/* * Copyright (c) 2022, Arm Limited. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include /* Union as message space and reply space are never used at the same time, and this saves space as * we can overlap them. */ union __packed __attribute__((aligned(4))) rss_comms_io_buffer_t { struct serialized_rss_comms_msg_t msg; struct serialized_rss_comms_reply_t reply; }; static uint8_t select_protocol_version(const psa_invec *in_vec, size_t in_len, const psa_outvec *out_vec, size_t out_len) { size_t comms_mhu_msg_size; size_t comms_embed_msg_min_size; size_t comms_embed_reply_min_size; size_t in_size_total = 0; size_t out_size_total = 0; size_t i; for (i = 0U; i < in_len; ++i) { in_size_total += in_vec[i].len; } for (i = 0U; i < out_len; ++i) { out_size_total += out_vec[i].len; } comms_mhu_msg_size = mhu_get_max_message_size(); comms_embed_msg_min_size = sizeof(struct serialized_rss_comms_header_t) + sizeof(struct rss_embed_msg_t) - PLAT_RSS_COMMS_PAYLOAD_MAX_SIZE; comms_embed_reply_min_size = sizeof(struct serialized_rss_comms_header_t) + sizeof(struct rss_embed_reply_t) - PLAT_RSS_COMMS_PAYLOAD_MAX_SIZE; /* Use embed if we can pack into one message and reply, else use * pointer_access. The underlying MHU transport protocol uses a * single uint32_t to track the length, so the amount of data that * can be in a message is 4 bytes less than mhu_get_max_message_size * reports. * * TODO tune this with real performance numbers, it's possible a * pointer_access message is less performant than multiple embed * messages due to ATU configuration costs to allow access to the * pointers. */ if ((comms_embed_msg_min_size + in_size_total > comms_mhu_msg_size - sizeof(uint32_t)) || (comms_embed_reply_min_size + out_size_total > comms_mhu_msg_size) - sizeof(uint32_t)) { return RSS_COMMS_PROTOCOL_POINTER_ACCESS; } else { return RSS_COMMS_PROTOCOL_EMBED; } } psa_status_t psa_call(psa_handle_t handle, int32_t type, const psa_invec *in_vec, size_t in_len, psa_outvec *out_vec, size_t out_len) { /* Declared statically to avoid using huge amounts of stack space. Maybe revisit if * functions not being reentrant becomes a problem. */ static union rss_comms_io_buffer_t io_buf; enum mhu_error_t err; psa_status_t status; static uint8_t seq_num = 1U; size_t msg_size; size_t reply_size = sizeof(io_buf.reply); psa_status_t return_val; size_t idx; if (type > INT16_MAX || type < INT16_MIN || in_len > PSA_MAX_IOVEC || out_len > PSA_MAX_IOVEC) { return PSA_ERROR_INVALID_ARGUMENT; } io_buf.msg.header.seq_num = seq_num, /* No need to distinguish callers (currently concurrent calls are not supported). */ io_buf.msg.header.client_id = 1U, io_buf.msg.header.protocol_ver = select_protocol_version(in_vec, in_len, out_vec, out_len); status = rss_protocol_serialize_msg(handle, type, in_vec, in_len, out_vec, out_len, &io_buf.msg, &msg_size); if (status != PSA_SUCCESS) { return status; } VERBOSE("[RSS-COMMS] Sending message\n"); VERBOSE("protocol_ver=%u\n", io_buf.msg.header.protocol_ver); VERBOSE("seq_num=%u\n", io_buf.msg.header.seq_num); VERBOSE("client_id=%u\n", io_buf.msg.header.client_id); for (idx = 0; idx < in_len; idx++) { VERBOSE("in_vec[%lu].len=%lu\n", idx, in_vec[idx].len); VERBOSE("in_vec[%lu].buf=%p\n", idx, (void *)in_vec[idx].base); } err = mhu_send_data((uint8_t *)&io_buf.msg, msg_size); if (err != MHU_ERR_NONE) { return PSA_ERROR_COMMUNICATION_FAILURE; } #if DEBUG /* * Poisoning the message buffer (with a known pattern). * Helps in detecting hypothetical RSS communication bugs. */ memset(&io_buf.msg, 0xA5, msg_size); #endif err = mhu_receive_data((uint8_t *)&io_buf.reply, &reply_size); if (err != MHU_ERR_NONE) { return PSA_ERROR_COMMUNICATION_FAILURE; } VERBOSE("[RSS-COMMS] Received reply\n"); VERBOSE("protocol_ver=%u\n", io_buf.reply.header.protocol_ver); VERBOSE("seq_num=%u\n", io_buf.reply.header.seq_num); VERBOSE("client_id=%u\n", io_buf.reply.header.client_id); status = rss_protocol_deserialize_reply(out_vec, out_len, &return_val, &io_buf.reply, reply_size); if (status != PSA_SUCCESS) { return status; } VERBOSE("return_val=%d\n", return_val); for (idx = 0U; idx < out_len; idx++) { VERBOSE("out_vec[%lu].len=%lu\n", idx, out_vec[idx].len); VERBOSE("out_vec[%lu].buf=%p\n", idx, (void *)out_vec[idx].base); } /* Clear the MHU message buffer to remove assets from memory */ memset(&io_buf, 0x0, sizeof(io_buf)); seq_num++; return return_val; } int rss_comms_init(uintptr_t mhu_sender_base, uintptr_t mhu_receiver_base) { enum mhu_error_t err; err = mhu_init_sender(mhu_sender_base); if (err != MHU_ERR_NONE) { ERROR("[RSS-COMMS] Host to RSS MHU driver initialization failed: %d\n", err); return -1; } err = mhu_init_receiver(mhu_receiver_base); if (err != MHU_ERR_NONE) { ERROR("[RSS-COMMS] RSS to Host MHU driver initialization failed: %d\n", err); return -1; } return 0; }