504 lines
22 KiB
Plaintext
504 lines
22 KiB
Plaintext
drivers/syslog README File
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==========================
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SYSLOG Interfaces
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=================
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Standard SYSLOG Interfaces
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--------------------------
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The NuttX SYSLOG is an architecture for getting debug and status
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information from the system. The syslogging interfaces are defined in the
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header file include/syslog.h. The primary interface to SYSLOG sub-system
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is the function syslog() and, to a lesser extent, its companion vsyslog():
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syslog() and vsyslog()
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----------------------
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Prototypes:
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int syslog(int priority, FAR const IPTR char *format, ...);
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void vsyslog(int priority, FAR const IPTR char *src, va_list ap);
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Description:
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syslog() generates a log message. The priority argument is formed by
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ORing the facility and the level values (see include/syslog.h). The
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remaining arguments are a format, as in printf and any arguments to the
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format.
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The NuttX implementation does not support any special formatting
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characters beyond those supported by printf.
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The function vsyslog() performs the same task as syslog() with the
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difference that it takes a set of arguments which have been obtained
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using the stdarg variable argument list macros.
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setlogmask()
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------------
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The additional setlogmask() interface can use use to filter SYSLOG output:
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Prototypes:
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int setlogmask(int mask);
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Description:
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The setlogmask() function sets the logmask and returns the previous
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mask. If the mask argument is 0, the current logmask is not modified.
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The SYSLOG priorities are: LOG_EMERG, LOG_ALERT, LOG_CRIT, LOG_ERR,
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LOG_WARNING, LOG_NOTICE, LOG_INFO, and LOG_DEBUG. The bit corresponding
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to a priority p is LOG_MASK(p); LOG_UPTO(p) provides the mask of all
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priorities in the above list up to and including p.
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Per OpenGroup.org "If the maskpri argument is 0, the current log mask
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is not modified." In this implementation, the value zero is permitted
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in order to disable all syslog levels.
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REVISIT: Per POSIX the syslog mask should be a per-process value but in
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NuttX, the scope of the mask is dependent on the nature of the build:
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* Flat Build: There is one, global SYSLOG mask that controls all output.
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Protected Build: There are two SYSLOG masks. One within the kernel
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that controls only kernel output. And one in user-space that controls
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only user SYSLOG output.
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* Kernel Build: The kernel build is compliant with the POSIX requirement:
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There will be one mask for for each user process, controlling the
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SYSLOG output only form that process. There will be a separate mask
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accessable only in the kernel code to control kernel SYSLOG output.
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*
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These are all standard interfaces as defined at http://pubs.opengroup.org/onlinepubs/009695399/functions/closelog.html
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Debug Interfaces
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----------------
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In NuttX, syslog output is really synonymous to debug output and,
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therefore, the debugging interface macros defined in the header file
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include/debug.h are also syslogging interfaces. Those macros are simply
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wrappers around syslog(). The debugging interfaces differ from the syslog
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interfaces in that:
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* They do not take a priority parameter; the priority is inherent in the
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debug macro name.
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* They decorate the output stream with information such as the file name
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* They can each be disabled via configuration options.
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Each debug macro has a base name that represents the priority and a prefix
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that represents the sub-system. Each macro is individually initialized by
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both priority and sub-system. For example, uerr() is the macro used for
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error level messages from the USB subsystem and is enabled with
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CONFIG_DEBUG_USB_ERROR.
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The base debug macro names, their priority, and configuration variable are
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summarized below:
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* info(). The info() macro is the lowest priority (LOG_INFO) and is
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intended to provide general information about the flow of program
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execution so that you can get an overview of the behavior of the
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program. info() is often very chatty and voluminous and usually more
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information than you may want to see. The info() macro is controlled
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via CONFIG_DEBUG_subsystem_INFO
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* warn(). The warn() macro has medium priority (LOG_WARN) and is
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controlled by CONFIG_DEBUG_subsystem_WARN. The warn() is intended to
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note exceptional or unexpected conditions that meigh be potential
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errors or, perhaps, minor errors that easily recovered.
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* err(). This is a high priority debug macro (LOG_ERROR) and controlled
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by CONFIG_DEBUG_subsystem_ERROR. The err() is reserved to indicate
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important error conditions.
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* alert(). The highest priority debug macro (LOG_EMERG) and is
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controlled by CONFIG_DEBUG_ALERT. The alert() macro is reserved for
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use solely by assertion and crash handling logic. It also differs
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from the other macros in that it cannot be enabled or disabled per
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subsystem.
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SYSLOG Channels
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===============
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SYSLOG Channel Interfaces
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-------------------------
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In the NuttX SYSLOG implementation, the underlying device logic the
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supports the SYSLOG output is referred to as a SYSLOG channel//. Each
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SYSLOG channel is represented by an interface defined in
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include/nuttx/syslog/syslog.h:
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/* This structure provides the interface to a SYSLOG device */
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typedef CODE int (*syslog_putc_t)(int ch);
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typedef CODE int (*syslog_flush_t)(void);
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struct syslog_channel_s
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{
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/* I/O redirection methods */
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#ifdef CONFIG_SYSLOG_WRITE
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syslog_write_t sc_write; /* Write multiple bytes */
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#endif
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syslog_putc_t sc_putc; /* Normal buffered output */
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syslog_putc_t sc_force; /* Low-level output for interrupt handlers */
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syslog_flush_t sc_flush; /* Flush buffered output (on crash) */
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/* Implementation specific logic may follow */
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};
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The channel interface is instantiated by calling syslog_channel():
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syslog_channel()
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----------------
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Prototype:
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int syslog_channel(FAR const struct syslog_channel_s *channel);
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Description:
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Configure the SYSLOGging function to use the provided channel to
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generate SYSLOG output.
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syslog_channel() is a non-standard, internal OS interface and is not
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available to applications. It may be called numerous times as
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necessary to change channel interfaces.
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Input Parmeters:
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* channel - Provides the interface to the channel to be used.
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Returned Value:
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Zero (OK)is returned on success. A negated errno value is returned
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on any failure.
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SYSLOG Channel Initialization
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-----------------------------
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The initial, default SYSLOG channel is established with statically
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initialized global variables so that some level of SYSLOG output may be
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available immediately upon reset. This initialized data is in the file
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drivers/syslog/syslog_channel.c. The initial SYSLOG capability is
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determined by the selected SYSLOG channel:
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* In-Memory Buffer (RAMLOG). Full SYSLOG capability as available at
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reset.
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* Serial Console. If the serial implementation provides the low-level
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character output function up_putc(), then that low level serial output
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is available as soon as the serial device has been configured.
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* For all other SYSLOG channels, all SYSLOG output goes to the bit-
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bucket until the SYSLOG channel device has been initialized.
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The syslog channel device is initialized when the bring-up logic calls
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syslog_initialize():
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syslog_initialize()
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-------------------
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Prototype:
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#ifndef CONFIG_ARCH_SYSLOG
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int syslog_initialize(enum syslog_init_e phase);
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#else
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# define syslog_initialize(phase)
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#endif
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Description:
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One power up, the SYSLOG facility is non-existent or limited to very
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low-level output. This function is called later in the initialization
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sequence after full driver support has been initialized. It installs
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the configured SYSLOG drivers and enables full SYSLOGing capability.
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This function performs these basic operations:
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* Initialize the SYSLOG device
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* Call syslog_channel() to begin using that device.
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* If CONFIG_ARCH_SYSLOG is selected, then the architecture-specific
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logic will provide its own SYSLOG device initialize which must include
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as a minimum a call to syslog_channel() to use the device.
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Input Parameters:
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* phase - One of {SYSLOG_INIT_EARLY, SYSLOG_INIT_LATE}
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Returned Value:
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Zero (OK) is returned on success; a negated errno value is returned on
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any failure.
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Different types of SYSLOG devices have different OS initialization
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requirements. Some are available immediately at reset, some are available
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after some basic OS initialization, and some only after OS is fully
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initialized. In order to satisfy these different initialization
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requirements, syslog_initialize() is called twice from the boot-up logic:
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* syslog_initialize() is called from the architecture-specific
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up_initialize() function as some as basic hardware resources have been
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initialized: Timers, interrupts, etc. In this case,
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syslog_initialize() is called with the argument SYSLOG_INIT_EARLY.
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* syslog_initialize() is called again from nx_start() when the full OS
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initialization has completed, just before the application main entry
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point is spawned. In this case, syslog_initialize() is called with
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the argument SYSLOG_INIT_LATE.
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There are other types of SYSLOG channel devices that may require even
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further initialization. For example, the file SYSLOG channel (described
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below) cannot be initialized until the necessary file systems have been
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mounted.
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Interrupt Level SYSLOG Output
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-----------------------------
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As a general statement, SYSLOG output only supports //normal// output from
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NuttX tasks. However, for debugging purposes, it is also useful to get
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SYSLOG output from interrupt level logic. In an embedded system, that is
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often where the most critical operations are performed.
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There are three conditions under which SYSLOG output generated from interrupt level processing can a included the SYSLOG output stream:
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1. Low-Level Serial Output
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--------------------------
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If you are using a SYSLOG console channel (CONFIG_SYSLOG_CONSOLE) with a
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serial console (CONFIG_SYSLOG_SERIAL_CONSOLE) and if the underlying
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architecture supports the low-level up_putc() interface
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(CONFIG_ARCH_LOWPUTC), then the SYLOG logic will direct the output to
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up_putc() which is capable of generating the serial output within the
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context of an interrupt handler.
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There are a few issues in doing this however:
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* up_putc() is able to generate debug output in any context because it
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disables serial interrupts and polls the hardware directly. These
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polls may take many milliseconds and during that time, all interrupts
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are disable within the interrupt handler. This, of course, interferes
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with the real-time behavior of the RTOS.
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* The output generated by up_putc() is immediate and in real-time. The
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normal SYSLOG output, on the other hand, is buffered in the serial
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driver and may be delayed with respect to the immediate output by many
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lines. Therefore, the interrupt level SYSLOG ouput provided throug
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up_putc() is grossly out of synchronization with other debug output
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2. In-Memory Buffering
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----------------------
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If the RAMLOG SYSLOG channel is supported, then all SYSLOG output is
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buffered in memory. Interrupt level SYSLOG output is no different than
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normal SYSLOG output in this case.
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3. Serialization Buffer
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-----------------------
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A final option is the use the an "interrupt buffer" to buffer the
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interrupt level SYSLOG output. In this case:
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* SYSLOG output generated from interrupt level process in not sent to
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the SYSLOG channel immediately. Rather, it is buffered in the
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interrupt serialization buffer.
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* Later, when the next normal syslog output is generated, it will first
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empty the content of the interrupt buffer to the SYSLOG device in the
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proper context. It will then be followed by the normal syslog output.
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In this case, the interrupt level SYSLOG output will interrupt the
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normal output stream and the interrupt level SYSLOG output will be
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inserted into the correct position in the SYSLOG output when the next
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normal SYLOG output is generated.
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The SYSLOG interrupt buffer is enabled with CONFIG_SYSLOG_INTBUFFER. When
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the interrupt buffer is enabled, you must also provide the size of the
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interrupt buffer with CONFIG_SYSLOG_INTBUFSIZE.
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SYSLOG Channel Options
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======================
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SYSLOG Console Device
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---------------------
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The typical SYSLOG device is the system console. If you are using a
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serial console, for example, then the SYSLOG output will appear on that
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serial port.
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This SYSLOG channel is automatically selected by syslog_initialize() in
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the LATE initialization phase based on configuration options. The
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configuration options that affect this channel selection include:
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* CONFIG_DEV_CONSOLE. This setting indicates that the system supports a
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console device, i.e., that the character device /dev/console exists.
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* CONFIG_SERIAL_CONSOLE. This configuration option is automatically
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selected when a UART or USART is configured as the system console.
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There is no user selection.
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* CONFIG_SYSLOG_CONSOLE. This configuration option is manually selected
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from the SYSLOG menu. This is the option that acutally enables the
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SYSLOG console device. It depends on CONFIG_DEV_CONSOLE and it will
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automatically select CONFIG_SYSLOG_SERIAL_CONSOLE if
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CONFIG_SERIAL_CONSOLE is selected.
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* CONFIG_ARCH_LOWPUTC. This is an indication from the architecture
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configuration that the platform supports the up_putc() interface.
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up_putc() is a very low level UART interface that can even be used from
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interrupt handling.
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* CONFIG_SYSLOG_SERIAL_CONSOLE. This enables certain features of the
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SYSLOG operation that depend on a serial console. If
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CONFIG_ARCH_LOWPUTC is also selected, for example, then up_putc() will
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be used for the forced SYSLOG output.
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Interrupt level SYSLOG output will be lost unless: (1) the interrupt buffer
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is enabled to support serialization, or (2) a serial console is used and
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up_putc() is supported.
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NOTE: The console channel uses the fixed character device at /dev/console.
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The console channel is not synonymous with stdout (or file descriptor 1).
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stdout is the current output from a task when, say, printf() if used.
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Initially, stdout does, indeed, use the /dev/console device. However,
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stdout may subsequently be redirected to some other device or file. This
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is always the case, for example, when a transient device is used for a
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console -- such as a USB console or a Telnet console. The SYSLOG channel
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is not redirected as stdout is; the SYSLOG channel will stayed fixed (unless
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it is explicitly changed via syslog_channel()).
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References: drivers/syslog/syslog_consolechannel.c and
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drivers/syslog/syslog_device.c
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SYSLOG Character Device
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-----------------------
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The system console device, /dev/console, is a character driver with some
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special properties. However, any character driver may be used as the
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SYSLOG output channel. For example, suppose you have a serial console on
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/dev/ttyS0 and you want SYSLOG output on /dev/ttyS1. Or suppose you
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support only a Telnet console but want to capture debug output
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/dev/ttyS0.
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This SYSLOG device channel is selected with CONFIG_SYSLOG_CHAR and has no
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other dependencies. Differences fromthe SYSLOG console channel include:
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* CONFIG_SYSLOG_DEVPATH. This configuration option string must be set
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provide the full path to the character device to be used.
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* The forced SYSLOG output always goes to the bit-bucket. This means
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that interrupt level SYSLOG output will be lost unless the interrupt
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buffer is enabled to support serialization.
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* CONFIG_SYSLOG_CHAR_CRLF. If CONFIG_SYSLOG_CHAR_CRLF is selected, then
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linefeeds in the SYSLOG output will be expanded to Carriage Return +
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Linefeed. Since the character device is not a console device, the
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addition of carriage returns to line feeds would not be performed
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otherwise. You would probably want this expansion if you use a serial
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terminal program with the character device output.
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References: drivers/syslog/syslog_devchannel.c and
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drivers/syslog/syslog_device.c
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SYSLOG File Device
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------------------
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Files can also be used as the sink for SYSLOG output. There is, however,
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a very fundamental difference in using a file as opposed the system
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console, a RAM buffer, or character device: You must first mount the
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file system that supports the SYSLOG file. That difference means that
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the file SYSLOG channel cannot be supported during the boot-up phase but
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can be instantiated later when board level logic configures the application
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environment, including mounting of the file systems.
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The interface syslog_file_channel() is used to configure the SYSLOG file
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channel:
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syslog_file_channel()
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---------------------
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Prototype:
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#ifdef CONFIG_SYSLOG_FILE
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int syslog_file_channel(FAR const char *devpath);
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#endif
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Description:
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Configure to use a file in a mounted file system at 'devpath' as the
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SYSLOG channel.
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This tiny function is simply a wrapper around syslog_dev_initialize()
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and syslog_channel(). It calls syslog_dev_initialize() to configure
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the character file at 'devpath then calls syslog_channel() to use that
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device as the SYSLOG output channel.
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File SYSLOG channels differ from other SYSLOG channels in that they
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cannot be established until after fully booting and mounting the target
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file system. This function would need to be called from board-specific
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bring-up logic AFTER mounting the file system containing 'devpath'.
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SYSLOG data generated prior to calling syslog_file_channel will, of
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course, not be included in the file.
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NOTE interrupt level SYSLOG output will be lost in this case unless
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the interrupt buffer is used.
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Input Parameters:
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* devpath - The full path to the file to be used for SYSLOG output.
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This may be an existing file or not. If the file exists,
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syslog_file_channel() will append new SYSLOG data to the end of the
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file. If it does not, then syslog_file_channel() will create the
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file.
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Returned Value:
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Zero (OK) is returned on success; a negated errno value is returned on
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any failure.
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References: drivers/syslog/syslog_filechannel.c,
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drivers/syslog/syslog_device.c, and include/nuttx/syslog/syslog.h.
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SYSLOG RAMLOG Device
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--------------------
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The RAMLOG is a standalone feature that can be used to buffer any
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character data in memory. There are, however, special configurations
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that can be used to configure the RAMLOG as a SYSLOG channel. The RAMLOG
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functionality is described in a more general way in the following
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paragraphs.
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RAM Logging Device
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==================
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The RAM logging driver is a driver that was intended to support debugging
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output (SYSLOG) when the normal serial output is not available. For
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example, if you are using a Telnet or USB serial console, the debug output
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will get lost -- or worse. For example, what if you want to debug the
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network over Telnet?
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The RAM logging driver can also accept debug output data from interrupt
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handler with no special serialization buffering. As an added benefit, the
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RAM logging driver is much less invasive. Since no actual I/O is performed
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with the debug output is generated, the RAM logger tends to be much faster
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and will interfere much less when used with time critical drivers.
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The RAM logging driver is similar to a pipe in that it saves the debugging
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output in a circular buffer in RAM. It differs from a pipe in numerous
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details as needed to support logging.
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This driver is built when CONFIG_RAMLOG is defined in the Nuttx
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configuration.
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dmesg
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-----
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When the RAMLOG (with SYSLOG) is enabled, a new NuttShell (NSH) command
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will appear: dmesg. The dmsg command will dump the contents of the
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circular buffer to the console (and also clear the circular buffer).
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RAMLOG Configuration options
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----------------------------
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* CONFIG_RAMLOG - Enables the RAM logging feature
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* CONFIG_RAMLOG_CONSOLE - Use the RAM logging device as a system
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console. If this feature is enabled (along with CONFIG_DEV_CONSOLE),
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then all console output will be re-directed to a circular buffer in
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RAM. This might be useful, for example, if the only console is a
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Telnet console. Then in that case, console output from non-Telnet
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threads will go to the circular buffer and can be viewed using the NSH
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dmesg command. This optional is not useful in other scenarios.
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* CONFIG_RAMLOG_SYSLOG - Use the RAM logging device for the syslogging
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interface. If this feature is enabled, then all debug output (only)
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will be re-directed to the circular buffer in RAM. This RAM log can
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be viewed from NSH using the 'dmesg' command. NOTE: Unlike the
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limited, generic character driver SYSLOG device, the RAMLOG *can* be
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used to capture debug output from interrupt level handlers.
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* CONFIG_RAMLOG_NPOLLWAITERS - The number of threads than can be waiting
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for this driver on poll(). Default: 4
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If CONFIG_RAMLOG_CONSOLE or CONFIG_RAMLOG_SYSLOG is selected, then the
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following must also be provided:
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* CONFIG_RAMLOG_BUFSIZE - The size of the circular buffer to use.
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Default: 1024 bytes.
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Other miscellaneous settings
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* CONFIG_RAMLOG_CRLF - Pre-pend a carriage return before every linefeed
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that goes into the RAM log.
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* CONFIG_RAMLOG_NONBLOCKING - Reading from the RAMLOG will never block
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if the RAMLOG is empty. If the RAMLOG is empty, then zero is returned
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(usually interpreted as end-of-file). If you do not define this, the
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NSH 'dmsg' command will lock up when called! So you probably do want
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this!
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* CONFIG_RAMLOG_NPOLLWAITERS - The maximum number of threads that may be
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waiting on the poll method.
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