUS_STATUS_UNKNOWN_ERROR, "Unable to connect to ubus socket"); } if (c->timeout < 0) c->timeout = 30; ubus_add_uloop(c->ctx); return uc_resource_new(conn_type, c); } static void uc_ubus_signatures_cb(struct ubus_context *c, struct ubus_object_data *o, void *p) { uc_value_t *arr = p; uc_value_t *sig; if (!o->signature) return; sig = blob_array_to_ucv(NULL, blob_data(o->signature), blob_len(o->signature), true); if (sig) ucv_array_push(arr, sig); } static void uc_ubus_objects_cb(struct ubus_context *c, struct ubus_object_data *o, void *p) { uc_value_t *arr = p; ucv_array_push(arr, ucv_string_new(o->path)); } static uc_value_t * uc_ubus_list(uc_vm_t *vm, size_t nargs) { uc_ubus_connection_t **c = uc_fn_this("ubus.connection"); uc_value_t *objname, *res = NULL; enum ubus_msg_status rv; if (!c || !*c || !(*c)->ctx) err_return(UBUS_STATUS_CONNECTION_FAILED, NULL); args_get(vm, nargs, "object name", UC_STRING, true, &objname); res = ucv_array_new(vm); rv = ubus_lookup((*c)->ctx, objname ? ucv_string_get(objname) : NULL, objname ? uc_ubus_signatures_cb : uc_ubus_objects_cb, res); if (rv != UBUS_STATUS_OK) { ucv_put(res); err_return(rv, NULL); } return res; } static void uc_ubus_call_cb(struct ubus_request *req, int type, struct blob_attr *msg) { uc_value_t **res = (uc_value_t **)req->priv; *res = msg ? blob_array_to_ucv(NULL, blob_data(msg), blob_len(msg), true) : NULL; } static void uc_ubus_call_user_cb(uc_ubus_deferred_t *defer, int ret, uc_value_t *reply) { uc_value_t *this, *func; request_reg_get(defer->vm, defer->registry_index, &this, &func); if (ucv_is_callable(func)) { uc_vm_stack_push(defer->vm, ucv_get(this)); uc_vm_stack_push(defer->vm, ucv_get(func)); uc_vm_stack_push(defer->vm, ucv_int64_new(ret)); uc_vm_stack_push(defer->vm, ucv_get(reply)); if (uc_vm_call(defer->vm, true, 2) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(defer->vm)); } request_reg_clear(defer->vm, defer->registry_index); n_cb_active--; if (have_own_uloop && n_cb_active == 0) uloop_end(); } static void uc_ubus_call_data_cb(struct ubus_request *req, int type, struct blob_attr *msg) { uc_ubus_deferred_t *defer = container_of(req, uc_ubus_deferred_t, request); if (defer->response == NULL) defer->response = blob_array_to_ucv(defer->vm, blob_data(msg), blob_len(msg), true); } static void uc_ubus_call_done_cb(struct ubus_request *req, int ret) { uc_ubus_deferred_t *defer = container_of(req, uc_ubus_deferred_t, request); if (defer->complete) return; defer->complete = true; uloop_timeout_cancel(&defer->timeout); uc_ubus_call_user_cb(defer, ret, defer->response); } static void uc_ubus_call_timeout_cb(struct uloop_timeout *timeout) { uc_ubus_deferred_t *defer = container_of(timeout, uc_ubus_deferred_t, timeout); if (defer->complete) return; defer->complete = true; ubus_abort_request(defer->ctx, &defer->request); uc_ubus_call_user_cb(defer, UBUS_STATUS_TIMEOUT, NULL); } static bool uc_ubus_have_uloop(void) { bool prev = uloop_cancelled; bool active; uloop_cancelled = true; active = uloop_cancelling(); uloop_cancelled = prev; return active; } static bool _conn_get(uc_vm_t *vm, uc_ubus_connection_t ***conn) { *conn = uc_fn_this("ubus.connection"); if (!*conn || !**conn) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid connection context"); if (!(**conn)->ctx) err_return(UBUS_STATUS_CONNECTION_FAILED, "Connection is closed"); return true; } #define conn_get(vm, ptr) do { if (!_conn_get(vm, ptr)) return NULL; } while(0) static uc_value_t * uc_ubus_call(uc_vm_t *vm, size_t nargs) { uc_value_t *objname, *funname, *funargs, *res = NULL; uc_ubus_connection_t **c; enum ubus_msg_status rv; uint32_t id; conn_get(vm, &c); args_get(vm, nargs, "object name", UC_STRING, false, &objname, "function name", UC_STRING, false, &funname, "function arguments", UC_OBJECT, true, &funargs); blob_buf_init(&(*c)->buf, 0); if (funargs) ucv_object_to_blob(funargs, &(*c)->buf); rv = ubus_lookup_id((*c)->ctx, ucv_string_get(objname), &id); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to resolve object name '%s'", ucv_string_get(objname)); rv = ubus_invoke((*c)->ctx, id, ucv_string_get(funname), (*c)->buf.head, uc_ubus_call_cb, &res, (*c)->timeout * 1000); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to invoke function '%s' on object '%s'", ucv_string_get(funname), ucv_string_get(objname)); return res; } static uc_value_t * uc_ubus_defer(uc_vm_t *vm, size_t nargs) { uc_value_t *objname, *funname, *funargs, *replycb, *res = NULL; uc_ubus_deferred_t *defer; uc_ubus_connection_t **c; enum ubus_msg_status rv; uint32_t id; conn_get(vm, &c); args_get(vm, nargs, "object name", UC_STRING, false, &objname, "function name", UC_STRING, false, &funname, "function arguments", UC_OBJECT, true, &funargs, "reply callback", UC_CLOSURE, true, &replycb); blob_buf_init(&(*c)->buf, 0); if (funargs) ucv_object_to_blob(funargs, &(*c)->buf); rv = ubus_lookup_id((*c)->ctx, ucv_string_get(objname), &id); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to resolve object name '%s'", ucv_string_get(objname)); defer = xalloc(sizeof(*defer)); rv = ubus_invoke_async((*c)->ctx, id, ucv_string_get(funname), (*c)->buf.head, &defer->request); if (rv == UBUS_STATUS_OK) { defer->vm = vm; defer->ctx = (*c)->ctx; defer->request.data_cb = uc_ubus_call_data_cb; defer->request.complete_cb = uc_ubus_call_done_cb; ubus_complete_request_async((*c)->ctx, &defer->request); defer->timeout.cb = uc_ubus_call_timeout_cb; uloop_timeout_set(&defer->timeout, (*c)->timeout * 1000); res = uc_resource_new(defer_type, defer); defer->registry_index = request_reg_add(vm, ucv_get(res), ucv_get(replycb)); if (!uc_ubus_have_uloop()) { have_own_uloop = true; uloop_run(); } } else { uc_vm_stack_push(vm, ucv_get(replycb)); uc_vm_stack_push(vm, ucv_int64_new(rv)); if (uc_vm_call(vm, false, 1) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(vm)); else uloop_end(); free(defer); } if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to invoke function '%s' on object '%s'", ucv_string_get(funname), ucv_string_get(objname)); return res; } /* * ubus object request context functions * -------------------------------------------------------------------------- */ static void uc_ubus_request_finish(uc_ubus_request_t *callctx, int code, uc_value_t *reply) { if (callctx->replied) return; if (reply) { blob_buf_init(&buf, 0); ucv_object_to_blob(reply, &buf); ubus_send_reply(callctx->ctx, &callctx->req, buf.head); } callctx->replied = true; ubus_complete_deferred_request(callctx->ctx, &callctx->req, code); request_reg_clear(callctx->vm, callctx->registry_index); } static void uc_ubus_request_timeout(struct uloop_timeout *timeout) { uc_ubus_request_t *callctx = container_of(timeout, uc_ubus_request_t, timeout); uc_ubus_request_finish(callctx, UBUS_STATUS_TIMEOUT, NULL); } static uc_value_t * uc_ubus_request_reply(uc_vm_t *vm, size_t nargs) { uc_ubus_request_t **callctx = uc_fn_this("ubus.request"); int64_t code = UBUS_STATUS_OK; uc_value_t *reply, *rcode; if (!callctx || !*callctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid call context"); args_get(vm, nargs, "reply", UC_OBJECT, true, &reply, "rcode", UC_INTEGER, true, &rcode); if ((*callctx)->replied) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Reply has already been sent"); if (rcode) { code = ucv_int64_get(rcode); if (errno == ERANGE || code < 0 || code > __UBUS_STATUS_LAST) code = UBUS_STATUS_UNKNOWN_ERROR; } uc_ubus_request_finish(*callctx, code, reply); return ucv_boolean_new(true); } static uc_value_t * uc_ubus_request_error(uc_vm_t *vm, size_t nargs) { uc_ubus_request_t **callctx = uc_fn_this("ubus.request"); uc_value_t *rcode = uc_fn_arg(0); int64_t code; if (!callctx || !*callctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid call context"); args_get(vm, nargs, "rcode", UC_INTEGER, false, &rcode); if ((*callctx)->replied) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Reply has already been sent"); code = ucv_int64_get(rcode); if (errno == ERANGE || code < 0 || code > __UBUS_STATUS_LAST) code = UBUS_STATUS_UNKNOWN_ERROR; uc_ubus_request_finish(*callctx, code, NULL); return ucv_boolean_new(true); } /* * ubus object notify * -------------------------------------------------------------------------- */ static uc_value_t * uc_ubus_notify_completed(uc_vm_t *vm, size_t nargs) { uc_ubus_notify_t **notifyctx = uc_fn_this("ubus.notify"); if (!notifyctx || !*notifyctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid notify context"); return ucv_boolean_new((*notifyctx)->complete); } static uc_value_t * uc_ubus_notify_abort(uc_vm_t *vm, size_t nargs) { uc_ubus_notify_t **notifyctx = uc_fn_this("ubus.notify"); if (!notifyctx || !*notifyctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid notify context"); if ((*notifyctx)->complete) return ucv_boolean_new(false); ubus_abort_request((*notifyctx)->ctx, &(*notifyctx)->req.req); (*notifyctx)->complete = true; return ucv_boolean_new(true); } static void uc_ubus_object_notify_data_cb(struct ubus_notify_request *req, int type, struct blob_attr *msg) { uc_ubus_notify_t *notifyctx = (uc_ubus_notify_t *)req; uc_value_t *this, *func; notify_reg_get(notifyctx->vm, notifyctx->registry_index, &this, &func, NULL, NULL); if (ucv_is_callable(func)) { uc_vm_stack_push(notifyctx->vm, ucv_get(this)); uc_vm_stack_push(notifyctx->vm, ucv_get(func)); uc_vm_stack_push(notifyctx->vm, ucv_int64_new(type)); uc_vm_stack_push(notifyctx->vm, blob_array_to_ucv(notifyctx->vm, blob_data(msg), blob_len(msg), true)); if (uc_vm_call(notifyctx->vm, true, 2) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(notifyctx->vm)); else uloop_end(); } } static void uc_ubus_object_notify_status_cb(struct ubus_notify_request *req, int idx, int ret) { uc_ubus_notify_t *notifyctx = (uc_ubus_notify_t *)req; uc_value_t *this, *func; notify_reg_get(notifyctx->vm, notifyctx->registry_index, &this, NULL, &func, NULL); if (ucv_is_callable(func)) { uc_vm_stack_push(notifyctx->vm, ucv_get(this)); uc_vm_stack_push(notifyctx->vm, ucv_get(func)); uc_vm_stack_push(notifyctx->vm, ucv_int64_new(idx)); uc_vm_stack_push(notifyctx->vm, ucv_int64_new(ret)); if (uc_vm_call(notifyctx->vm, true, 2) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(notifyctx->vm)); else uloop_end(); } } static void uc_ubus_object_notify_complete_cb(struct ubus_notify_request *req, int idx, int ret) { uc_ubus_notify_t *notifyctx = (uc_ubus_notify_t *)req; uc_value_t *this, *func; notify_reg_get(notifyctx->vm, notifyctx->registry_index, &this, NULL, NULL, &func); if (ucv_is_callable(func)) { uc_vm_stack_push(notifyctx->vm, ucv_get(this)); uc_vm_stack_push(notifyctx->vm, ucv_get(func)); uc_vm_stack_push(notifyctx->vm, ucv_int64_new(idx)); uc_vm_stack_push(notifyctx->vm, ucv_int64_new(ret)); if (uc_vm_call(notifyctx->vm, true, 2) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(notifyctx->vm)); else uloop_end(); } notifyctx->complete = true; notify_reg_clear(notifyctx->vm, notifyctx->registry_index); } static uc_value_t * uc_ubus_object_notify(uc_vm_t *vm, size_t nargs) { uc_value_t *typename, *message, *data_cb, *status_cb, *complete_cb, *timeout; uc_ubus_object_t **uuobj = uc_fn_this("ubus.object"); uc_ubus_notify_t *notifyctx; uc_value_t *res; int64_t t; int rv; if (!uuobj || !*uuobj) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid object context"); args_get(vm, nargs, "typename", UC_STRING, false, &typename, "message", UC_OBJECT, true, &message, "data callback", UC_CLOSURE, true, &data_cb, "status callback", UC_CLOSURE, true, &status_cb, "completion callback", UC_CLOSURE, true, &complete_cb, "timeout", UC_INTEGER, true, &timeout); t = timeout ? ucv_int64_get(timeout) : -1; if (errno) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid timeout value: %s", strerror(errno)); notifyctx = xalloc(sizeof(*notifyctx)); notifyctx->vm = vm; notifyctx->ctx = (*uuobj)->ctx; blob_buf_init(&buf, 0); if (message) ucv_object_to_blob(message, &buf); rv = ubus_notify_async((*uuobj)->ctx, &(*uuobj)->obj, ucv_string_get(typename), buf.head, ¬ifyctx->req); if (rv != UBUS_STATUS_OK) { free(notifyctx); err_return(rv, "Failed to send notification"); } notifyctx->req.data_cb = uc_ubus_object_notify_data_cb; notifyctx->req.status_cb = uc_ubus_object_notify_status_cb; notifyctx->req.complete_cb = uc_ubus_object_notify_complete_cb; res = uc_resource_new(notify_type, notifyctx); notifyctx->registry_index = notify_reg_add(vm, ucv_get(res), ucv_get(data_cb), ucv_get(status_cb), ucv_get(complete_cb)); if (t >= 0) { rv = ubus_complete_request((*uuobj)->ctx, ¬ifyctx->req.req, t); notify_reg_clear(vm, notifyctx->registry_index); ucv_put(res); return ucv_int64_new(rv); } ubus_complete_request_async((*uuobj)->ctx, ¬ifyctx->req.req); return res; } /* * ubus object remove * -------------------------------------------------------------------------- */ static int uc_ubus_object_remove_common(uc_ubus_object_t *uuobj) { int rv = ubus_remove_object(uuobj->ctx, &uuobj->obj); if (rv == UBUS_STATUS_OK) object_reg_clear(uuobj->vm, uuobj->registry_index); return rv; } static uc_value_t * uc_ubus_object_remove(uc_vm_t *vm, size_t nargs) { uc_ubus_object_t **uuobj = uc_fn_this("ubus.object"); int rv; if (!uuobj || !*uuobj) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid object context"); rv = uc_ubus_object_remove_common(*uuobj); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to remove object"); return ucv_boolean_new(true); } /* * ubus object subscription status */ static uc_value_t * uc_ubus_object_subscribed(uc_vm_t *vm, size_t nargs) { uc_ubus_object_t **uuobj = uc_fn_this("ubus.object"); if (!uuobj || !*uuobj) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid object context"); return ucv_boolean_new((*uuobj)->obj.has_subscribers); } /* * ubus object method call handling * -------------------------------------------------------------------------- */ static int uc_ubus_object_call_args(struct ubus_object *obj, const char *ubus_method_name, struct blob_attr *msg, uc_value_t **res) { uc_ubus_object_t *uuobj = (uc_ubus_object_t *)obj; const struct ubus_method *method = NULL; const struct blobmsg_hdr *hdr; struct blob_attr *attr; size_t len; bool found; int i; for (i = 0; i < obj->n_methods; i++) { if (!strcmp(obj->methods[i].name, ubus_method_name)) { method = &obj->methods[i]; break; } } if (!method) return UBUS_STATUS_METHOD_NOT_FOUND; len = blob_len(msg); __blob_for_each_attr(attr, blob_data(msg), len) { if (!blobmsg_check_attr_len(attr, false, len)) return UBUS_STATUS_INVALID_ARGUMENT; if (!blob_is_extended(attr)) return UBUS_STATUS_INVALID_ARGUMENT; hdr = blob_data(attr); found = false; for (i = 0; i < method->n_policy; i++) { if (blobmsg_namelen(hdr) != strlen(method->policy[i].name)) continue; if (strcmp(method->policy[i].name, (char *)hdr->name)) continue; /* named argument found but wrong type */ if (blob_id(attr) != method->policy[i].type) goto inval; found = true; break; } /* named argument not found in policy */ if (!found) goto inval; } *res = blob_array_to_ucv(uuobj->vm, blob_data(msg), blob_len(msg), true); return UBUS_STATUS_OK; inval: *res = NULL; return UBUS_STATUS_INVALID_ARGUMENT; } static uc_value_t * uc_ubus_object_call_info(uc_vm_t *vm, struct ubus_context *ctx, struct ubus_request_data *req, struct ubus_object *obj, const char *ubus_method_name) { uc_value_t *info, *o; info = ucv_object_new(vm); o = ucv_object_new(vm); ucv_object_add(o, "user", ucv_string_new(req->acl.user)); ucv_object_add(o, "group", ucv_string_new(req->acl.group)); if (req->acl.object) ucv_object_add(o, "object", ucv_string_new(req->acl.object)); ucv_object_add(info, "acl", o); o = ucv_object_new(vm); ucv_object_add(o, "id", ucv_int64_new(obj->id)); if (obj->name) ucv_object_add(o, "name", ucv_string_new(obj->name)); if (obj->path) ucv_object_add(o, "path", ucv_string_new(obj->path)); ucv_object_add(info, "object", o); if (ubus_method_name) ucv_object_add(info, "method", ucv_string_new(ubus_method_name)); return info; } static int uc_ubus_handle_reply_common(struct ubus_context *ctx, struct ubus_request_data *req, uc_vm_t *vm, uc_value_t *this, uc_value_t *func, uc_value_t *reqproto) { uc_ubus_request_t *callctx; uc_value_t *reqobj, *res; int rv; /* allocate deferred method call context */ callctx = xalloc(sizeof(*callctx)); callctx->ctx = ctx; callctx->vm = vm; ubus_defer_request(ctx, req, &callctx->req); /* create ucode request type object and set properties */ reqobj = uc_resource_new(request_type, callctx); if (reqproto) ucv_prototype_set(ucv_prototype_get(reqobj), reqproto); /* push object context, handler and request object onto stack */ uc_vm_stack_push(vm, ucv_get(this)); uc_vm_stack_push(vm, ucv_get(func)); uc_vm_stack_push(vm, ucv_get(reqobj)); /* execute request handler function */ switch (uc_vm_call(vm, true, 1)) { case EXCEPTION_NONE: res = uc_vm_stack_pop(vm); /* The handler function invoked a nested aync ubus request and returned it */ if (ucv_resource_dataptr(res, "ubus.deferred")) { /* Install guard timer in case the reply callback is never called */ callctx->timeout.cb = uc_ubus_request_timeout; uloop_timeout_set(&callctx->timeout, 10000 /* FIXME */); /* Add wrapped request context into registry to prevent GC'ing * until reply or timeout occurred */ callctx->registry_index = request_reg_add(vm, ucv_get(reqobj), NULL); } /* Otherwise, when the function returned an object, treat it as * reply data and conclude deferred request immediately */ else if (ucv_type(res) == UC_OBJECT) { blob_buf_init(&buf, 0); ucv_object_to_blob(res, &buf); ubus_send_reply(ctx, &callctx->req, buf.head); ubus_complete_deferred_request(ctx, &callctx->req, UBUS_STATUS_OK); callctx->replied = true; } /* If neither a deferred ubus request, nor a plain object were * returned and if reqobj.reply() hasn't been called, immediately * finish deferred request with UBUS_STATUS_NO_DATA. */ else if (!callctx->replied) { ubus_complete_deferred_request(ctx, &callctx->req, UBUS_STATUS_NO_DATA); callctx->replied = true; } ucv_put(res); break; /* if the handler function invoked exit(), forward exit status as ubus * return code, map out of range values to UBUS_STATUS_UNKNOWN_ERROR. */ case EXCEPTION_EXIT: rv = vm->arg.s32; if (rv < UBUS_STATUS_OK || rv >= __UBUS_STATUS_LAST) rv = UBUS_STATUS_UNKNOWN_ERROR; ubus_complete_deferred_request(ctx, &callctx->req, rv); callctx->replied = true; break; /* treat other exceptions as fatal and halt uloop */ default: ubus_complete_deferred_request(ctx, &callctx->req, UBUS_STATUS_UNKNOWN_ERROR); uloop_end(); callctx->replied = true; break; } /* release request object */ ucv_put(reqobj); /* garbage collect */ ucv_gc(vm); return UBUS_STATUS_OK; } static int uc_ubus_object_call_cb(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *ubus_method_name, struct blob_attr *msg) { uc_value_t *this, *func, *args = NULL, *reqproto, *methods; uc_ubus_object_t *uuobj = (uc_ubus_object_t *)obj; int rv; object_reg_get(uuobj->vm, uuobj->registry_index, &this, &methods, NULL); func = ucv_object_get(ucv_object_get(methods, ubus_method_name, NULL), "call", NULL); if (!ucv_is_callable(func)) return UBUS_STATUS_METHOD_NOT_FOUND; rv = uc_ubus_object_call_args(obj, ubus_method_name, msg, &args); if (rv != UBUS_STATUS_OK) return rv; reqproto = ucv_object_new(uuobj->vm); ucv_object_add(reqproto, "args", args); ucv_object_add(reqproto, "info", uc_ubus_object_call_info(uuobj->vm, ctx, req, obj, ubus_method_name)); return uc_ubus_handle_reply_common(ctx, req, uuobj->vm, this, func, reqproto); } /* * ubus object registration * -------------------------------------------------------------------------- */ static void uc_ubus_object_subscribe_cb(struct ubus_context *ctx, struct ubus_object *obj) { uc_ubus_object_t *uuobj = (uc_ubus_object_t *)obj; uc_value_t *this, *func; object_reg_get(uuobj->vm, uuobj->registry_index, &this, NULL, &func); uc_vm_stack_push(uuobj->vm, ucv_get(this)); uc_vm_stack_push(uuobj->vm, ucv_get(func)); if (uc_vm_call(uuobj->vm, true, 0) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(uuobj->vm)); else uloop_end(); } static bool uc_ubus_object_methods_validate(uc_value_t *methods) { uc_value_t *func, *args; ucv_object_foreach(methods, ubus_method_name, ubus_method_definition) { (void)ubus_method_name; func = ucv_object_get(ubus_method_definition, "call", NULL); args = ucv_object_get(ubus_method_definition, "args", NULL); if (!ucv_is_callable(func)) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Method '%s' field 'call' is not a function value", ubus_method_name); if (args) { if (ucv_type(args) != UC_OBJECT) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Method '%s' field 'args' is not an object value", ubus_method_name); ucv_object_foreach(args, ubus_argument_name, ubus_argument_typehint) { (void)ubus_argument_name; switch (ucv_type(ubus_argument_typehint)) { case UC_BOOLEAN: case UC_INTEGER: case UC_DOUBLE: case UC_STRING: case UC_ARRAY: case UC_OBJECT: continue; default: err_return(UBUS_STATUS_INVALID_ARGUMENT, "Method '%s' field 'args' argument '%s' hint has unsupported type %s", ubus_method_name, ubus_argument_name, ucv_typename(ubus_argument_typehint)); } } } } return true; } static bool uc_ubus_object_method_register(struct ubus_method *method, const char *ubus_method_name, uc_value_t *ubus_method_arguments) { struct blobmsg_policy *policy; enum blobmsg_type type; method->name = strdup(ubus_method_name); method->policy = calloc(ucv_object_length(ubus_method_arguments), sizeof(*method->policy)); method->handler = uc_ubus_object_call_cb; if (!method->name || !method->policy) return false; ucv_object_foreach(ubus_method_arguments, ubus_argument_name, ubus_argument_typehint) { switch (ucv_type(ubus_argument_typehint)) { case UC_BOOLEAN: type = BLOBMSG_TYPE_INT8; break; case UC_INTEGER: switch (ucv_int64_get(ubus_argument_typehint)) { case 8: type = BLOBMSG_TYPE_INT8; break; case 16: type = BLOBMSG_TYPE_INT16; break; case 64: type = BLOBMSG_TYPE_INT64; break; default: type = BLOBMSG_TYPE_INT32; break; } break; case UC_DOUBLE: type = BLOBMSG_TYPE_DOUBLE; break; case UC_ARRAY: type = BLOBMSG_TYPE_ARRAY; break; case UC_OBJECT: type = BLOBMSG_TYPE_TABLE; break; default: type = BLOBMSG_TYPE_STRING; break; } policy = (struct blobmsg_policy *)&method->policy[method->n_policy++]; policy->type = type; policy->name = strdup(ubus_argument_name); if (!policy->name) return false; } return true; } static uc_ubus_object_t * uc_ubus_object_register(struct ubus_context *ctx, const char *ubus_object_name, uc_value_t *ubus_object_methods) { const struct blobmsg_policy *policy; uc_ubus_object_t *uuobj = NULL; int rv = UBUS_STATUS_UNKNOWN_ERROR; char *tptr, *tnptr, *onptr, *mptr; struct ubus_method *method; struct ubus_object *obj; size_t typelen, namelen; uc_value_t *args; namelen = strlen(ubus_object_name); typelen = strlen("ucode-ubus-") + namelen; uuobj = calloc_a(sizeof(*uuobj), &onptr, namelen + 1, &mptr, ucv_object_length(ubus_object_methods) * sizeof(struct ubus_method), &tptr, sizeof(struct ubus_object_type), &tnptr, typelen + 1); if (!uuobj) err_return(rv, "Out of memory"); snprintf(tnptr, typelen, "ucode-ubus-%s", ubus_object_name); method = (struct ubus_method *)mptr; obj = &uuobj->obj; obj->name = strncpy(onptr, ubus_object_name, namelen); obj->methods = method; if (ubus_object_methods) { ucv_object_foreach(ubus_object_methods, ubus_method_name, ubus_method_definition) { args = ucv_object_get(ubus_method_definition, "args", NULL); if (!uc_ubus_object_method_register(&method[obj->n_methods++], ubus_method_name, args)) goto out; } } obj->type = (struct ubus_object_type *)tptr; obj->type->name = tnptr; obj->type->methods = obj->methods; obj->type->n_methods = obj->n_methods; rv = ubus_add_object(ctx, obj); if (rv == UBUS_STATUS_OK) return uuobj; out: for (; obj->n_methods > 0; method++, obj->n_methods--) { for (policy = method->policy; method->n_policy > 0; policy++, method->n_policy--) free((char *)policy->name); free((char *)method->name); free((char *)method->policy); } free(uuobj); err_return(rv, "Unable to add ubus object"); } static uc_value_t * uc_ubus_publish(uc_vm_t *vm, size_t nargs) { uc_value_t *objname, *methods, *subscribecb; uc_ubus_connection_t **c; uc_ubus_object_t *uuobj; uc_value_t *res; conn_get(vm, &c); args_get(vm, nargs, "object name", UC_STRING, false, &objname, "object methods", UC_OBJECT, true, &methods, "subscribe callback", UC_CLOSURE, true, &subscribecb); if (!methods && !subscribecb) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Either methods or subscribe callback required"); if (methods && !uc_ubus_object_methods_validate(methods)) return NULL; uuobj = uc_ubus_object_register((*c)->ctx, ucv_string_get(objname), methods); if (!uuobj) return NULL; if (subscribecb) uuobj->obj.subscribe_cb = uc_ubus_object_subscribe_cb; res = uc_resource_new(object_type, uuobj); uuobj->vm = vm; uuobj->ctx = (*c)->ctx; uuobj->registry_index = object_reg_add(vm, ucv_get(res), ucv_get(methods), ucv_get(subscribecb)); return res; } /* * ubus events * -------------------------------------------------------------------------- */ static int uc_ubus_listener_remove_common(uc_ubus_listener_t *uul) { int rv = ubus_unregister_event_handler(uul->ctx, &uul->ev); if (rv == UBUS_STATUS_OK) listener_reg_clear(uul->vm, uul->registry_index); return rv; } static uc_value_t * uc_ubus_listener_remove(uc_vm_t *vm, size_t nargs) { uc_ubus_listener_t **uul = uc_fn_this("ubus.listener"); int rv; if (!uul || !*uul) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid listener context"); rv = uc_ubus_listener_remove_common(*uul); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to remove listener object"); return ucv_boolean_new(true); } static void uc_ubus_listener_cb(struct ubus_context *ctx, struct ubus_event_handler *ev, const char *type, struct blob_attr *msg) { uc_ubus_listener_t *uul = (uc_ubus_listener_t *)ev; uc_value_t *this, *func; listener_reg_get(uul->vm, uul->registry_index, &this, &func); uc_vm_stack_push(uul->vm, ucv_get(this)); uc_vm_stack_push(uul->vm, ucv_get(func)); uc_vm_stack_push(uul->vm, ucv_string_new(type)); uc_vm_stack_push(uul->vm, blob_array_to_ucv(uul->vm, blob_data(msg), blob_len(msg), true)); if (uc_vm_call(uul->vm, true, 2) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(uul->vm)); else uloop_end(); } static uc_value_t * uc_ubus_listener(uc_vm_t *vm, size_t nargs) { uc_value_t *cb, *pattern; uc_ubus_connection_t **c; uc_ubus_listener_t *uul; uc_value_t *res; int rv; conn_get(vm, &c); args_get(vm, nargs, "event type pattern", UC_STRING, false, &pattern, "event callback", UC_CLOSURE, false, &cb); uul = xalloc(sizeof(*uul)); uul->vm = vm; uul->ctx = (*c)->ctx; uul->ev.cb = uc_ubus_listener_cb; rv = ubus_register_event_handler((*c)->ctx, &uul->ev, ucv_string_get(pattern)); if (rv != UBUS_STATUS_OK) { free(uul); err_return(rv, "Failed to register listener object"); } res = uc_resource_new(listener_type, uul); uul->registry_index = listener_reg_add(vm, ucv_get(res), ucv_get(cb)); return res; } static uc_value_t * uc_ubus_event(uc_vm_t *vm, size_t nargs) { uc_value_t *eventtype, *eventdata; uc_ubus_connection_t **c; int rv; conn_get(vm, &c); args_get(vm, nargs, "event id", UC_STRING, false, &eventtype, "event data", UC_OBJECT, true, &eventdata); blob_buf_init(&buf, 0); if (eventdata) ucv_object_to_blob(eventdata, &buf); rv = ubus_send_event((*c)->ctx, ucv_string_get(eventtype), buf.head); if (rv != UBUS_STATUS_OK) err_return(rv, "Unable to send event"); return ucv_boolean_new(true); } /* * ubus subscriptions * -------------------------------------------------------------------------- */ static int uc_ubus_subscriber_notify_cb(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct ubus_subscriber *sub = container_of(obj, struct ubus_subscriber, obj); uc_ubus_subscriber_t *uusub = container_of(sub, uc_ubus_subscriber_t, sub); uc_value_t *this, *func, *reqproto; subscriber_reg_get(uusub->vm, uusub->registry_index, &this, &func, NULL); if (!ucv_is_callable(func)) return UBUS_STATUS_METHOD_NOT_FOUND; reqproto = ucv_object_new(uusub->vm); ucv_object_add(reqproto, "type", ucv_string_new(method)); ucv_object_add(reqproto, "data", blob_array_to_ucv(uusub->vm, blob_data(msg), blob_len(msg), true)); ucv_object_add(reqproto, "info", uc_ubus_object_call_info(uusub->vm, ctx, req, obj, NULL)); return uc_ubus_handle_reply_common(ctx, req, uusub->vm, this, func, reqproto); } static void uc_ubus_subscriber_remove_cb(struct ubus_context *ctx, struct ubus_subscriber *sub, uint32_t id) { uc_ubus_subscriber_t *uusub = container_of(sub, uc_ubus_subscriber_t, sub); uc_value_t *this, *func; subscriber_reg_get(uusub->vm, uusub->registry_index, &this, NULL, &func); if (!ucv_is_callable(func)) return; uc_vm_stack_push(uusub->vm, ucv_get(this)); uc_vm_stack_push(uusub->vm, ucv_get(func)); uc_vm_stack_push(uusub->vm, ucv_uint64_new(id)); if (uc_vm_call(uusub->vm, true, 1) == EXCEPTION_NONE) ucv_put(uc_vm_stack_pop(uusub->vm)); else uloop_end(); } static uc_value_t * uc_ubus_subscriber_subunsub_common(uc_vm_t *vm, size_t nargs, bool subscribe) { uc_ubus_subscriber_t **uusub = uc_fn_this("ubus.subscriber"); uc_value_t *objname; uint32_t id; int rv; if (!uusub || !*uusub) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid subscriber context"); args_get(vm, nargs, "object name", UC_STRING, false, &objname); rv = ubus_lookup_id((*uusub)->ctx, ucv_string_get(objname), &id); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to resolve object name '%s'", ucv_string_get(objname)); if (subscribe) rv = ubus_subscribe((*uusub)->ctx, &(*uusub)->sub, id); else rv = ubus_unsubscribe((*uusub)->ctx, &(*uusub)->sub, id); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to %s object '%s'", subscribe ? "subscribe" : "unsubscribe", ucv_string_get(objname)); return ucv_boolean_new(true); } static uc_value_t * uc_ubus_subscriber_subscribe(uc_vm_t *vm, size_t nargs) { return uc_ubus_subscriber_subunsub_common(vm, nargs, true); } static uc_value_t * uc_ubus_subscriber_unsubscribe(uc_vm_t *vm, size_t nargs) { return uc_ubus_subscriber_subunsub_common(vm, nargs, false); } static int uc_ubus_subscriber_remove_common(uc_ubus_subscriber_t *uusub) { int rv = ubus_unregister_subscriber(uusub->ctx, &uusub->sub); if (rv == UBUS_STATUS_OK) subscriber_reg_clear(uusub->vm, uusub->registry_index); return rv; } static uc_value_t * uc_ubus_subscriber_remove(uc_vm_t *vm, size_t nargs) { uc_ubus_subscriber_t **uusub = uc_fn_this("ubus.subscriber"); int rv; if (!uusub || !*uusub) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Invalid subscriber context"); rv = uc_ubus_subscriber_remove_common(*uusub); if (rv != UBUS_STATUS_OK) err_return(rv, "Failed to remove subscriber object"); return ucv_boolean_new(true); } static uc_value_t * uc_ubus_subscriber(uc_vm_t *vm, size_t nargs) { uc_value_t *notify_cb, *remove_cb; uc_ubus_subscriber_t *uusub; uc_ubus_connection_t **c; uc_value_t *res; int rv; conn_get(vm, &c); args_get(vm, nargs, "notify callback", UC_CLOSURE, true, ¬ify_cb, "remove callback", UC_CLOSURE, true, &remove_cb); if (!notify_cb && !remove_cb) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Either notify or remove callback required"); uusub = xalloc(sizeof(*uusub)); uusub->vm = vm; uusub->ctx = (*c)->ctx; rv = ubus_register_subscriber((*c)->ctx, &uusub->sub); if (rv != UBUS_STATUS_OK) { free(uusub); err_return(rv, "Failed to register subscriber object"); } if (notify_cb) uusub->sub.cb = uc_ubus_subscriber_notify_cb; if (remove_cb) uusub->sub.remove_cb = uc_ubus_subscriber_remove_cb; res = uc_resource_new(subscriber_type, uusub); uusub->registry_index = subscriber_reg_add(vm, ucv_get(res), ucv_get(notify_cb), ucv_get(remove_cb)); return res; } /* * connection methods * -------------------------------------------------------------------------- */ static uc_value_t * uc_ubus_remove(uc_vm_t *vm, size_t nargs) { uc_ubus_subscriber_t **uusub; uc_ubus_connection_t **c; uc_ubus_object_t **uuobj; uc_ubus_listener_t **uul; int rv; conn_get(vm, &c); uusub = (uc_ubus_subscriber_t **)ucv_resource_dataptr(uc_fn_arg(0), "ubus.subscriber"); uuobj = (uc_ubus_object_t **)ucv_resource_dataptr(uc_fn_arg(0), "ubus.object"); uul = (uc_ubus_listener_t **)ucv_resource_dataptr(uc_fn_arg(0), "ubus.listener"); if (uusub && *uusub) { if ((*uusub)->ctx != (*c)->ctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Subscriber belongs to different connection"); rv = uc_ubus_subscriber_remove_common(*uusub); if (rv != UBUS_STATUS_OK) err_return(rv, "Unable to remove subscriber"); } else if (uuobj && *uuobj) { if ((*uuobj)->ctx != (*c)->ctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Object belongs to different connection"); rv = uc_ubus_object_remove_common(*uuobj); if (rv != UBUS_STATUS_OK) err_return(rv, "Unable to remove object"); } else if (uul && *uul) { if ((*uul)->ctx != (*c)->ctx) err_return(UBUS_STATUS_INVALID_ARGUMENT, "Listener belongs to different connection"); rv = uc_ubus_listener_remove_common(*uul); if (rv != UBUS_STATUS_OK) err_return(rv, "Unable to remove listener"); } else { err_return(UBUS_STATUS_INVALID_ARGUMENT, "Unhandled resource type"); } return ucv_boolean_new(true); } static uc_value_t * uc_ubus_disconnect(uc_vm_t *vm, size_t nargs) { uc_ubus_connection_t **c; conn_get(vm, &c); ubus_free((*c)->ctx); (*c)->ctx = NULL; return ucv_boolean_new(true); } static uc_value_t * uc_ubus_defer_completed(uc_vm_t *vm, size_t nargs) { uc_ubus_deferred_t **d = uc_fn_this("ubus.deferred"); if (!d || !*d) return NULL; return ucv_boolean_new((*d)->complete); } static uc_value_t * uc_ubus_defer_abort(uc_vm_t *vm, size_t nargs) { uc_ubus_deferred_t **d = uc_fn_this("ubus.deferred"); if (!d || !*d) return NULL; if ((*d)->complete) return ucv_boolean_new(false); ubus_abort_request((*d)->ctx, &(*d)->request); uloop_timeout_cancel(&(*d)->timeout); request_reg_clear((*d)->vm, (*d)->registry_index); n_cb_active--; if (have_own_uloop && n_cb_active == 0) uloop_end(); (*d)->complete = true; return ucv_boolean_new(true); } static const uc_function_list_t global_fns[] = { { "error", uc_ubus_error }, { "connect", uc_ubus_connect }, }; static const uc_function_list_t conn_fns[] = { { "list", uc_ubus_list }, { "call", uc_ubus_call }, { "defer", uc_ubus_defer }, { "publish", uc_ubus_publish }, { "remove", uc_ubus_remove }, { "listener", uc_ubus_listener }, { "subscriber", uc_ubus_subscriber }, { "event", uc_ubus_event }, { "error", uc_ubus_error }, { "disconnect", uc_ubus_disconnect }, }; static const uc_function_list_t defer_fns[] = { { "completed", uc_ubus_defer_completed }, { "abort", uc_ubus_defer_abort }, }; static const uc_function_list_t object_fns[] = { { "subscribed", uc_ubus_object_subscribed }, { "notify", uc_ubus_object_notify }, { "remove", uc_ubus_object_remove }, }; static const uc_function_list_t request_fns[] = { { "reply", uc_ubus_request_reply }, { "error", uc_ubus_request_error }, }; static const uc_function_list_t notify_fns[] = { { "completed", uc_ubus_notify_completed }, { "abort", uc_ubus_notify_abort }, }; static const uc_function_list_t listener_fns[] = { { "remove", uc_ubus_listener_remove }, }; static const uc_function_list_t subscriber_fns[] = { { "subscribe", uc_ubus_subscriber_subscribe }, { "unsubscribe", uc_ubus_subscriber_unsubscribe }, { "remove", uc_ubus_subscriber_remove }, }; static void free_connection(void *ud) { uc_ubus_connection_t *conn = ud; blob_buf_free(&conn->buf); if (conn->ctx) ubus_free(conn->ctx); free(conn); } static void free_deferred(void *ud) { uc_ubus_deferred_t *defer = ud; uloop_timeout_cancel(&defer->timeout); ucv_put(defer->response); free(defer); } static void free_object(void *ud) { uc_ubus_object_t *uuobj = ud; struct ubus_object *obj = &uuobj->obj; int i, j; for (i = 0; i < obj->n_methods; i++) { for (j = 0; j < obj->methods[i].n_policy; j++) free((char *)obj->methods[i].policy[j].name); free((char *)obj->methods[i].name); free((char *)obj->methods[i].policy); } free(uuobj); } static void free_request(void *ud) { uc_ubus_request_t *callctx = ud; uloop_timeout_cancel(&callctx->timeout); free(callctx); } static void free_notify(void *ud) { uc_ubus_notify_t *notifyctx = ud; free(notifyctx); } static void free_listener(void *ud) { uc_ubus_listener_t *listener = ud; free(listener); } static void free_subscriber(void *ud) { uc_ubus_subscriber_t *subscriber = ud; free(subscriber); } void uc_module_init(uc_vm_t *vm, uc_value_t *scope) { uc_function_list_register(scope, global_fns); conn_type = uc_type_declare(vm, "ubus.connection", conn_fns, free_connection); defer_type = uc_type_declare(vm, "ubus.deferred", defer_fns, free_deferred); object_type = uc_type_declare(vm, "ubus.object", object_fns, free_object); notify_type = uc_type_declare(vm, "ubus.notify", notify_fns, free_notify); request_type = uc_type_declare(vm, "ubus.request", request_fns, free_request); listener_type = uc_type_declare(vm, "ubus.listener", listener_fns, free_listener); subscriber_type = uc_type_declare(vm, "ubus.subscriber", subscriber_fns, free_subscriber); }