.\" -*- nroff -*- .TH STAPEX 5 @DATE@ "Red Hat" .SH NAME stapex \- systemtap examples .\" macros .de SAMPLE .br .RS .nf .nh .. .de ESAMPLE .hy .fi .RE .. .SH LANGUAGE BASICS These examples give a feel for basic systemtap syntax and control structures. .SAMPLE global odds, evens probe begin { # "no" and "ne" are local integers for (i=0; i<10; i++) { if (i % 2) odds [no++] = i else evens [ne++] = i } delete odds[2] delete evens[3] exit () } probe end { foreach (x+ in odds) { printf ("odds[%d] = %d\n", x, odds[x]) } foreach (x in evens\-) { printf ("evens[%d] = %d\n", x, evens[x]) } } .ESAMPLE This prints: .SAMPLE odds[1] = 1 odds[3] = 5 odds[4] = 7 odds[5] = 9 evens[5] = 8 evens[4] = 6 evens[2] = 2 evens[1] = 0 .ESAMPLE Note that all variables types are inferred, and that all locals and globals are automatically initialized. .PP This script prints the primes between 0 and 49. .SAMPLE function isprime (x) { if (x < 2) return 0 for (i=2; i x) break } return 1 } probe begin { for (i=0; i<50; i++) if (isprime (i)) printf("%d\n", i) exit() } .ESAMPLE .PP This script demonstrates recursive functions. .SAMPLE function fibonacci(i) { if (i < 1) error ("bad number") if (i == 1) return 1 if (i == 2) return 2 return fibonacci (i\-1) + fibonacci (i\-2) } probe begin { printf ("11th fibonacci number: %d\n", fibonacci (11)) exit () } .ESAMPLE Any larger number may exceed the MAXACTION or MAXNESTING limits, and result in an error. .SH PROBING To trace entry and exit from a function, use a pair of probes: .SAMPLE probe kernel.function("sys_mkdir") { println ("enter") } probe kernel.function("sys_mkdir").return { println ("exit") } .ESAMPLE To list the probeable functions in the kernel, use the last-pass option to the translator. That output needs to be filtered because each inlined function instance is listed separately. .SAMPLE % stap \-p2 \-e \[aq]probe kernel.function("*") {}\[aq] | sort | uniq .ESAMPLE .SH SEE ALSO .BR @prefix@/doc/systemtap*/examples .IR stap (1) .IR stapprobes (5) .IR stapfuncs (5)