/* * Copyright (c) 2019 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include static struct ring_buf ringbuf; /* * Log message format: * Logging started with magic number 0x55aa followed by log message id. * Log message ended with null terminator and takes * CONFIG_LOG_BACKEND_RB_SLOT_SIZE slot. The long log message can occupy * several logging slots. */ /* * All log messages are split to similar sized logging slots. Since ring * buffer slots get rewritten we need to check that all slots are fit to * the ring buffer */ BUILD_ASSERT(CONFIG_LOG_BACKEND_RB_MEM_SIZE % CONFIG_LOG_BACKEND_RB_SLOT_SIZE == 0); static void init(void) { ring_buf_init(&ringbuf, CONFIG_LOG_BACKEND_RB_MEM_SIZE, (void *)CONFIG_LOG_BACKEND_RB_MEM_BASE); } static void trace(const uint8_t *data, size_t length) { const uint16_t magic = 0x55aa; static uint16_t log_id; volatile uint8_t *t, *region; int space; int i; space = ring_buf_space_get(&ringbuf); if (space < CONFIG_LOG_BACKEND_RB_SLOT_SIZE) { uint8_t *dummy; /* Remove oldest entry */ ring_buf_get_claim(&ringbuf, &dummy, CONFIG_LOG_BACKEND_RB_SLOT_SIZE); ring_buf_get_finish(&ringbuf, CONFIG_LOG_BACKEND_RB_SLOT_SIZE); } ring_buf_put_claim(&ringbuf, (uint8_t **)&t, CONFIG_LOG_BACKEND_RB_SLOT_SIZE); region = t; /* Add magic number at the beginning of the slot */ *(uint16_t *)t = magic; t += 2; /* Add log id */ *(uint16_t *)t = log_id++; t += 2; for (i = 0; i < MIN(length, CONFIG_LOG_BACKEND_RB_SLOT_SIZE - 4); i++) { *t++ = data[i]; } SOC_DCACHE_FLUSH((void *)region, CONFIG_LOG_BACKEND_RB_SLOT_SIZE); ring_buf_put_finish(&ringbuf, CONFIG_LOG_BACKEND_RB_SLOT_SIZE); } static int char_out(uint8_t *data, size_t length, void *ctx) { trace(data, length); return length; } /* magic and log id takes space */ static uint8_t rb_log_buf[CONFIG_LOG_BACKEND_RB_SLOT_SIZE - 4]; LOG_OUTPUT_DEFINE(log_output_rb, char_out, rb_log_buf, sizeof(rb_log_buf)); static void put(const struct log_backend *const backend, struct log_msg *msg) { log_msg_get(msg); uint32_t flags = LOG_OUTPUT_FLAG_LEVEL; if (IS_ENABLED(CONFIG_LOG_BACKEND_FORMAT_TIMESTAMP)) { flags |= LOG_OUTPUT_FLAG_FORMAT_TIMESTAMP; } log_output_msg_process(&log_output_rb, msg, flags); log_msg_put(msg); } static void panic(struct log_backend const *const backend) { log_output_flush(&log_output_rb); } static void dropped(const struct log_backend *const backend, uint32_t cnt) { ARG_UNUSED(backend); log_output_dropped_process(&log_output_rb, cnt); } static void sync_string(const struct log_backend *const backend, struct log_msg_ids src_level, uint32_t timestamp, const char *fmt, va_list ap) { uint32_t flags = LOG_OUTPUT_FLAG_LEVEL; uint32_t key; if (IS_ENABLED(CONFIG_LOG_BACKEND_FORMAT_TIMESTAMP)) { flags |= LOG_OUTPUT_FLAG_FORMAT_TIMESTAMP; } key = irq_lock(); log_output_string(&log_output_rb, src_level, timestamp, fmt, ap, flags); irq_unlock(key); } static void sync_hexdump(const struct log_backend *const backend, struct log_msg_ids src_level, uint32_t timestamp, const char *metadata, const uint8_t *data, uint32_t length) { uint32_t flags = LOG_OUTPUT_FLAG_LEVEL | LOG_OUTPUT_FLAG_TIMESTAMP; uint32_t key; if (IS_ENABLED(CONFIG_LOG_BACKEND_FORMAT_TIMESTAMP)) { flags |= LOG_OUTPUT_FLAG_FORMAT_TIMESTAMP; } key = irq_lock(); log_output_hexdump(&log_output_rb, src_level, timestamp, metadata, data, length, flags); irq_unlock(key); } const struct log_backend_api log_backend_adsp_api = { .put = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ? NULL : put, .put_sync_string = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ? sync_string : NULL, .put_sync_hexdump = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ? sync_hexdump : NULL, .panic = panic, .init = init, .dropped = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ? NULL : dropped, }; LOG_BACKEND_DEFINE(log_backend_adsp, log_backend_adsp_api, true);