Provided by: bpfcc-tools_0.18.0+ds-2_all bug

NAME

       dcsnoop - Trace directory entry cache (dcache) lookups. Uses Linux eBPF/bcc.

SYNOPSIS

       dcsnoop [-h] [-a]

DESCRIPTION

       By  default,  this  traces  every failed dcache lookup (cache miss), and shows the process
       performing the lookup and the filename requested. A -a option can  be  used  to  show  all
       lookups, not just failed ones.

       The  output  of  this  tool  can be verbose, and is intended for further investigations of
       dcache performance beyond dcstat(8), which prints per-second summaries.

       This uses kernel dynamic tracing of the d_lookup() function, and will need and  will  need
       updating to match any changes to this function.

       Since this uses BPF, only the root user can use this tool.

REQUIREMENTS

       CONFIG_BPF and bcc.

OPTIONS

       -h     Print usage message.

       -a     Trace references, not just failed lookups.

EXAMPLES

       Trace failed dcache lookups:
              # dcsnoop

       Trace all dcache lookups:
              # dcsnoop -a

FIELDS

       TIME(s)
              Time of lookup, in seconds.

       PID    Process ID.

       COMM   Process name.

       T      Type:  R  ==  reference  (only  visible  with -a), M == miss. A miss will print two
              lines, one for the reference, and one for the miss.

       FILE   The file name component that was being looked up. This contains  trailing  pathname
              components (after '/'), which will be the subject of subsequent lookups.

OVERHEAD

       File name lookups can be frequent (depending on the workload), and this tool prints a line
       for each failed lookup, and with -a, each reference as well. The output  may  be  verbose,
       and the incurred overhead, while optimized to some extent, may still be from noticeable to
       significant. This is only really intended for deeper investigations beyond dcstat(8), when
       absolutely necessary.  Measure and quantify the overhead in a test environment before use.

SOURCE

       This is from bcc.

              https://github.com/iovisor/bcc

       Also  look  in  the bcc distribution for a companion _examples.txt file containing example
       usage, output, and commentary for this tool.

OS

       Linux

STABILITY

       Unstable - in development.

AUTHOR

       Brendan Gregg

SEE ALSO

       dcstat(1)