/* * Copyright (c) 2020 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ #include #include #define BT_MESH_BLOB_OP_XFER_GET BT_MESH_MODEL_OP_2(0x83, 0x00) #define BT_MESH_BLOB_OP_XFER_START BT_MESH_MODEL_OP_2(0x83, 0x01) #define BT_MESH_BLOB_OP_XFER_CANCEL BT_MESH_MODEL_OP_2(0x83, 0x02) #define BT_MESH_BLOB_OP_XFER_STATUS BT_MESH_MODEL_OP_2(0x83, 0x03) #define BT_MESH_BLOB_OP_BLOCK_GET BT_MESH_MODEL_OP_2(0x83, 0x05) #define BT_MESH_BLOB_OP_BLOCK_START BT_MESH_MODEL_OP_2(0x83, 0x04) #define BT_MESH_BLOB_OP_CHUNK BT_MESH_MODEL_OP_1(0x66) #define BT_MESH_BLOB_OP_BLOCK_STATUS BT_MESH_MODEL_OP_1(0x67) #define BT_MESH_BLOB_OP_BLOCK_REPORT BT_MESH_MODEL_OP_1(0x68) #define BT_MESH_BLOB_OP_INFO_GET BT_MESH_MODEL_OP_2(0x83, 0x06) #define BT_MESH_BLOB_OP_INFO_STATUS BT_MESH_MODEL_OP_2(0x83, 0x07) #define BLOB_BLOCK_NOT_SET 0xffff #define BLOB_CHUNK_SDU_OVERHEAD \ (BT_MESH_MODEL_OP_LEN(BT_MESH_BLOB_OP_CHUNK) + 2 + BT_MESH_MIC_SHORT) #define BLOB_CHUNK_SIZE_MAX(sdu_max) ((sdu_max) - BLOB_CHUNK_SDU_OVERHEAD) #define BLOB_CHUNK_SDU_LEN(chunk_size) (BLOB_CHUNK_SDU_OVERHEAD + (chunk_size)) #if CONFIG_BT_MESH_ALIGN_CHUNK_SIZE_TO_MAX_SEGMENT || \ CONFIG_BT_MESH_RX_BLOB_CHUNK_SIZE > BLOB_CHUNK_SIZE_MAX(BT_MESH_RX_SDU_MAX) #define BLOB_RX_CHUNK_SIZE BLOB_CHUNK_SIZE_MAX(BT_MESH_RX_SDU_MAX) #else #define BLOB_RX_CHUNK_SIZE CONFIG_BT_MESH_RX_BLOB_CHUNK_SIZE #endif #if CONFIG_BT_MESH_ALIGN_CHUNK_SIZE_TO_MAX_SEGMENT || \ CONFIG_BT_MESH_TX_BLOB_CHUNK_SIZE > BLOB_CHUNK_SIZE_MAX(BT_MESH_TX_SDU_MAX) #define BLOB_TX_CHUNK_SIZE BLOB_CHUNK_SIZE_MAX(BT_MESH_TX_SDU_MAX) #else #define BLOB_TX_CHUNK_SIZE CONFIG_BT_MESH_TX_BLOB_CHUNK_SIZE #endif /* Utility macros for calculating log2 of a number at compile time. * Used to determine the log2 representation of the block size, which * is configured as a raw number, but encoded as log2. * * The macros expand to a series of ternary expressions, effectively * searching through power of twos until a match is found. * According to MshMBTv1.0, the block size cannot be larger than 2^20, * so we'll stop the search at 20. */ #define _BLOB_LOG_2_CEIL(l, x) ((x) <= (1U << l)) ? l : #define _BLOB_LOG_2_FLOOR(l, x) ((x) < (1U << (l + 1))) ? l : #define BLOB_BLOCK_SIZE_LOG_CEIL(x) (LISTIFY(20, _BLOB_LOG_2_CEIL, (), x) 20) #define BLOB_BLOCK_SIZE_LOG_FLOOR(x) (LISTIFY(20, _BLOB_LOG_2_FLOOR, (), x) 20) /* Log2 representation of the minimum block size */ #define BLOB_BLOCK_SIZE_LOG_MIN BLOB_BLOCK_SIZE_LOG_CEIL(CONFIG_BT_MESH_BLOB_BLOCK_SIZE_MIN) /* Log2 representation of the maximum block size */ #define BLOB_BLOCK_SIZE_LOG_MAX BLOB_BLOCK_SIZE_LOG_FLOOR(CONFIG_BT_MESH_BLOB_BLOCK_SIZE_MAX) #if defined(CONFIG_BT_MESH_BLOB_SRV) #define BLOB_BLOCK_REPORT_STATUS_MSG_MAXLEN ( \ MAX(sizeof(((struct bt_mesh_blob_block *)0)->missing), \ CONFIG_BT_MESH_BLOB_SRV_PULL_REQ_COUNT * 3)) #define BLOB_BLOCK_STATUS_MSG_MAXLEN (5 + \ MAX(sizeof(((struct bt_mesh_blob_block *)0)->missing), \ CONFIG_BT_MESH_BLOB_SRV_PULL_REQ_COUNT * 3)) #else #define BLOB_BLOCK_REPORT_STATUS_MSG_MAXLEN sizeof(((struct bt_mesh_blob_srv *)0)->block.missing) #define BLOB_BLOCK_STATUS_MSG_MAXLEN (5 + sizeof(((struct bt_mesh_blob_srv *)0)->block.missing)) #endif #define BLOB_XFER_STATUS_MSG_MAXLEN (17 + sizeof(((struct bt_mesh_blob_srv *)0)->state.blocks)) enum bt_mesh_blob_chunks_missing { BT_MESH_BLOB_CHUNKS_MISSING_ALL, BT_MESH_BLOB_CHUNKS_MISSING_NONE, BT_MESH_BLOB_CHUNKS_MISSING_SOME, BT_MESH_BLOB_CHUNKS_MISSING_ENCODED, }; static inline size_t blob_block_size(size_t xfer_size, uint8_t block_size_log, uint32_t idx) { if (((idx + 1U) << block_size_log) <= xfer_size) { return (1U << block_size_log); } return xfer_size & BIT_MASK(block_size_log); } static inline void blob_chunk_missing_set(uint8_t *missing_chunks, int idx, bool missing) { WRITE_BIT(missing_chunks[idx / 8], idx % 8, missing); } static inline bool blob_chunk_missing_get(const uint8_t *missing_chunks, int idx) { return !!(missing_chunks[idx / 8] & BIT(idx % 8)); } static inline void blob_chunk_missing_set_all(struct bt_mesh_blob_block *block) { size_t bytes = block->chunk_count / 8; memset(block->missing, 0xff, bytes); if (block->chunk_count % 8) { block->missing[bytes] = BIT_MASK(block->chunk_count % 8); } } static inline void blob_chunk_missing_set_none(struct bt_mesh_blob_block *block) { memset(block->missing, 0, sizeof(block->missing)); } /** @brief Perform a message broadcast to all BLOB Transfer Client Target nodes. * * Will send to a group or each Target node individually, repeating until * all Target nodes have responded or the retry time has run out. * * @param cli BLOB Transfer Client instance * @param ctx Broadcast context */ void blob_cli_broadcast(struct bt_mesh_blob_cli *cli, const struct blob_cli_broadcast_ctx *ctx); /** @brief Register that a Target node responded to a broadcast. * * @param cli BLOB Transfer Client instance * @param target Target node that responded. */ void blob_cli_broadcast_rsp(struct bt_mesh_blob_cli *cli, struct bt_mesh_blob_target *target); /** @brief Notify the BLOB Transfer Client that the requested transmission is complete. * * Should be called once for each call to the @ref blob_cli_broadcast_ctx.send * callback. * * @param cli BLOB Transfer Client instance. */ void blob_cli_broadcast_tx_complete(struct bt_mesh_blob_cli *cli); /** @brief Aborts any ongoing BLOB Transfer Client operations. * * @param cli BLOB Transfer Client instance. */ void blob_cli_broadcast_abort(struct bt_mesh_blob_cli *cli);