/** * @licence app begin@ * Copyright (C) 2012 BMW AG * * This file is part of GENIVI Project Dlt - Diagnostic Log and Trace console apps. * * Contributions are licensed to the GENIVI Alliance under one or more * Contribution License Agreements. * * \copyright * This Source Code Form is subject to the terms of the * Mozilla Public License, v. 2.0. If a copy of the MPL was not distributed with * this file, You can obtain one at http://mozilla.org/MPL/2.0/. * * * \author Alexander Wenzel BMW 2011-2012 * * \file dlt_user.h * For further information see http://www.genivi.org/. * @licence end@ */ /******************************************************************************* ** ** ** SRC-MODULE: dlt_user.h ** ** ** ** TARGET : linux ** ** ** ** PROJECT : DLT ** ** ** ** AUTHOR : Alexander Wenzel Alexander.AW.Wenzel@bmw.de ** ** Markus Klein ** ** ** ** PURPOSE : ** ** ** ** REMARKS : ** ** ** ** PLATFORM DEPENDANT [yes/no]: yes ** ** ** ** TO BE CHANGED BY USER [yes/no]: no ** ** ** *******************************************************************************/ /******************************************************************************* ** Author Identity ** ******************************************************************************** ** ** ** Initials Name Company ** ** -------- ------------------------- ---------------------------------- ** ** aw Alexander Wenzel BMW ** ** mk Markus Klein Fraunhofer ESK ** *******************************************************************************/ /******************************************************************************* ** Revision Control History ** *******************************************************************************/ /* * $LastChangedRevision: 1670 $ * $LastChangedDate: 2011-04-08 15:12:06 +0200 (Fr, 08. Apr 2011) $ * $LastChangedBy$ Initials Date Comment aw 13.01.2010 initial */ #ifndef DLT_USER_H #define DLT_USER_H /** \defgroup userapi DLT User API \addtogroup userapi \{ */ #include "dlt_types.h" #include "dlt_common.h" #include "dlt_user_macros.h" #include "dlt_shm.h" #include #if !defined (__WIN32__) #include #endif #ifdef __cplusplus extern "C" { #endif /** * Definitions of DLT log level */ typedef enum { DLT_LOG_DEFAULT = -1, /**< Default log level */ DLT_LOG_OFF = 0x00, /**< Log level off */ DLT_LOG_FATAL = 0x01, /**< fatal system error */ DLT_LOG_ERROR = 0x02, /**< error with impact to correct functionality */ DLT_LOG_WARN = 0x03, /**< warning, correct behaviour could not be ensured */ DLT_LOG_INFO = 0x04, /**< informational */ DLT_LOG_DEBUG = 0x05, /**< debug */ DLT_LOG_VERBOSE = 0x06 /**< highest grade of information */ } DltLogLevelType; /** * Definitions of DLT Format */ typedef enum { DLT_FORMAT_DEFAULT = 0x00, /**< no sepecial format */ DLT_FORMAT_HEX8 = 0x01, /**< Hex 8 */ DLT_FORMAT_HEX16 = 0x02, /**< Hex 16 */ DLT_FORMAT_HEX32 = 0x03, /**< Hex 32 */ DLT_FORMAT_HEX64 = 0x04, /**< Hex 64 */ DLT_FORMAT_BIN8 = 0x05, /**< Binary 8 */ DLT_FORMAT_BIN16 = 0x06 /**< Binary 16 */ } DltFormatType; /** * Definitions of DLT trace status */ typedef enum { DLT_TRACE_STATUS_DEFAULT = -1, /**< Default trace status */ DLT_TRACE_STATUS_OFF = 0x00, /**< Trace status: Off */ DLT_TRACE_STATUS_ON = 0x01 /**< Trace status: On */ } DltTraceStatusType; /** * Definitions for dlt_user_trace_network/DLT_TRACE_NETWORK() * as defined in the DLT protocol */ typedef enum { DLT_NW_TRACE_IPC = 0x01, /**< Interprocess communication */ DLT_NW_TRACE_CAN = 0x02, /**< Controller Area Network Bus */ DLT_NW_TRACE_FLEXRAY = 0x03, /**< Flexray Bus */ DLT_NW_TRACE_MOST = 0x04, /**< Media Oriented System Transport Bus */ DLT_NW_TRACE_RESERVED0 = 0x05, DLT_NW_TRACE_RESERVED1 = 0x06, DLT_NW_TRACE_RESERVED2 = 0x07, DLT_NW_TRACE_USER_DEFINED0 = 0x08, DLT_NW_TRACE_USER_DEFINED1 = 0x09, DLT_NW_TRACE_USER_DEFINED2 = 0x0A, DLT_NW_TRACE_USER_DEFINED3 = 0x0B, DLT_NW_TRACE_USER_DEFINED4 = 0x0C, DLT_NW_TRACE_USER_DEFINED5 = 0x0D, DLT_NW_TRACE_USER_DEFINED6 = 0x0E, DLT_NW_TRACE_USER_DEFINED7 = 0x0F } DltNetworkTraceType; /** * This are the log modes. */ typedef enum { DLT_USER_MODE_UNDEFINED = -1, DLT_USER_MODE_OFF = 0, DLT_USER_MODE_EXTERNAL , DLT_USER_MODE_INTERNAL , DLT_USER_MODE_BOTH } DltUserLogMode; #define DLT_USER_BUF_MAX_SIZE 2048 /**< maximum size of each user buffer, also used for injection buffer */ #define DLT_USER_RESENDBUF_MAX_SIZE (DLT_USER_BUF_MAX_SIZE + 100) /**< Size of resend buffer; Max DLT message size is 2K plus some extra header space */ /* Use a semaphore or mutex from your OS to prevent concurrent access to the DLT buffer. */ #define DLT_SEM_LOCK() { sem_wait(&dlt_mutex); } #define DLT_SEM_FREE() { sem_post(&dlt_mutex); } /** * This structure is used for every context used in an application. */ typedef struct { char contextID[4]; /**< context id */ int32_t log_level_pos; /**< offset in user-application context field */ int8_t *log_level_ptr; /**< pointer to the log level */ int8_t *trace_status_ptr; /**< pointer to the trace status */ uint8_t mcnt; /**< message counter */ } DltContext; /** * This structure is used for context data used in an application. */ typedef struct { DltContext *handle; /**< pointer to DltContext */ unsigned char buffer[DLT_USER_BUF_MAX_SIZE]; /**< buffer for building log message*/ int32_t size; /**< payload size */ int32_t log_level; /**< log level */ int32_t trace_status; /**< trace status */ int32_t args_num; /**< number of arguments for extended header*/ char* context_description; /**< description of context */ } DltContextData; typedef struct { uint32_t service_id; int (*injection_callback)(uint32_t service_id, void *data, uint32_t length); } DltUserInjectionCallback; typedef struct { char contextID[DLT_ID_SIZE]; /**< Context ID */ int8_t log_level; /**< Log level */ int8_t trace_status; /**< Trace status */ void (*log_level_changed_callback) (char context_id[DLT_ID_SIZE],uint8_t log_level,uint8_t trace_status); } DltUserLogLevelChangedCallback; /** * This structure is used in a table managing all contexts and the corresponding log levels in an application. */ typedef struct { char contextID[DLT_ID_SIZE]; /**< Context ID */ int8_t log_level; /**< Log level */ int8_t *log_level_ptr; /**< Ptr to the log level */ int8_t trace_status; /**< Trace status */ int8_t *trace_status_ptr; /**< Ptr to the trace status */ char *context_description; /**< description of context */ DltUserInjectionCallback *injection_table; /**< Table with pointer to injection functions and service ids */ uint32_t nrcallbacks; // Log Level changed callback void (*log_level_changed_callback) (char context_id[DLT_ID_SIZE],uint8_t log_level,uint8_t trace_status); } dlt_ll_ts_type; /** * This structure is used once for one application. */ typedef struct { char ecuID[DLT_ID_SIZE]; /**< ECU ID */ char appID[DLT_ID_SIZE]; /**< Application ID */ int dlt_log_handle; /**< Handle to fifo of dlt daemon */ int dlt_user_handle; /**< Handle to own fifo */ mqd_t dlt_segmented_queue_read_handle; /**< Handle message queue */ mqd_t dlt_segmented_queue_write_handle; /**< Handle message queue */ pthread_t dlt_segmented_nwt_handle; /**< thread handle of segmented sending */ int8_t dlt_is_file; /**< Target of logging: 1 to file, 0 to daemon */ dlt_ll_ts_type *dlt_ll_ts; //[MAX_DLT_LL_TS_ENTRIES]; /**< Internal management struct for all contexts */ uint32_t dlt_ll_ts_max_num_entries; /**< Maximum number of contexts */ uint32_t dlt_ll_ts_num_entries; /**< Number of used contexts */ int8_t overflow; /**< Overflow marker, set to 1 on overflow, 0 otherwise */ uint32_t overflow_counter; /**< Counts the number of lost messages */ char *application_description; /**< description of application */ DltReceiver receiver; /**< Receiver for internal user-defined messages from daemon */ int8_t verbose_mode; /**< Verbose mode enabled: 1 enabled, 0 disabled */ int8_t use_extende_header_for_non_verbose; /**< Use extended header for non verbose: 1 enabled, 0 disabled */ int8_t with_session_id; /**< Send always session id: 1 enabled, 0 disabled */ int8_t with_timestamp; /**< Send always timestamp: 1 enabled, 0 disabled */ int8_t with_ecu_id; /**< Send always ecu id: 1 enabled, 0 disabled */ int8_t enable_local_print; /**< Local printing of log messages: 1 enabled, 0 disabled */ int8_t local_print_mode; /**< Local print mode, controlled by environment variable */ int8_t log_state; /**< Log state of external connection: 1 client connected, 0 not connected, -1 unknown */ //DltRingBuffer rbuf; DltBuffer startup_buffer; /**< Ring-buffer for buffering messages during startup and missing connection */ // Buffer used for resending, locked by DLT semaphore uint8_t resend_buffer[DLT_USER_RESENDBUF_MAX_SIZE]; #ifdef DLT_SHM_ENABLE DltShm dlt_shm; #endif #ifdef DLT_TEST_ENABLE int corrupt_user_header; int corrupt_message_size; int16_t corrupt_message_size_size; #endif } DltUser; /************************************************************************************************** * The folowing API functions define a low level function interface for DLT **************************************************************************************************/ /** * Initialise the generation of a DLT log message (intended for usage in non-verbose mode) * This function has to be called first, when an application wants to send a new log messages. * @param handle pointer to an object containing information about one special logging context * @param log pointer to an object containing information about logging context data * @param loglevel this is the current log level of the log message to be sent * @return negative value if there was an error */ int dlt_user_log_write_start(DltContext *handle, DltContextData *log, DltLogLevelType loglevel); /** * Initialise the generation of a DLT log message (intended for usage in verbose mode) * This function has to be called first, when an application wants to send a new log messages. * @param handle pointer to an object containing information about one special logging context * @param log pointer to an object containing information about logging context data * @param loglevel this is the current log level of the log message to be sent * @param messageid message id of message * @return negative value if there was an error */ int dlt_user_log_write_start_id(DltContext *handle, DltContextData *log, DltLogLevelType loglevel, uint32_t messageid); /** * Finishing the generation of a DLT log message and sending it to the DLT daemon. * This function has to be called after writing all the log attributes of a log message. * @param log pointer to an object containing information about logging context data * @return negative value if there was an error */ int dlt_user_log_write_finish(DltContextData *log); /** * Write a boolean parameter into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data boolean parameter written into log message (mapped to uint8) * @return negative value if there was an error */ int dlt_user_log_write_bool(DltContextData *log, uint8_t data); /** * Write a float parameter into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data float32_t parameter written into log message. * @return negative value if there was an error */ int dlt_user_log_write_float32(DltContextData *log, float32_t data); /** * Write a double parameter into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data float64_t parameter written into log message. * @return negative value if there was an error */ int dlt_user_log_write_float64(DltContextData *log, double data); /** * Write a uint parameter into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data unsigned int parameter written into log message. * @return negative value if there was an error */ int dlt_user_log_write_uint(DltContextData *log, unsigned int data); int dlt_user_log_write_uint8(DltContextData *log, uint8_t data); int dlt_user_log_write_uint16(DltContextData *log, uint16_t data); int dlt_user_log_write_uint32(DltContextData *log, uint32_t data); int dlt_user_log_write_uint64(DltContextData *log, uint64_t data); /** * Write a int parameter into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data int parameter written into log message. * @return negative value if there was an error */ int dlt_user_log_write_int(DltContextData *log, int data); int dlt_user_log_write_int8(DltContextData *log, int8_t data); int dlt_user_log_write_int16(DltContextData *log, int16_t data); int dlt_user_log_write_int32(DltContextData *log, int32_t data); int dlt_user_log_write_int64(DltContextData *log, int64_t data); /** * Write a null terminated ASCII string into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param text pointer to the parameter written into log message containing null termination. * @return negative value if there was an error */ int dlt_user_log_write_string( DltContextData *log, const char *text); /** * Write a constant null terminated ASCII string into a DLT log message. * In non verbose mode DLT parameter will not be send at all. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param text pointer to the parameter written into log message containing null termination. * @return negative value if there was an error */ int dlt_user_log_write_constant_string( DltContextData *log, const char *text); /** * Write a null terminated UTF8 string into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param text pointer to the parameter written into log message containing null termination. * @return negative value if there was an error */ int dlt_user_log_write_utf8_string(DltContextData *log, const char *text); /** * Write a binary memory block into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data pointer to the parameter written into log message. * @param length length in bytes of the parameter written into log message. * @return negative value if there was an error */ int dlt_user_log_write_raw(DltContextData *log,void *data,uint16_t length); /** * Write a binary memory block into a DLT log message. * dlt_user_log_write_start has to be called before adding any attributes to the log message. * Finish sending log message by calling dlt_user_log_write_finish. * @param log pointer to an object containing information about logging context data * @param data pointer to the parameter written into log message. * @param length length in bytes of the parameter written into log message. * @param type the format information. * @return negative value if there was an error */ int dlt_user_log_write_raw_formated(DltContextData *log,void *data,uint16_t length,DltFormatType type); /** * Trace network message * @param handle pointer to an object containing information about one special logging context * @param nw_trace_type type of network trace (DLT_NW_TRACE_IPC, DLT_NW_TRACE_CAN, DLT_NW_TRACE_FLEXRAY, or DLT_NW_TRACE_MOST) * @param header_len length of network message header * @param header pointer to network message header * @param payload_len length of network message payload * @param payload pointer to network message payload * @return negative value if there was an error */ int dlt_user_trace_network(DltContext *handle, DltNetworkTraceType nw_trace_type, uint16_t header_len, void *header, uint16_t payload_len, void *payload); /** * Trace network message, truncated if necessary. * @param handle pointer to an object containing information about logging context * @param nw_trace_type type of network trace (DLT_NW_TRACE_IPC, DLT_NW_TRACE_CAN, DLT_NW_TRACE_FLEXRAY, or DLT_NW_TRACE_MOST) * @param header_len length of network message header * @param header pointer to network message header * @param payload_len length of network message payload * @param payload pointer to network message payload * @param allow_truncate Set to > 0 to allow truncating of the message if it is too large. * @return negative value if there was an error */ int dlt_user_trace_network_truncated(DltContext *handle, DltNetworkTraceType nw_trace_type, uint16_t header_len, void *header, uint16_t payload_len, void *payload, int allow_truncate); /** * Trace network message in segmented asynchronous mode. * The sending of the data is done in a separate thread. * Please note that handle must exist for the lifetime of the application, because * data chunks are sent asynchronously in undetermined future time. * @param handle pointer to an object containing information about logging context * @param nw_trace_type type of network trace (DLT_NW_TRACE_IPC, DLT_NW_TRACE_CAN, DLT_NW_TRACE_FLEXRAY, or DLT_NW_TRACE_MOST) * @param header_len length of network message header * @param header pointer to network message header * @param payload_len length of network message payload * @param payload pointer to network message payload * @return 0 on success, -1 on failure */ int dlt_user_trace_network_segmented(DltContext *handle, DltNetworkTraceType nw_trace_type, uint16_t header_len, void *header, uint16_t payload_len, void *payload); /************************************************************************************************** * The folowing API functions define a high level function interface for DLT **************************************************************************************************/ /** * Initialise the user lib communication with daemon. * This function has to be called first, before using any DLT user lib functions. * @return negative value if there was an error */ int dlt_init(); /** * Initialise the user lib writing only to file. * This function has to be called first, before using any DLT user lib functions. * @param name name of an optional log file * @return negative value if there was an error */ int dlt_init_file(const char *name); /** * Terminate the user lib. * This function has to be called when finishing using the DLT user lib. * @return negative value if there was an error */ int dlt_free(); /** * Check the library version of DLT library. * @param user_major_version the major version to be compared * @param user_minor_version the minor version to be compared * @return negative value if there was an error */ int dlt_check_library_version(const char * user_major_version, const char * user_minor_version); /** * Register an application in the daemon. * @param appid four byte long character array with the application id * @param description long name of the application * @return negative value if there was an error */ int dlt_register_app(const char *appid, const char * description); /** * Unregister an application in the daemon. * This function has to be called when finishing using an application. * @return negative value if there was an error */ int dlt_unregister_app(void); /** * Register a context in the daemon. * This function has to be called before first usage of the context. * @param handle pointer to an object containing information about one special logging context * @param contextid four byte long character array with the context id * @param description long name of the context * @return negative value if there was an error */ int dlt_register_context(DltContext *handle, const char *contextid, const char * description); /** * Register a context in the daemon with pre-defined log level and pre-defined trace status. * This function has to be called before first usage of the context. * @param handle pointer to an object containing information about one special logging context * @param contextid four byte long character array with the context id * @param description long name of the context * @param loglevel This is the log level to be pre-set for this context (DLT_LOG_DEFAULT is not allowed here) * @param tracestatus This is the trace status to be pre-set for this context (DLT_TRACE_STATUS_DEFAULT is not allowed here) * @return negative value if there was an error */ int dlt_register_context_ll_ts(DltContext *handle, const char *contextid, const char * description, int loglevel, int tracestatus); /** * Unregister a context in the DLT daemon. * This function has to be called when finishing using a context. * @param handle pointer to an object containing information about one special logging context * @return negative value if there was an error */ int dlt_unregister_context(DltContext *handle); /** * Set the logging mode used by the daemon. * The logging mode is stored persistantly by the daemon. * @see DltUserLogMode * @param mode the new logging mode used by the daemon: off, extern, internal, both. * @return negative value if there was an error */ int dlt_set_log_mode(DltUserLogMode mode); /** * Get the state of the connected client to the daemon. * The user application gets a message, when client is connected or disconnected. * This value contains the last state. * It needs some time until the application gets state from the daemon. * Until then the state is "unknown state". * @return -1 = unknown state, 0 = client not connected, 1 = client connected */ int dlt_get_log_state(); /** * Register callback function called when injection message was received * @param handle pointer to an object containing information about one special logging context * @param service_id the service id to be waited for * @param (*dlt_injection_callback) function pointer to callback function * @return negative value if there was an error */ int dlt_register_injection_callback(DltContext *handle, uint32_t service_id, int (*dlt_injection_callback)(uint32_t service_id, void *data, uint32_t length)); /** * Register callback function called when log level of context was changed * @param handle pointer to an object containing information about one special logging context * @param (*dlt_log_level_changed_callback) function pointer to callback function * @return negative value if there was an error */ int dlt_register_log_level_changed_callback(DltContext *handle, void (*dlt_log_level_changed_callback)(char context_id[DLT_ID_SIZE],uint8_t log_level, uint8_t trace_status)); /** * Switch to verbose mode * */ int dlt_verbose_mode(void); /** * Check the version of dlt library with library version used of the application. * @param Major version number of application - see dlt_version.h * @param Minor version number of application - see dlt_version.h * @return negative value if there is a mismatch */ int dlt_user_check_library_version(const char *user_major_version,const char *user_minor_version); /** * Switch to non-verbose mode * */ int dlt_nonverbose_mode(void); /** * Use extended header in non verbose mode. * Enabled by default. * @param use_extende_header_for_non_verbose Use extended header for non verbose mode if true * @return negative value if no success */ int dlt_use_extended_header_for_non_verbose(int8_t use_extende_header_for_non_verbose); /** * Send session id configuration. * Enabled by default. * @param with_session_id Send session id in each message if enabled * @return negative value if no success */ int dlt_with_session_id(int8_t with_session_id); /** * Send timestamp configuration. * Enabled by default. * @param with_timestamp Send timestamp id in each message if enabled * @return negative value if no success */ int dlt_with_timestamp(int8_t with_timestamp); /** * Send ecu id configuration. * Enabled by default. * @param with_ecu_id Send ecu id in each message if enabled * @return negative value if no success */ int dlt_with_ecu_id(int8_t with_ecu_id); /** * Set maximum logged log level and trace status of application * * @param loglevel This is the log level to be set for the whole application * @param tracestatus This is the trace status to be set for the whole application * @return negative value if there was an error */ int dlt_set_application_ll_ts_limit(DltLogLevelType loglevel, DltTraceStatusType tracestatus); /** * Enable local printing of messages * */ int dlt_enable_local_print(void); /** * Disable local printing of messages * */ int dlt_disable_local_print(void); /** * Write a null terminated ASCII string into a DLT log message. * @param handle pointer to an object containing information about one special logging context * @param loglevel this is the current log level of the log message to be sent * @param text pointer to the ASCII string written into log message containing null termination. * @return negative value if there was an error */ int dlt_log_string(DltContext *handle,DltLogLevelType loglevel, const char *text); /** * Write a null terminated ASCII string and an integer value into a DLT log message. * @param handle pointer to an object containing information about one special logging context * @param loglevel this is the current log level of the log message to be sent * @param text pointer to the ASCII string written into log message containing null termination. * @param data integer value written into the log message * @return negative value if there was an error */ int dlt_log_string_int(DltContext *handle,DltLogLevelType loglevel, const char *text, int data); /** * Write a null terminated ASCII string and an unsigned integer value into a DLT log message. * @param handle pointer to an object containing information about one special logging context * @param loglevel this is the current log level of the log message to be sent * @param text pointer to the ASCII string written into log message containing null termination. * @param data unsigned integer value written into the log message * @return negative value if there was an error */ int dlt_log_string_uint(DltContext *handle,DltLogLevelType loglevel, const char *text, unsigned int data); /** * Write an integer value into a DLT log message. * @param handle pointer to an object containing information about one special logging context * @param loglevel this is the current log level of the log message to be sent * @param data integer value written into the log message * @return negative value if there was an error */ int dlt_log_int(DltContext *handle,DltLogLevelType loglevel, int data); /** * Write an unsigned integer value into a DLT log message. * @param handle pointer to an object containing information about one special logging context * @param loglevel this is the current log level of the log message to be sent * @param data unsigned integer value written into the log message * @return negative value if there was an error */ int dlt_log_uint(DltContext *handle,DltLogLevelType loglevel, unsigned int data); /** * Write an unsigned integer value into a DLT log message. * @param handle pointer to an object containing information about one special logging context * @param loglevel this is the current log level of the log message to be sent * @param data pointer to the parameter written into log message. * @param length length in bytes of the parameter written into log message. * @return negative value if there was an error */ int dlt_log_raw(DltContext *handle,DltLogLevelType loglevel, void *data,uint16_t length); /** * Forward a complete DLT message to the DLT daemon * @param msgdata Message data of DLT message * @param size Size of DLT message * @return negative value if there was an error */ int dlt_forward_msg(void *msgdata,size_t size); /** * Get the total size and available size of the shared memory buffer between daemon and applications. * This information is useful to control the flow control between applications and daemon. * For example only 50% of the buffer should be used for file transfer. * @param total_size total size of buffer in bytes * @param used_size used size of buffer in bytes * @return negative value if there was an error */ int dlt_user_check_buffer(int *total_size, int *used_size); /** * Try to resend log message in the user buffer. Stops if the dlt_uptime is bigger than * dlt_uptime() + DLT_USER_ATEXIT_RESEND_BUFFER_EXIT_TIMEOUT. A pause between the resending * attempts can be defined with DLT_USER_ATEXIT_RESEND_BUFFER_SLEEP * @return number of messages in the user buffer */ int dlt_user_atexit_blow_out_user_buffer(void); /** * Try to resend log message in the user buffer. * @return 0 on success, negative on failure. */ int dlt_user_log_resend_buffer(void); #ifdef DLT_TEST_ENABLE void dlt_user_test_corrupt_user_header(int enable); void dlt_user_test_corrupt_message_size(int enable,int16_t size); #endif /* DLT_TEST_ENABLE */ #ifdef __cplusplus } #endif /** \} */ #endif /* DLT_USER_H */