…
|
||
---|---|---|
.. | ||
Makefile | ||
README | ||
tpann.sh | ||
tpfmt.sh | ||
tprof.8 | ||
tprof.c |
$NetBSD: README,v 1.9 2008/01/30 14:16:42 ad Exp $ NOTE: - tprof driver currently only supports pentium4 (netburst) processors. - it samples program counters on every PMIs. - it's currently hardcoded to use global_power_events events. for details, see x86/x86/tprof_pmi.c and intel's processor manuals. usage: 0. set SIZEOF_PTR environment variable, which is used by tpfmt.sh and tpann.sh. if not set, SIZEOF_PTR=4 is assumed. 1. add a line to your kernel config. pseudo-device tprof 2. create a device special file. # mknod /dev/tprof c 191 0 3. run the tprof command. # tprof -o /tmp/foo sleep 1 tprof statistics: sample 57 overflow 0 buf 3 emptybuf 3 dropbuf 0 dropbuf_sample 0 4. format the result. the first line in the following example means that 11 samples have been taken at 0xc0396c36, whose symbolic name is lapic_gettick+0x6. # sh ./tpfmt.sh < /tmp/foo 11 c0396c36 lapic_gettick+0x6 5 c039b98a x86_pause+0x2 4 c010cf9d __cpu_simple_lock+0xd 2 c010cfcd __cpu_simple_lock_try+0xd 2 c039b571 bus_space_read_4+0x11 1 c01005c8 sse2_zero_page+0x18 1 c0100624 sse2_copy_page+0x34 1 c010ceeb mutex_spin_enter+0x2b 1 c010cef5 mutex_spin_enter+0x35 1 c010cf32 mutex_spin_exit+0x32 1 c0119ed0 in_localaddr+0x30 1 c012d0fd tcp_output+0x1fbd 1 c02980c2 amap_copy+0x42 1 c02a0100 uvm_map_lookup_entry_bytree+0x20 1 c02a27fe uvm_tree_RB_REMOVE+0xee 1 c02a8914 uvm_pagelookup+0x4 1 c02a9d5c uvm_pagefree+0xfc 1 c02a9e36 uvm_pagefree+0x1d6 1 c02dd9d1 _kernel_unlock+0xa1 1 c02e0285 mutex_vector_enter+0x15 1 c02eb83a sleepq_wake+0x5a 1 c0303467 pool_cache_get_paddr+0x97 1 c030368b pool_cache_put_slow+0x6b 1 c0321ed3 pffasttimo+0x33 1 c034547a VOP_LOCK+0xa 1 c0346235 VOP_ACCESS+0x45 1 c034a749 genfs_unlock+0x29 1 c038f251 cpu_idle+0x31 1 c03938da pmap_write_protect+0xaa 1 c0394305 pmap_do_remove+0x2e5 1 c03944b3 pmap_do_remove+0x493 1 c0396cdf lapic_delay+0x5f 1 c0396d19 lapic_delay+0x99 1 c0396d1d lapic_delay+0x9d 1 c0397429 lapic_clockintr+0x19 1 c039b984 x86_mwait+0xc 1 c042f66a _atomic_swap_32+0xa 5. tpann.sh is another formatter. it outputs "objdump -d" with numbers of samples for each addresses. # tprof -o /tmp/bar sleep 100 # sh ./tpann.sh < /tmp/bar : snip : c01005e0 <sse2_zero_page>: 4 c01005e0: 55 push %ebp 11 c01005e1: 89 e5 mov %esp,%ebp 1 c01005e3: 8b 54 24 08 mov 0x8(%esp),%edx 3 c01005e7: b9 00 10 00 00 mov $0x1000,%ecx 1 c01005ec: 31 c0 xor %eax,%eax 1 c01005ee: 89 f6 mov %esi,%esi 7936 c01005f0: 0f c3 42 00 movnti %eax,0x0(%edx) 6371 c01005f4: 0f c3 42 04 movnti %eax,0x4(%edx) 1220 c01005f8: 0f c3 42 08 movnti %eax,0x8(%edx) 741 c01005fc: 0f c3 42 0c movnti %eax,0xc(%edx) 1178 c0100600: 0f c3 42 10 movnti %eax,0x10(%edx) 1334 c0100604: 0f c3 42 14 movnti %eax,0x14(%edx) 976 c0100608: 0f c3 42 18 movnti %eax,0x18(%edx) 1299 c010060c: 0f c3 42 1c movnti %eax,0x1c(%edx) 954 c0100610: 83 e9 20 sub $0x20,%ecx 45 c0100613: 8d 52 20 lea 0x20(%edx),%edx 238 c0100616: 75 d8 jne c01005f0 <sse2_zero_page+0x10> 71 c0100618: 0f ae f8 sfence 297 c010061b: 5d pop %ebp 19 c010061c: c3 ret 0 c010061d: 8d 76 00 lea 0x0(%esi),%esi : snip :