LOG(4D) Devices LOG(4D)

loginterface to STREAMS error logging and event tracing

#include <sys/strlog.h>
#include <sys/log.h>

log is a STREAMS software device driver that provides an interface for console logging and for the STREAMS error logging and event tracing processes (see strerr(8), and strace(8)). log presents two separate interfaces: a function call interface in the kernel through which STREAMS drivers and modules submit log messages; and a set of ioctl(2) requests and STREAMS messages for interaction with a user level console logger, an error logger, a trace logger, or processes that need to submit their own log messages.

Log messages are generated within the kernel by calls to the function strlog(9F).

log is implemented as a cloneable device, it clones itself without intervention from the system clone device. Each open of /dev/log obtains a separate stream to log. In order to receive log messages, a process must first notify log whether it is an error logger, trace logger, or console logger using a STREAMS I_STR ioctl(2) call (see below). For the console logger, the I_STR ioctl(2) has an ic_cmd field of I_CONSLOG, with no accompanying data. For the error logger, the I_STR ioctl(2) has an ic_cmd field of I_ERRLOG, with no accompanying data. For the trace logger, the ioctl(2) has an ic_cmd field of I_TRCLOG, and must be accompanied by a data buffer containing an array of one or more struct trace_ids elements.

struct trace_ids {
	short	ti_mid;
	short	ti_sid;
	char	ti_level;
};

Each trace_ids structure specifies a mid, sid, and level from which messages will be accepted. strlog(9F) will accept messages whose mid and sid exactly match those in the trace_ids structure, and whose level is less than or equal to the level given in the trace_ids structure. A value of -1 in any of the fields of the trace_ids structure indicates that any value is accepted for that field.

Once the logger process has identified itself using the ioctl(2) call, log will begin sending up messages subject to the restrictions noted above. These messages are obtained using the getmsg(2) function. The control part of this message contains a log_ctl structure, which specifies the mid, sid, level, flags, time in ticks since boot that the message was submitted, the corresponding time in seconds since Jan. 1, 1970, a sequence number, and a priority. The time in seconds since 1970 is provided so that the date and time of the message can be easily computed, and the time in ticks since boot is provided so that the relative timing of log messages can be determined.

struct log_ctl {
	short		mid;
	short		sid;
	char		level;	/* level of message for tracing */
	short		flags;	/* message disposition */
#if defined(_LP64) || defined(_I32LPx)
	clock32_t	ltime;	/* time in machine ticks since boot */
	time32_t	ttime;	/* time in seconds since 1970 */
#else
	clock_t		ltime;
	time_t		ttime;
#endif
	int		seq_no;	/* sequence number */
	int		pri;	/* priority = (facility|level) */
};

The priority consists of a priority code and a facility code, found in <sys/syslog.h>. If SL_CONSOLE is set in flags, the priority code is set as follows:

  • If SL_WARN is set, the priority code is set to LOG_WARNING
  • If SL_FATAL is set, the priority code is set to LOG_CRIT
  • If SL_ERROR is set, the priority code is set to LOG_ERR
  • If SL_NOTE is set, the priority code is set to LOG_NOTICE
  • If SL_TRACE is set, the priority code is set to LOG_DEBUG
  • If only SL_CONSOLE is set, the priority code is set to LOG_INFO

Messages originating from the kernel have the facility code set to LOG_KERN. Most messages originating from user processes will have the facility code set to LOG_USER.

Different sequence numbers are maintained for the error and trace logging streams, and are provided so that gaps in the sequence of messages can be determined (during times of high message traffic some messages may not be delivered by the logger to avoid hogging system resources). The data part of the message contains the unexpanded text of the format string (null terminated), followed by NLOGARGS words for the arguments to the format string, aligned on the first word boundary following the format string.

A process may also send a message of the same structure to log, even if it is not an error or trace logger. The only fields of the log_ctl structure in the control part of the message that are accepted are the level, flags, and pri fields; all other fields are filled in by log before being forwarded to the appropriate logger. The data portion must contain a null terminated format string, and any arguments (up to NLOGARGS) must be packed, 32-bits each, on the next 32-bit boundary following the end of the format string.

ENXIO is returned for I_TRCLOG ioctl(2) without any trace_ids structures, or for any unrecognized ioctl(2) calls. The driver silently ignores incorrectly formatted log messages sent to the driver by a user process (no error results).

Processes that wish to write a message to the console logger may direct their output to /dev/conslog, using either write(2) or putmsg(2).

The following driver configuration properties may be defined in the log.conf file:

=1
Each message will be preceded by a message ID as described in syslogd(8).
=0
Message IDs will not be generated.

/dev/log
Log driver.
/dev/conslog
Write only instance of the log driver, for console logging.
/kernel/drv/log.conf
Log configuration file.

I_ERRLOG registration.
struct strioctl ioc;
ioc.ic_cmd = I_ERRLOG;
ioc.ic_timout = 0;	/* default timeout (15 secs.) */
ioc.ic_len = 0;
ioc.ic_dp = NULL;
ioctl(log, I_STR, &ioc);
I_TRCLOG registration.
struct trace_ids tid[2];
tid[0].ti_mid = 2;
tid[0].ti_sid = 0;
tid[0].ti_level = 1;
tid[1].ti_mid = 1002;
tid[1].ti_sid = -1;	/* any sub-id will be allowed */
tid[1].ti_level = -1;	/* any level will be allowed */
ioc.ic_cmd = I_TRCLOG;
ioc.ic_timout = 0;
ioc.ic_len = 2 * sizeof(struct trace_ids);
ioc.ic_dp = (char *)tid;
ioctl(log, I_STR, &ioc);
Submitting a log message (no arguments)
struct strbuf ctl, dat;
struct log_ctl lc;
char *message = "Don't forget to pick up some milk "
    "on the way home";
ctl.len = ctl.maxlen = sizeof(lc);
ctl.buf = (char *)&lc;
dat.len = dat.maxlen = strlen(message);
dat.buf = message;
lc.level = 0;
lc.flags = SL_ERROR|SL_NOTIFY;
putmsg(log, &ctl, &dat, 0);

getmsg(2), ioctl(2), putmsg(2), write(2), strace(8), strerr(8), strlog(9F)

July 8, 2022 OmniOS