#!/usr/sbin/dtrace -Zs /* * j_syscolors.d - trace Java method flow plus syscalls, in color. * Written for the Java hotspot DTrace provider. * * $Id: j_syscolors.d 58 2007-10-01 13:36:29Z brendan $ * * This traces Java methods if the hotspot provider exists (1.6.0) and * the flag "+ExtendedDTraceProbes" is used. eg, * java -XX:+ExtendedDTraceProbes classfile * * USAGE: j_syscolors.d { -p PID | -c cmd } # hit Ctrl-C to end * * This watches Java method entries and returns, and indents child * method calls. * * FIELDS: * C CPU-id * PID Process ID * TID Thread ID * DELTA(us) Elapsed time from previous line to this line * TYPE Type of call (func/syscall) * NAME Java method or syscall name * * If the flow appears to jump, check the TID column - the JVM may have * switched to another thread. * * WARNING: Watch the first column carefully, it prints the CPU-id. If it * changes, then it is very likely that the output has been shuffled. * Changes in TID will appear to shuffle output, as we change from one thread * depth to the next. See Docs/Notes/ALLjavaflow.txt for additional notes. * * COPYRIGHT: Copyright (c) 2007 Brendan Gregg. * * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at Docs/cddl1.txt * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * CDDL HEADER END * * 09-Sep-2007 Brendan Gregg Created this. */ /* increasing bufsize can reduce drops */ #pragma D option bufsize=32m #pragma D option quiet #pragma D option switchrate=10 self int depth[int]; dtrace:::BEGIN { color_java = "\033[2;35m"; /* violet, faint */ color_line = "\033[1;35m"; /* violet, bold */ color_syscall = "\033[2;32m"; /* green, faint */ color_off = "\033[0m"; /* default */ printf("%3s %6s/%-5s %9s %-8s -- %s\n", "C", "PID", "TID", "DELTA(us)", "TYPE", "NAME"); } hotspot$target:::method-entry, hotspot$target:::method-return, syscall:::entry, syscall:::return /self->last == 0 && pid == $target/ { self->last = timestamp; } hotspot$target:::method-entry { this->delta = (timestamp - self->last) / 1000; this->class = (char *)copyin(arg1, arg2 + 1); this->class[arg2] = '\0'; this->method = (char *)copyin(arg3, arg4 + 1); this->method[arg4] = '\0'; printf("%s%3d %6d/%-5d %9d %-8s %*s-> %s.%s%s\n", color_java, cpu, pid, tid, this->delta, "method", self->depth[arg0] * 2, "", stringof(this->class), stringof(this->method), color_off); self->depth[arg0]++; self->depthlast = self->depth[arg0]; self->last = timestamp; } hotspot$target:::method-return { this->delta = (timestamp - self->last) / 1000; this->class = (char *)copyin(arg1, arg2 + 1); this->class[arg2] = '\0'; this->method = (char *)copyin(arg3, arg4 + 1); this->method[arg4] = '\0'; self->depth[arg0] -= self->depth[arg0] > 0 ? 1 : 0; printf("%s%3d %6d/%-5d %9d %-8s %*s<- %s.%s%s\n", color_java, cpu, pid, tid, this->delta, "method", self->depth[arg0] * 2, "", stringof(this->class), stringof(this->method), color_off); self->depthlast = self->depth[arg0]; self->last = timestamp; } syscall:::entry /pid == $target/ { this->delta = (timestamp - self->last) / 1000; printf("%s%3d %6d/%-5d %9d %-8s %*s-> %s%s\n", color_syscall, cpu, pid, tid, this->delta, "syscall", self->depthlast * 2, "", probefunc, color_off); self->last = timestamp; } syscall:::return /pid == $target/ { this->delta = (timestamp - self->last) / 1000; printf("%s%3d %6d/%-5d %9d %-8s %*s<- %s%s\n", color_syscall, cpu, pid, tid, this->delta, "syscall", self->depthlast * 2, "", probefunc, color_off); self->last = timestamp; } proc:::exit /pid == $target/ { exit(0); }