/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #include #include #include #include #include #include #include #include #if _MSC_VER # pragma warning(disable : 4204) /* non-constant aggregate initializer */ # pragma warning(disable : 4996) /* Disable warnings about fopen() being insecure */ #endif /* * Null logger implementation */ static enum aws_log_level s_null_logger_get_log_level(struct aws_logger *logger, aws_log_subject_t subject) { (void)logger; (void)subject; return AWS_LL_NONE; } static int s_null_logger_log( struct aws_logger *logger, enum aws_log_level log_level, aws_log_subject_t subject, const char *format, ...) { (void)logger; (void)log_level; (void)subject; (void)format; return AWS_OP_SUCCESS; } static void s_null_logger_clean_up(struct aws_logger *logger) { (void)logger; } static struct aws_logger_vtable s_null_vtable = { .get_log_level = s_null_logger_get_log_level, .log = s_null_logger_log, .clean_up = s_null_logger_clean_up, }; static struct aws_logger s_null_logger = {.vtable = &s_null_vtable, .allocator = NULL, .p_impl = NULL}; /* * Pipeline logger implementation */ static void s_aws_logger_pipeline_owned_clean_up(struct aws_logger *logger) { struct aws_logger_pipeline *impl = logger->p_impl; AWS_ASSERT(impl->channel->vtable->clean_up != NULL); (impl->channel->vtable->clean_up)(impl->channel); AWS_ASSERT(impl->formatter->vtable->clean_up != NULL); (impl->formatter->vtable->clean_up)(impl->formatter); AWS_ASSERT(impl->writer->vtable->clean_up != NULL); (impl->writer->vtable->clean_up)(impl->writer); aws_mem_release(impl->allocator, impl->channel); aws_mem_release(impl->allocator, impl->formatter); aws_mem_release(impl->allocator, impl->writer); aws_mem_release(impl->allocator, impl); } /* * Pipeline logger implementation */ static int s_aws_logger_pipeline_log( struct aws_logger *logger, enum aws_log_level log_level, aws_log_subject_t subject, const char *format, ...) { va_list format_args; va_start(format_args, format); struct aws_logger_pipeline *impl = logger->p_impl; struct aws_string *output = NULL; AWS_ASSERT(impl->formatter->vtable->format != NULL); int result = (impl->formatter->vtable->format)(impl->formatter, &output, log_level, subject, format, format_args); va_end(format_args); if (result != AWS_OP_SUCCESS || output == NULL) { return AWS_OP_ERR; } AWS_ASSERT(impl->channel->vtable->send != NULL); if ((impl->channel->vtable->send)(impl->channel, output)) { /* * failure to send implies failure to transfer ownership */ aws_string_destroy(output); return AWS_OP_ERR; } return AWS_OP_SUCCESS; } static enum aws_log_level s_aws_logger_pipeline_get_log_level(struct aws_logger *logger, aws_log_subject_t subject) { (void)subject; struct aws_logger_pipeline *impl = logger->p_impl; return impl->level; } struct aws_logger_vtable g_pipeline_logger_owned_vtable = { .get_log_level = s_aws_logger_pipeline_get_log_level, .log = s_aws_logger_pipeline_log, .clean_up = s_aws_logger_pipeline_owned_clean_up, }; int aws_logger_init_standard( struct aws_logger *logger, struct aws_allocator *allocator, struct aws_logger_standard_options *options) { #ifdef ANDROID (void)options; extern int aws_logger_init_logcat( struct aws_logger *, struct aws_allocator *, struct aws_logger_standard_options *); return aws_logger_init_logcat(logger, allocator, options); #endif struct aws_logger_pipeline *impl = aws_mem_calloc(allocator, 1, sizeof(struct aws_logger_pipeline)); if (impl == NULL) { return AWS_OP_ERR; } struct aws_log_writer *writer = aws_mem_acquire(allocator, sizeof(struct aws_log_writer)); if (writer == NULL) { goto on_allocate_writer_failure; } struct aws_log_writer_file_options file_writer_options = { .filename = options->filename, .file = options->file, }; if (aws_log_writer_init_file(writer, allocator, &file_writer_options)) { goto on_init_writer_failure; } struct aws_log_formatter *formatter = aws_mem_acquire(allocator, sizeof(struct aws_log_formatter)); if (formatter == NULL) { goto on_allocate_formatter_failure; } struct aws_log_formatter_standard_options formatter_options = {.date_format = AWS_DATE_FORMAT_ISO_8601}; if (aws_log_formatter_init_default(formatter, allocator, &formatter_options)) { goto on_init_formatter_failure; } struct aws_log_channel *channel = aws_mem_acquire(allocator, sizeof(struct aws_log_channel)); if (channel == NULL) { goto on_allocate_channel_failure; } if (aws_log_channel_init_background(channel, allocator, writer) == AWS_OP_SUCCESS) { impl->formatter = formatter; impl->channel = channel; impl->writer = writer; impl->allocator = allocator; impl->level = options->level; logger->vtable = &g_pipeline_logger_owned_vtable; logger->allocator = allocator; logger->p_impl = impl; return AWS_OP_SUCCESS; } aws_mem_release(allocator, channel); on_allocate_channel_failure: aws_log_formatter_clean_up(formatter); on_init_formatter_failure: aws_mem_release(allocator, formatter); on_allocate_formatter_failure: aws_log_writer_clean_up(writer); on_init_writer_failure: aws_mem_release(allocator, writer); on_allocate_writer_failure: aws_mem_release(allocator, impl); return AWS_OP_ERR; } /* * Pipeline logger implementation where all the components are externally owned. No clean up * is done on the components. Useful for tests where components are on the stack and often mocked. */ static void s_aws_pipeline_logger_unowned_clean_up(struct aws_logger *logger) { struct aws_logger_pipeline *impl = (struct aws_logger_pipeline *)logger->p_impl; aws_mem_release(impl->allocator, impl); } static struct aws_logger_vtable s_pipeline_logger_unowned_vtable = { .get_log_level = s_aws_logger_pipeline_get_log_level, .log = s_aws_logger_pipeline_log, .clean_up = s_aws_pipeline_logger_unowned_clean_up, }; int aws_logger_init_from_external( struct aws_logger *logger, struct aws_allocator *allocator, struct aws_log_formatter *formatter, struct aws_log_channel *channel, struct aws_log_writer *writer, enum aws_log_level level) { struct aws_logger_pipeline *impl = aws_mem_acquire(allocator, sizeof(struct aws_logger_pipeline)); if (impl == NULL) { return AWS_OP_ERR; } impl->formatter = formatter; impl->channel = channel; impl->writer = writer; impl->allocator = allocator; impl->level = level; logger->vtable = &s_pipeline_logger_unowned_vtable; logger->allocator = allocator; logger->p_impl = impl; return AWS_OP_SUCCESS; } /* * Global API */ static struct aws_logger *s_root_logger_ptr = &s_null_logger; void aws_logger_set(struct aws_logger *logger) { if (logger != NULL) { s_root_logger_ptr = logger; } else { s_root_logger_ptr = &s_null_logger; } } struct aws_logger *aws_logger_get(void) { return s_root_logger_ptr; } void aws_logger_clean_up(struct aws_logger *logger) { AWS_ASSERT(logger->vtable->clean_up != NULL); logger->vtable->clean_up(logger); } static const char *s_log_level_strings[AWS_LL_COUNT] = {"NONE", "FATAL", "ERROR", "WARN", "INFO", "DEBUG", "TRACE"}; int aws_log_level_to_string(enum aws_log_level log_level, const char **level_string) { AWS_ERROR_PRECONDITION(log_level < AWS_LL_COUNT); if (level_string != NULL) { *level_string = s_log_level_strings[log_level]; } return AWS_OP_SUCCESS; } int aws_string_to_log_level(const char *level_string, enum aws_log_level *log_level) { if (level_string != NULL && log_level != NULL) { size_t level_length = strlen(level_string); for (int i = 0; i < AWS_LL_COUNT; ++i) { if (aws_array_eq_c_str_ignore_case(level_string, level_length, s_log_level_strings[i])) { *log_level = i; return AWS_OP_SUCCESS; } } } aws_raise_error(AWS_ERROR_INVALID_ARGUMENT); return AWS_OP_ERR; } int aws_thread_id_t_to_string(aws_thread_id_t thread_id, char *buffer, size_t bufsz) { AWS_ERROR_PRECONDITION(AWS_THREAD_ID_T_REPR_BUFSZ == bufsz); AWS_ERROR_PRECONDITION(buffer && AWS_MEM_IS_WRITABLE(buffer, bufsz)); size_t current_index = 0; unsigned char *bytes = (unsigned char *)&thread_id; for (size_t i = sizeof(aws_thread_id_t); i != 0; --i) { unsigned char c = bytes[i - 1]; int written = snprintf(buffer + current_index, bufsz - current_index, "%02x", c); if (written < 0) { return AWS_OP_ERR; } current_index += written; if (bufsz <= current_index) { return AWS_OP_ERR; } } return AWS_OP_SUCCESS; } #define AWS_LOG_SUBJECT_SPACE_MASK (AWS_LOG_SUBJECT_STRIDE - 1) static const uint32_t S_MAX_LOG_SUBJECT = AWS_LOG_SUBJECT_STRIDE * AWS_PACKAGE_SLOTS - 1; static const struct aws_log_subject_info_list *volatile s_log_subject_slots[AWS_PACKAGE_SLOTS] = {0}; static const struct aws_log_subject_info *s_get_log_subject_info_by_id(aws_log_subject_t subject) { if (subject > S_MAX_LOG_SUBJECT) { return NULL; } uint32_t slot_index = subject >> AWS_LOG_SUBJECT_STRIDE_BITS; uint32_t subject_index = subject & AWS_LOG_SUBJECT_SPACE_MASK; const struct aws_log_subject_info_list *subject_slot = s_log_subject_slots[slot_index]; if (!subject_slot || subject_index >= subject_slot->count) { return NULL; } return &subject_slot->subject_list[subject_index]; } const char *aws_log_subject_name(aws_log_subject_t subject) { const struct aws_log_subject_info *subject_info = s_get_log_subject_info_by_id(subject); if (subject_info != NULL) { return subject_info->subject_name; } return "Unknown"; } void aws_register_log_subject_info_list(struct aws_log_subject_info_list *log_subject_list) { /* * We're not so worried about these asserts being removed in an NDEBUG build * - we'll either segfault immediately (for the first two) or for the count * assert, the registration will be ineffective. */ AWS_FATAL_ASSERT(log_subject_list); AWS_FATAL_ASSERT(log_subject_list->subject_list); AWS_FATAL_ASSERT(log_subject_list->count); const uint32_t min_range = log_subject_list->subject_list[0].subject_id; const uint32_t slot_index = min_range >> AWS_LOG_SUBJECT_STRIDE_BITS; if (slot_index >= AWS_PACKAGE_SLOTS) { /* This is an NDEBUG build apparently. Kill the process rather than * corrupting heap. */ fprintf(stderr, "Bad log subject slot index 0x%016x\n", slot_index); abort(); } s_log_subject_slots[slot_index] = log_subject_list; } void aws_unregister_log_subject_info_list(struct aws_log_subject_info_list *log_subject_list) { /* * We're not so worried about these asserts being removed in an NDEBUG build * - we'll either segfault immediately (for the first two) or for the count * assert, the registration will be ineffective. */ AWS_FATAL_ASSERT(log_subject_list); AWS_FATAL_ASSERT(log_subject_list->subject_list); AWS_FATAL_ASSERT(log_subject_list->count); const uint32_t min_range = log_subject_list->subject_list[0].subject_id; const uint32_t slot_index = min_range >> AWS_LOG_SUBJECT_STRIDE_BITS; if (slot_index >= AWS_PACKAGE_SLOTS) { /* This is an NDEBUG build apparently. Kill the process rather than * corrupting heap. */ fprintf(stderr, "Bad log subject slot index 0x%016x\n", slot_index); AWS_FATAL_ASSERT(false); } s_log_subject_slots[slot_index] = NULL; } /* * no alloc implementation */ struct aws_logger_noalloc { enum aws_log_level level; FILE *file; bool should_close; struct aws_mutex lock; }; static enum aws_log_level s_noalloc_stderr_logger_get_log_level(struct aws_logger *logger, aws_log_subject_t subject) { (void)subject; struct aws_logger_noalloc *impl = logger->p_impl; return impl->level; } #define MAXIMUM_NO_ALLOC_LOG_LINE_SIZE 8192 static int s_noalloc_stderr_logger_log( struct aws_logger *logger, enum aws_log_level log_level, aws_log_subject_t subject, const char *format, ...) { char format_buffer[MAXIMUM_NO_ALLOC_LOG_LINE_SIZE]; va_list format_args; va_start(format_args, format); #if _MSC_VER # pragma warning(push) # pragma warning(disable : 4221) /* allow struct member to reference format_buffer */ #endif struct aws_logging_standard_formatting_data format_data = { .log_line_buffer = format_buffer, .total_length = MAXIMUM_NO_ALLOC_LOG_LINE_SIZE, .level = log_level, .subject_name = aws_log_subject_name(subject), .format = format, .date_format = AWS_DATE_FORMAT_ISO_8601, .allocator = logger->allocator, .amount_written = 0, }; #if _MSC_VER # pragma warning(pop) /* disallow struct member to reference local value */ #endif int result = aws_format_standard_log_line(&format_data, format_args); va_end(format_args); if (result == AWS_OP_ERR) { return AWS_OP_ERR; } struct aws_logger_noalloc *impl = logger->p_impl; aws_mutex_lock(&impl->lock); if (fwrite(format_buffer, 1, format_data.amount_written, impl->file) < format_data.amount_written) { return aws_translate_and_raise_io_error(errno); } aws_mutex_unlock(&impl->lock); return AWS_OP_SUCCESS; } static void s_noalloc_stderr_logger_clean_up(struct aws_logger *logger) { if (logger == NULL) { return; } struct aws_logger_noalloc *impl = logger->p_impl; if (impl->should_close) { fclose(impl->file); } aws_mutex_clean_up(&impl->lock); aws_mem_release(logger->allocator, impl); AWS_ZERO_STRUCT(*logger); } static struct aws_logger_vtable s_noalloc_stderr_vtable = { .get_log_level = s_noalloc_stderr_logger_get_log_level, .log = s_noalloc_stderr_logger_log, .clean_up = s_noalloc_stderr_logger_clean_up, }; int aws_logger_init_noalloc( struct aws_logger *logger, struct aws_allocator *allocator, struct aws_logger_standard_options *options) { struct aws_logger_noalloc *impl = aws_mem_calloc(allocator, 1, sizeof(struct aws_logger_noalloc)); if (impl == NULL) { return AWS_OP_ERR; } impl->level = options->level; if (options->file != NULL) { impl->file = options->file; impl->should_close = false; } else { /* _MSC_VER */ impl->file = fopen(options->filename, "w"); impl->should_close = true; } aws_mutex_init(&impl->lock); logger->vtable = &s_noalloc_stderr_vtable; logger->allocator = allocator; logger->p_impl = impl; return AWS_OP_SUCCESS; }