/* * Copyright (C) 2011 Felix Fietkau * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 2.1 * as published by the Free Software Foundation * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include #include #include #include #include #include #include #include #include "libubus.h" #include "ubusmsg.h" #define STATIC_IOV(_var) { .iov_base = (char *) &(_var), .iov_len = sizeof(_var) } const char *__ubus_strerror[__UBUS_STATUS_LAST] = { [UBUS_STATUS_OK] = "Success", [UBUS_STATUS_INVALID_COMMAND] = "Invalid command", [UBUS_STATUS_INVALID_ARGUMENT] = "Invalid argument", [UBUS_STATUS_METHOD_NOT_FOUND] = "Method not found", [UBUS_STATUS_NOT_FOUND] = "Not found", [UBUS_STATUS_NO_DATA] = "No response", [UBUS_STATUS_PERMISSION_DENIED] = "Permission denied", [UBUS_STATUS_TIMEOUT] = "Request timed out", [UBUS_STATUS_NOT_SUPPORTED] = "Operation not supported", }; static struct blob_buf b; static const struct blob_attr_info ubus_policy[UBUS_ATTR_MAX] = { [UBUS_ATTR_STATUS] = { .type = BLOB_ATTR_INT32 }, [UBUS_ATTR_OBJID] = { .type = BLOB_ATTR_INT32 }, [UBUS_ATTR_OBJPATH] = { .type = BLOB_ATTR_STRING }, [UBUS_ATTR_METHOD] = { .type = BLOB_ATTR_STRING }, }; static struct blob_attr *attrbuf[UBUS_ATTR_MAX]; struct ubus_pending_data { struct list_head list; int type; struct blob_attr data[]; }; static int ubus_cmp_id(const void *k1, const void *k2, void *ptr) { const uint32_t *id1 = k1, *id2 = k2; if (*id1 < *id2) return -1; else return *id1 > *id2; } static struct blob_attr **ubus_parse_msg(struct blob_attr *msg) { blob_parse(msg, attrbuf, ubus_policy, UBUS_ATTR_MAX); return attrbuf; } const char *ubus_strerror(int error) { static char err[32]; if (error < 0 || error >= __UBUS_STATUS_LAST) goto out; if (!__ubus_strerror[error]) goto out; return __ubus_strerror[error]; out: sprintf(err, "Unknown error: %d", error); return err; } static int writev_retry(int fd, struct iovec *iov, int iov_len) { int len = 0; do { int cur_len = writev(fd, iov, iov_len); if (cur_len < 0) { switch(errno) { case EAGAIN: /* turn off non-blocking mode */ fcntl(fd, F_SETFL, fcntl(fd, F_GETFL) & ~O_NONBLOCK); break; case EINTR: break; default: return -1; } continue; } len += cur_len; while (cur_len >= iov->iov_len) { cur_len -= iov->iov_len; iov_len--; iov++; if (!cur_len || !iov_len) return len; } iov->iov_len -= cur_len; } while (1); } static int ubus_send_msg(struct ubus_context *ctx, uint32_t seq, struct blob_attr *msg, int cmd, uint32_t peer) { struct ubus_msghdr hdr; struct iovec iov[2] = { STATIC_IOV(hdr) }; hdr.version = 0; hdr.type = cmd; hdr.seq = seq; hdr.peer = peer; if (!msg) { blob_buf_init(&b, 0); msg = b.head; } iov[1].iov_base = (char *) msg; iov[1].iov_len = blob_raw_len(msg); return writev_retry(ctx->sock.fd, iov, ARRAY_SIZE(iov)); } static int ubus_start_request(struct ubus_context *ctx, struct ubus_request *req, struct blob_attr *msg, int cmd, uint32_t peer) { memset(req, 0, sizeof(*req)); if (msg && blob_pad_len(msg) > UBUS_MAX_MSGLEN) return -1; INIT_LIST_HEAD(&req->list); INIT_LIST_HEAD(&req->pending); req->ctx = ctx; req->peer = peer; req->seq = ++ctx->request_seq; return ubus_send_msg(ctx, req->seq, msg, cmd, peer); } static bool recv_retry(int fd, struct iovec *iov, bool wait) { int bytes; while (iov->iov_len > 0) { bytes = read(fd, iov->iov_base, iov->iov_len); if (bytes < 0) { bytes = 0; if (uloop_cancelled) return false; if (errno == EINTR) continue; if (errno != EAGAIN) return false; } if (!wait && !bytes) return false; wait = true; iov->iov_len -= bytes; iov->iov_base += bytes; } return true; } static bool ubus_validate_hdr(struct ubus_msghdr *hdr) { if (hdr->version != 0) return false; if (blob_raw_len(hdr->data) < sizeof(*hdr->data)) return false; if (blob_pad_len(hdr->data) > UBUS_MAX_MSGLEN) return false; return true; } static bool get_next_msg(struct ubus_context *ctx) { struct iovec iov = STATIC_IOV(ctx->msgbuf.hdr); /* receive header + start attribute */ iov.iov_len += sizeof(struct blob_attr); if (!recv_retry(ctx->sock.fd, &iov, false)) return false; iov.iov_len = blob_len(ctx->msgbuf.hdr.data); if (iov.iov_len > 0 && !recv_retry(ctx->sock.fd, &iov, true)) return false; return ubus_validate_hdr(&ctx->msgbuf.hdr); } static bool ubus_get_status(struct ubus_msghdr *hdr, int *ret) { ubus_parse_msg(hdr->data); if (!attrbuf[UBUS_ATTR_STATUS]) return false; *ret = blob_get_u32(attrbuf[UBUS_ATTR_STATUS]); return true; } static void req_data_cb(struct ubus_request *req, int type, struct blob_attr *data) { struct blob_attr **attr; if (req->raw_data_cb) req->raw_data_cb(req, type, data); if (!req->data_cb) return; attr = ubus_parse_msg(data); req->data_cb(req, type, attr[UBUS_ATTR_DATA]); } static void ubus_process_req_data(struct ubus_request *req) { struct ubus_pending_data *data; while (!list_empty(&req->pending)) { data = list_first_entry(&req->pending, struct ubus_pending_data, list); list_del(&data->list); if (!req->cancelled) req_data_cb(req, data->type, data->data); free(data); } } static void ubus_req_complete_cb(struct ubus_request *req) { ubus_complete_handler_t cb = req->complete_cb; if (!cb) return; req->complete_cb = NULL; cb(req, req->status_code); } static int ubus_process_req_status(struct ubus_request *req, struct ubus_msghdr *hdr) { int ret = UBUS_STATUS_INVALID_ARGUMENT; if (!list_empty(&req->list)) list_del(&req->list); ubus_get_status(hdr, &ret); req->peer = hdr->peer; req->status_msg = true; req->status_code = ret; if (!req->blocked) ubus_req_complete_cb(req); return ret; } static void ubus_req_data(struct ubus_request *req, struct ubus_msghdr *hdr) { struct ubus_pending_data *data; int len; if (!req->blocked) { req->blocked = true; req_data_cb(req, hdr->type, hdr->data); ubus_process_req_data(req); req->blocked = false; if (req->status_msg) ubus_req_complete_cb(req); return; } len = blob_raw_len(hdr->data); data = calloc(1, sizeof(*data) + len); if (!data) return; data->type = hdr->type; memcpy(data->data, hdr->data, len); list_add(&data->list, &req->pending); } static struct ubus_request *ubus_find_request(struct ubus_context *ctx, uint32_t seq, uint32_t peer) { struct ubus_request *req; list_for_each_entry(req, &ctx->requests, list) { if (seq != req->seq || peer != req->peer) continue; return req; } return NULL; } static void ubus_process_invoke(struct ubus_context *ctx, struct ubus_msghdr *hdr) { struct ubus_request_data req; struct ubus_object *obj; uint32_t objid = 0; int method; int ret = 0; ubus_parse_msg(hdr->data); if (!attrbuf[UBUS_ATTR_OBJID]) return; objid = blob_get_u32(attrbuf[UBUS_ATTR_OBJID]); if (!attrbuf[UBUS_ATTR_METHOD]) { ret = UBUS_STATUS_INVALID_ARGUMENT; goto send; } obj = avl_find_element(&ctx->objects, &objid, obj, avl); if (!obj) { ret = UBUS_STATUS_NOT_FOUND; goto send; } for (method = 0; method < obj->n_methods; method++) if (!obj->methods[method].name || !strcmp(obj->methods[method].name, blob_data(attrbuf[UBUS_ATTR_METHOD]))) goto found; /* not found */ ret = UBUS_STATUS_METHOD_NOT_FOUND; goto send; found: req.object = objid; req.peer = hdr->peer; req.seq = hdr->seq; ret = obj->methods[method].handler(ctx, obj, &req, blob_data(attrbuf[UBUS_ATTR_METHOD]), attrbuf[UBUS_ATTR_DATA]); send: blob_buf_init(&b, 0); blob_put_int32(&b, UBUS_ATTR_STATUS, ret); blob_put_int32(&b, UBUS_ATTR_OBJID, objid); ubus_send_msg(ctx, hdr->seq, b.head, UBUS_MSG_STATUS, hdr->peer); } static void ubus_process_msg(struct ubus_context *ctx, struct ubus_msghdr *hdr) { struct ubus_request *req; switch(hdr->type) { case UBUS_MSG_STATUS: req = ubus_find_request(ctx, hdr->seq, hdr->peer); if (!req) break; ubus_process_req_status(req, hdr); break; case UBUS_MSG_DATA: req = ubus_find_request(ctx, hdr->seq, hdr->peer); if (req && (req->data_cb || req->raw_data_cb)) ubus_req_data(req, hdr); break; case UBUS_MSG_INVOKE: ubus_process_invoke(ctx, hdr); break; } } void ubus_abort_request(struct ubus_context *ctx, struct ubus_request *req) { if (!list_empty(&req->list)) return; req->cancelled = true; ubus_process_req_data(req); list_del(&req->list); } void ubus_complete_request_async(struct ubus_context *ctx, struct ubus_request *req) { if (!list_empty(&req->list)) return; list_add(&req->list, &ctx->requests); } static void ubus_handle_data(struct uloop_fd *u, unsigned int events) { struct ubus_context *ctx = container_of(u, struct ubus_context, sock); struct ubus_msghdr *hdr = &ctx->msgbuf.hdr; while (get_next_msg(ctx)) { ubus_process_msg(ctx, hdr); if (uloop_cancelled) break; } if (u->eof) ctx->connection_lost(ctx); } static void ubus_sync_req_cb(struct ubus_request *req, int ret) { req->status_msg = true; req->status_code = ret; uloop_end(); } struct ubus_sync_req_cb { struct uloop_timeout timeout; struct ubus_request *req; }; static void ubus_sync_req_timeout_cb(struct uloop_timeout *timeout) { struct ubus_sync_req_cb *cb; cb = container_of(timeout, struct ubus_sync_req_cb, timeout); ubus_sync_req_cb(cb->req, UBUS_STATUS_TIMEOUT); } int ubus_complete_request(struct ubus_context *ctx, struct ubus_request *req, int timeout) { struct ubus_sync_req_cb cb; ubus_complete_handler_t complete_cb = req->complete_cb; bool registered = ctx->sock.registered; bool cancelled = uloop_cancelled; int status = UBUS_STATUS_NO_DATA; if (!registered) { uloop_init(); ubus_add_uloop(ctx); } if (timeout) { memset(&cb, 0, sizeof(cb)); cb.req = req; cb.timeout.cb = ubus_sync_req_timeout_cb; uloop_timeout_set(&cb.timeout, timeout); } ubus_complete_request_async(ctx, req); req->complete_cb = ubus_sync_req_cb; uloop_run(); if (timeout) uloop_timeout_cancel(&cb.timeout); if (req->status_msg) status = req->status_code; req->complete_cb = complete_cb; if (req->complete_cb) req->complete_cb(req, status); uloop_cancelled = cancelled; if (!registered) uloop_fd_delete(&ctx->sock); return status; } struct ubus_lookup_request { struct ubus_request req; ubus_lookup_handler_t cb; }; static void ubus_lookup_cb(struct ubus_request *ureq, int type, struct blob_attr *msg) { struct ubus_lookup_request *req; struct ubus_object_data obj; struct blob_attr **attr; req = container_of(ureq, struct ubus_lookup_request, req); attr = ubus_parse_msg(msg); if (!attr[UBUS_ATTR_OBJID] || !attr[UBUS_ATTR_OBJPATH] || !attr[UBUS_ATTR_OBJTYPE]) return; memset(&obj, 0, sizeof(obj)); obj.id = blob_get_u32(attr[UBUS_ATTR_OBJID]); obj.path = blob_data(attr[UBUS_ATTR_OBJPATH]); obj.type_id = blob_get_u32(attr[UBUS_ATTR_OBJTYPE]); obj.signature = attr[UBUS_ATTR_SIGNATURE]; req->cb(ureq->ctx, &obj, ureq->priv); } int ubus_lookup(struct ubus_context *ctx, const char *path, ubus_lookup_handler_t cb, void *priv) { struct ubus_lookup_request lookup; blob_buf_init(&b, 0); if (path) blob_put_string(&b, UBUS_ATTR_OBJPATH, path); if (ubus_start_request(ctx, &lookup.req, b.head, UBUS_MSG_LOOKUP, 0) < 0) return UBUS_STATUS_INVALID_ARGUMENT; lookup.req.raw_data_cb = ubus_lookup_cb; lookup.req.priv = priv; lookup.cb = cb; return ubus_complete_request(ctx, &lookup.req, 0); } static void ubus_lookup_id_cb(struct ubus_request *req, int type, struct blob_attr *msg) { struct blob_attr **attr; uint32_t *id = req->priv; attr = ubus_parse_msg(msg); if (!attr[UBUS_ATTR_OBJID]) return; *id = blob_get_u32(attr[UBUS_ATTR_OBJID]); } int ubus_lookup_id(struct ubus_context *ctx, const char *path, uint32_t *id) { struct ubus_request req; blob_buf_init(&b, 0); if (path) blob_put_string(&b, UBUS_ATTR_OBJPATH, path); if (ubus_start_request(ctx, &req, b.head, UBUS_MSG_LOOKUP, 0) < 0) return UBUS_STATUS_INVALID_ARGUMENT; req.raw_data_cb = ubus_lookup_id_cb; req.priv = id; return ubus_complete_request(ctx, &req, 0); } int ubus_send_reply(struct ubus_context *ctx, struct ubus_request_data *req, struct blob_attr *msg) { int ret; blob_buf_init(&b, 0); blob_put_int32(&b, UBUS_ATTR_OBJID, req->object); blob_put(&b, UBUS_ATTR_DATA, blob_data(msg), blob_len(msg)); ret = ubus_send_msg(ctx, req->seq, b.head, UBUS_MSG_DATA, req->peer); if (ret < 0) return UBUS_STATUS_NO_DATA; return 0; } int ubus_invoke_async(struct ubus_context *ctx, uint32_t obj, const char *method, struct blob_attr *msg, struct ubus_request *req) { blob_buf_init(&b, 0); blob_put_int32(&b, UBUS_ATTR_OBJID, obj); blob_put_string(&b, UBUS_ATTR_METHOD, method); if (msg) blob_put(&b, UBUS_ATTR_DATA, blob_data(msg), blob_len(msg)); if (ubus_start_request(ctx, req, b.head, UBUS_MSG_INVOKE, obj) < 0) return UBUS_STATUS_INVALID_ARGUMENT; return 0; } int ubus_invoke(struct ubus_context *ctx, uint32_t obj, const char *method, struct blob_attr *msg, ubus_data_handler_t cb, void *priv, int timeout) { struct ubus_request req; ubus_invoke_async(ctx, obj, method, msg, &req); req.data_cb = cb; req.priv = priv; return ubus_complete_request(ctx, &req, timeout); } static void ubus_add_object_cb(struct ubus_request *req, int type, struct blob_attr *msg) { struct ubus_object *obj = req->priv; ubus_parse_msg(msg); if (!attrbuf[UBUS_ATTR_OBJID]) return; obj->id = blob_get_u32(attrbuf[UBUS_ATTR_OBJID]); if (attrbuf[UBUS_ATTR_OBJTYPE]) obj->type->id = blob_get_u32(attrbuf[UBUS_ATTR_OBJTYPE]); obj->avl.key = &obj->id; avl_insert(&req->ctx->objects, &obj->avl); } static void ubus_push_method_data(const struct ubus_method *m) { void *mtbl; int i; mtbl = blobmsg_open_table(&b, m->name); for (i = 0; i < m->n_policy; i++) blobmsg_add_u32(&b, m->policy[i].name, m->policy[i].type); blobmsg_close_table(&b, mtbl); } static bool ubus_push_object_type(const struct ubus_object_type *type) { void *s; int i; s = blob_nest_start(&b, UBUS_ATTR_SIGNATURE); for (i = 0; i < type->n_methods; i++) ubus_push_method_data(&type->methods[i]); blob_nest_end(&b, s); return true; } static int __ubus_add_object(struct ubus_context *ctx, struct ubus_object *obj) { struct ubus_request req; int ret; blob_buf_init(&b, 0); if (obj->name && obj->type) { blob_put_string(&b, UBUS_ATTR_OBJPATH, obj->name); if (obj->type->id) blob_put_int32(&b, UBUS_ATTR_OBJTYPE, obj->type->id); else if (!ubus_push_object_type(obj->type)) return UBUS_STATUS_INVALID_ARGUMENT; } if (ubus_start_request(ctx, &req, b.head, UBUS_MSG_ADD_OBJECT, 0) < 0) return UBUS_STATUS_INVALID_ARGUMENT; req.raw_data_cb = ubus_add_object_cb; req.priv = obj; ret = ubus_complete_request(ctx, &req, 0); if (ret) return ret; if (!obj->id) return UBUS_STATUS_NO_DATA; return 0; } int ubus_add_object(struct ubus_context *ctx, struct ubus_object *obj) { if (!obj->name || !obj->type) return UBUS_STATUS_INVALID_ARGUMENT; return __ubus_add_object(ctx, obj); } static void ubus_remove_object_cb(struct ubus_request *req, int type, struct blob_attr *msg) { struct ubus_object *obj = req->priv; ubus_parse_msg(msg); if (!attrbuf[UBUS_ATTR_OBJID]) return; obj->id = 0; if (attrbuf[UBUS_ATTR_OBJTYPE] && obj->type) obj->type->id = 0; avl_delete(&req->ctx->objects, &obj->avl); } int ubus_remove_object(struct ubus_context *ctx, struct ubus_object *obj) { struct ubus_request req; int ret; blob_buf_init(&b, 0); blob_put_int32(&b, UBUS_ATTR_OBJID, obj->id); if (ubus_start_request(ctx, &req, b.head, UBUS_MSG_REMOVE_OBJECT, 0) < 0) return UBUS_STATUS_INVALID_ARGUMENT; req.raw_data_cb = ubus_remove_object_cb; req.priv = obj; ret = ubus_complete_request(ctx, &req, 0); if (ret) return ret; if (obj->id) return UBUS_STATUS_NO_DATA; return 0; } static int ubus_event_cb(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct ubus_event_handler *ev; ev = container_of(obj, struct ubus_event_handler, obj); ev->cb(ctx, ev, method, msg); return 0; } static const struct ubus_method event_method = { .name = NULL, .handler = ubus_event_cb, }; int ubus_register_event_handler(struct ubus_context *ctx, struct ubus_event_handler *ev, const char *pattern) { struct ubus_object *obj = &ev->obj; struct blob_buf b2; int ret; if (!obj->id) { obj->methods = &event_method; obj->n_methods = 1; if (!!obj->name ^ !!obj->type) return UBUS_STATUS_INVALID_ARGUMENT; ret = __ubus_add_object(ctx, obj); if (ret) return ret; } /* use a second buffer, ubus_invoke() overwrites the primary one */ memset(&b2, 0, sizeof(b2)); blob_buf_init(&b2, 0); blobmsg_add_u32(&b2, "object", obj->id); if (pattern) blobmsg_add_string(&b2, "pattern", pattern); return ubus_invoke(ctx, UBUS_SYSTEM_OBJECT_EVENT, "register", b2.head, NULL, NULL, 0); } int ubus_send_event(struct ubus_context *ctx, const char *id, struct blob_attr *data) { struct ubus_request req; void *s; blob_buf_init(&b, 0); blob_put_int32(&b, UBUS_ATTR_OBJID, UBUS_SYSTEM_OBJECT_EVENT); blob_put_string(&b, UBUS_ATTR_METHOD, "send"); s = blob_nest_start(&b, UBUS_ATTR_DATA); blobmsg_add_string(&b, "id", id); blobmsg_add_field(&b, BLOBMSG_TYPE_TABLE, "data", blob_data(data), blob_len(data)); blob_nest_end(&b, s); if (ubus_start_request(ctx, &req, b.head, UBUS_MSG_INVOKE, UBUS_SYSTEM_OBJECT_EVENT) < 0) return UBUS_STATUS_INVALID_ARGUMENT; return ubus_complete_request(ctx, &req, 0); } static void ubus_default_connection_lost(struct ubus_context *ctx) { if (ctx->sock.registered) uloop_end(); } struct ubus_context *ubus_connect(const char *path) { struct ubus_context *ctx; struct { struct ubus_msghdr hdr; struct blob_attr data; } hdr; struct blob_attr *buf; if (!path) path = UBUS_UNIX_SOCKET; ctx = calloc(1, sizeof(*ctx)); if (!ctx) goto error; ctx->sock.fd = usock(USOCK_UNIX, path, NULL); if (ctx->sock.fd < 0) goto error_free; ctx->sock.cb = ubus_handle_data; if (read(ctx->sock.fd, &hdr, sizeof(hdr)) != sizeof(hdr)) goto error_close; if (!ubus_validate_hdr(&hdr.hdr)) goto error_close; if (hdr.hdr.type != UBUS_MSG_HELLO) goto error_close; buf = calloc(1, blob_raw_len(&hdr.data)); if (!buf) goto error_close; memcpy(buf, &hdr.data, sizeof(hdr.data)); if (read(ctx->sock.fd, blob_data(buf), blob_len(buf)) != blob_len(buf)) goto error_free_buf; ctx->local_id = hdr.hdr.peer; free(buf); ctx->connection_lost = ubus_default_connection_lost; INIT_LIST_HEAD(&ctx->requests); avl_init(&ctx->objects, ubus_cmp_id, false, NULL); if (!ctx->local_id) goto error_close; return ctx; error_free_buf: free(buf); error_close: close(ctx->sock.fd); error_free: free(ctx); error: return NULL; } void ubus_free(struct ubus_context *ctx) { close(ctx->sock.fd); free(ctx); }