/* * Copyright Runtime.io 2018. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 */ #include #include "net/buf.h" #include "mgmt/mgmt.h" #include "mgmt/buf.h" #include "smp/smp.h" #include "mgmt/smp.h" static mgmt_alloc_rsp_fn zephyr_smp_alloc_rsp; static mgmt_trim_front_fn zephyr_smp_trim_front; static mgmt_reset_buf_fn zephyr_smp_reset_buf; static mgmt_write_at_fn zephyr_smp_write_at; static mgmt_init_reader_fn zephyr_smp_init_reader; static mgmt_init_writer_fn zephyr_smp_init_writer; static mgmt_free_buf_fn zephyr_smp_free_buf; static smp_tx_rsp_fn zephyr_smp_tx_rsp; static const struct mgmt_streamer_cfg zephyr_smp_cbor_cfg = { .alloc_rsp = zephyr_smp_alloc_rsp, .trim_front = zephyr_smp_trim_front, .reset_buf = zephyr_smp_reset_buf, .write_at = zephyr_smp_write_at, .init_reader = zephyr_smp_init_reader, .init_writer = zephyr_smp_init_writer, .free_buf = zephyr_smp_free_buf, }; void * zephyr_smp_alloc_rsp(const void *req, void *arg) { const struct net_buf_pool *pool; const struct net_buf *req_nb; struct net_buf *rsp_nb; struct zephyr_smp_transport *zst = arg; req_nb = req; rsp_nb = mcumgr_buf_alloc(); if (rsp_nb == NULL) { return NULL; } if (zst->zst_ud_copy) { zst->zst_ud_copy(rsp_nb, req_nb); } else { pool = net_buf_pool_get(req_nb->pool_id); memcpy(net_buf_user_data(rsp_nb), net_buf_user_data((void *)req_nb), sizeof(req_nb->user_data)); } return rsp_nb; } static void zephyr_smp_trim_front(void *buf, size_t len, void *arg) { struct net_buf *nb; nb = buf; if (len > nb->len) { len = nb->len; } net_buf_pull(nb, len); } /** * Splits an appropriately-sized fragment from the front of a net_buf, as * neeeded. If the length of the net_buf is greater than specified maximum * fragment size, a new net_buf is allocated, and data is moved from the source * net_buf to the new net_buf. If the net_buf is small enough to fit in a * single fragment, the source net_buf is returned unmodified, and the supplied * pointer is set to NULL. * * This function is expected to be called in a loop until the entire source * net_buf has been consumed. For example: * * struct net_buf *frag; * struct net_buf *rsp; * ... * while (rsp != NULL) { * frag = zephyr_smp_split_frag(&rsp, zst, get_mtu()); * if (frag == NULL) { * net_buf_unref(nb); * return SYS_ENOMEM; * } * send_packet(frag) * } * * @param nb The packet to fragment. Upon fragmentation, * this net_buf is adjusted such that the * fragment data is removed. If the packet * constitutes a single fragment, this gets * set to NULL on success. * @param arg The zephyr SMP transport pointer. * @param mtu The maximum payload size of a fragment. * * @return The next fragment to send on success; * NULL on failure. */ static struct net_buf * zephyr_smp_split_frag(struct net_buf **nb, void *arg, u16_t mtu) { struct net_buf *frag; struct net_buf *src; src = *nb; if (src->len <= mtu) { *nb = NULL; frag = src; } else { frag = zephyr_smp_alloc_rsp(src, arg); /* Copy fragment payload into new buffer. */ net_buf_add_mem(frag, src->data, mtu); /* Remove fragment from total response. */ zephyr_smp_trim_front(src, mtu, NULL); } return frag; } static void zephyr_smp_reset_buf(void *buf, void *arg) { net_buf_reset(buf); } static int zephyr_smp_write_at(struct cbor_encoder_writer *writer, size_t offset, const void *data, size_t len, void *arg) { struct cbor_nb_writer *czw; struct net_buf *nb; czw = (struct cbor_nb_writer *)writer; nb = czw->nb; if (offset > nb->len) { return MGMT_ERR_EINVAL; } if ((offset + len) > (nb->size - net_buf_headroom(nb))) { return MGMT_ERR_EINVAL; } memcpy(nb->data + offset, data, len); if (nb->len < offset + len) { nb->len = offset + len; writer->bytes_written = nb->len; } return 0; } static int zephyr_smp_tx_rsp(struct smp_streamer *ns, void *rsp, void *arg) { struct zephyr_smp_transport *zst; struct net_buf *frag; struct net_buf *nb; u16_t mtu; int rc; int i; zst = arg; nb = rsp; mtu = zst->zst_get_mtu(rsp); if (mtu == 0U) { /* The transport cannot support a transmission right now. */ return MGMT_ERR_EUNKNOWN; } i = 0; while (nb != NULL) { frag = zephyr_smp_split_frag(&nb, zst, mtu); if (frag == NULL) { return MGMT_ERR_ENOMEM; } rc = zst->zst_output(zst, frag); if (rc != 0) { return MGMT_ERR_EUNKNOWN; } } return 0; } static void zephyr_smp_free_buf(void *buf, void *arg) { struct zephyr_smp_transport *zst = arg; if (!buf) { return; } if (zst->zst_ud_free) { zst->zst_ud_free(net_buf_user_data((struct net_buf *)buf)); } mcumgr_buf_free(buf); } static int zephyr_smp_init_reader(struct cbor_decoder_reader *reader, void *buf, void *arg) { struct cbor_nb_reader *czr; czr = (struct cbor_nb_reader *)reader; cbor_nb_reader_init(czr, buf); return 0; } static int zephyr_smp_init_writer(struct cbor_encoder_writer *writer, void *buf, void *arg) { struct cbor_nb_writer *czw; czw = (struct cbor_nb_writer *)writer; cbor_nb_writer_init(czw, buf); return 0; } /** * Processes a single SMP packet and sends the corresponding response(s). */ static int zephyr_smp_process_packet(struct zephyr_smp_transport *zst, struct net_buf *nb) { struct cbor_nb_reader reader; struct cbor_nb_writer writer; struct smp_streamer streamer; int rc; streamer = (struct smp_streamer) { .mgmt_stmr = { .cfg = &zephyr_smp_cbor_cfg, .reader = &reader.r, .writer = &writer.enc, .cb_arg = zst, }, .tx_rsp_cb = zephyr_smp_tx_rsp, }; rc = smp_process_request_packet(&streamer, nb); return rc; } /** * Processes all received SNP request packets. */ static void zephyr_smp_handle_reqs(struct k_work *work) { struct zephyr_smp_transport *zst; struct net_buf *nb; zst = (void *)work; while ((nb = k_fifo_get(&zst->zst_fifo, K_NO_WAIT)) != NULL) { zephyr_smp_process_packet(zst, nb); } } void zephyr_smp_transport_init(struct zephyr_smp_transport *zst, zephyr_smp_transport_out_fn *output_func, zephyr_smp_transport_get_mtu_fn *get_mtu_func, zephyr_smp_transport_ud_copy_fn *ud_copy_func, zephyr_smp_transport_ud_free_fn *ud_free_func) { *zst = (struct zephyr_smp_transport) { .zst_output = output_func, .zst_get_mtu = get_mtu_func, .zst_ud_copy = ud_copy_func, .zst_ud_free = ud_free_func, }; k_work_init(&zst->zst_work, zephyr_smp_handle_reqs); k_fifo_init(&zst->zst_fifo); } void zephyr_smp_rx_req(struct zephyr_smp_transport *zst, struct net_buf *nb) { k_fifo_put(&zst->zst_fifo, nb); k_work_submit(&zst->zst_work); }