HP Compaq CQ62/42 acpi
Da Rock
freebsd-acpi at herveybayaustralia.com.au
Fri Mar 27 11:54:24 UTC 2015
On 26/03/2015 14:22, Kevin Oberman wrote:
> On Wed, Mar 25, 2015 at 6:37 PM, Da Rock
> <freebsd-acpi at herveybayaustralia.com.au
> <mailto:freebsd-acpi at herveybayaustralia.com.au>> wrote:
>
> On 03/25/15 09:52, Kevin Oberman wrote:
>> On Tue, Mar 24, 2015 at 3:23 AM, Da Rock
>> <freebsd-acpi at herveybayaustralia.com.au
>> <mailto:freebsd-acpi at herveybayaustralia.com.au>> wrote:
>>
>> I have 2 laptops as mentioned, 3 all amd athlon based. The
>> 3rd is an asus which I'm relatively happy with.
>>
>> What I have is when I pull the AC out of it, the sysctl for
>> cpu speed goes from 2200 to 100 or 400. Basically the system
>> becomes rather unusable.
>>
>> I tried the acpi_hp module, and it now switches to 800. This
>> is better, but barely usable still.
>>
>> I'd like to see a response similar to the asus if its
>> possible; this effectively stays the same, but drops speed if
>> nothing is happening.
>>
>> Ideally, I'd think that it would be better if the system
>> adjusted speed to use requirements during operation, but
>> neither does that. I suspect that the asus should (in theory)
>> as it does do it on battery only; but unless I'm really
>> hammering all the time, it just doesn't seem to happen when
>> I'm looking at it.
>>
>> The settings used on all for powerd is hiadaptive for AC,
>> adaptive for battery.
>>
>> If I'm doing something wrong let me know, if more data is
>> required I'm happy to help the cause :)
>>
>> TIA
>>
>> First, let's get a bit more information. Please provide:
>> sysctl dev.cpu.0 (on AC and then on battery)
> AC:
>
> dev.cpu.0.%desc: ACPI CPU
> dev.cpu.0.%driver: cpu
> dev.cpu.0.%location: handle=\_PR_.C000
> dev.cpu.0.%pnpinfo: _HID=none _UID=0
> dev.cpu.0.%parent: acpi0
> dev.cpu.0.temperature: 85.3C
> dev.cpu.0.freq: 200
> dev.cpu.0.freq_levels: 2200/7543 1925/6600 1900/6150 1662/5381
> 1600/4777 1400/4179 1300/3750 1137/3281 975/2812 800/2091 700/1829
> 600/1568 500/1306 400/1045 300/784 200/522 100/261
> dev.cpu.0.cx_supported: C1/1/0
> dev.cpu.0.cx_lowest: C1
> dev.cpu.0.cx_usage: 100.00% last 682us
>
> Battery:
>
> dev.cpu.0.%desc: ACPI CPU
> dev.cpu.0.%driver: cpu
> dev.cpu.0.%location: handle=\_PR_.C000
> dev.cpu.0.%pnpinfo: _HID=none _UID=0
> dev.cpu.0.%parent: acpi0
> dev.cpu.0.temperature: 85.5C
> dev.cpu.0.freq: 100
> dev.cpu.0.freq_levels: 2200/7543 1925/6600 1900/6150 1662/5381
> 1600/4777 1400/4179 1300/3750 1137/3281 975/2812 800/2091 700/1829
> 600/1568 500/1306 400/1045 300/784 200/522 100/261
> dev.cpu.0.cx_supported: C1/1/0
> dev.cpu.0.cx_lowest: C1
> dev.cpu.0.cx_usage: 100.00% last 901us
>> uname -a
> FreeBSD laptop1 10.0-RELEASE-p7 FreeBSD 10.0-RELEASE-p7 #0: Tue
> Jul 8 06:37:44 UTC 2014
> root at amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC
> <mailto:root at amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC>
> amd64
>> /etc/sysctl.conf (If present)
> vfs.usermount=1
> kern.ipc.shm_allow_removed=1
> compat.linux.osrelease=2.6.18
>> /boot/loader.conf (if present)
> (like it wasn't going to be present :D who doesn't?)
> vboxdrv_load=YES
> tmpfs_load=YES
> cuse4bsd_load=YES
> acpi_video_load=YES
> amdtemp_load=YES
> fuse_load=YES
> acpi_hp_load=YES
>
> I'd like to get this system running nicely if I can - its been
> just getting there for too long now because of other projects
> taking my attention and I've got bite the bullet and work this out.
>
> BTW, just to make a liar out of me after I sent that post, the
> system did start to change the cpu speed on AC - but it took a
> while. I had sat there monitoring the system with little activity
> and it remained at 2200; when I gave up waiting and sent that post
> I then started to really give it to it and the speed started
> dropping and rising a little. However, given I was trying to do an
> encoding with ffmpeg at the time, the speed probably should have
> remained at 2200 as my frames encoded per second was about half of
> normal. So I don't really know what to expect :)
>
> This is also in my dmesg:
>
> amdtemp0: <AMD CPU On-Die Thermal Sensors> on hostb4
> acpi_acad0: <AC Adapter> on acpi0
> battery0: <ACPI Control Method Battery> on acpi0
> acpi_lid0: <Control Method Lid Switch> on acpi0
> acpi_wmi0: <ACPI-WMI mapping> on acpi0
> acpi_hp0: <HP ACPI-WMI Mapping> on acpi_wmi0
> acpi_hp0: HP event GUID detected, installing event handler
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Field [D128] at 1040 exceeds Buffer [NULL] size 160
> (bits) (20130823/dsopcode-249)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.HWMC]
> (Node 0xfffff80004372e80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> ACPI Error: Method parse/execution failed [\134_SB_.WMID.WMAD]
> (Node 0xfffff80004372b80), AE_AML_BUFFER_LIMIT (20130823/psparse-553)
> acpi_tz0: <Thermal Zone> on acpi0
> acpi_tz0: _CRT value is absurd, ignored (-273.2C)
>
I should have clarified this before - can someone tell me what all this
means? Can I do anything about it?
>
>
> cat wmistat0:
>
> GUID INST EXPE METH STR EVENT OID
> {5FB7F034-2C63-45E9-BE91-3D44E2C707E4} 1 NO WMAD NO NO AD
> {95F24279-4D7B-4334-9387-ACCDC67EF61C} 1 NO NO NO 0x80+ -
> {05901221-D566-11D1-B2F0-00A0C9062910} 1 NO NO NO NO AE
> {D0992BD4-A47C-4EFE-B072-324AEC92296C} 1 NO NO NO NO BC
>
> What do I do now?
>
> TIA
>
>
> First, I suggest checking the output of kldstat to see that
> acpi_wmi.ko is loaded.
See just above; that device is set with the module, and the module is
loaded with acpi_hp. Check:
kldstat:
8 1 0xffffffff8189f000 83c0 acpi_hp.ko
9 2 0xffffffff818a8000 7e10 acpi_wmi.ko
> If not, add acpi_wmi_load=YES to loader.conf. wmi is an HP/Acer thing
> and I really don't know much about it. Do you have powerd variables in
> rc.conf? I assume you have powerd_enable="YES", but are you setting
> any flags?
Flags as initially provided in OP: hiadaptive on AC, adaptive on battery.
>
> I see that you are using P4TCC. (This is default in 10, but will
> finally be fixed in 11.) You can turn it off by adding:
> hint.p4tcc.0.disabled=1
> hint.acpi_throttle.0.disabled=1
> to loader.conf. It will remove a bunch of useless "frequencies" and
> leave the useful values. It will make powerd much more responsive and
> will prevent C-states from locking up the system when they are
> enabled. I'd also suggest setting:
> performance_cx_lowest="Cmax"
> economy_cx_lowest="Cmax"
> as C-states are by far and away the best power saving tool available.
> (This also becomes default in 11.)
So what exactly should I be seeing? This:
dev.cpu.0.%desc: ACPI CPU
dev.cpu.0.%driver: cpu
dev.cpu.0.%location: handle=\_PR_.C000
dev.cpu.0.%pnpinfo: _HID=none _UID=0
dev.cpu.0.%parent: acpi0
dev.cpu.0.temperature: 82.5C
dev.cpu.0.freq: 800
dev.cpu.0.freq_levels: 2200/7543 1900/6150 1600/4777 1300/3750 800/2091
dev.cpu.0.cx_supported: C1/1/0
dev.cpu.0.cx_lowest: C8
dev.cpu.0.cx_usage: 100.00% last 4934us
Why is it at c8? And what does the cx_supported do then?
>
> For a lot of details on tuning power usage, read the article at
> https://wiki.freebsd.org/TuningPowerConsumption.
>
> Finally, so a little debug. Kill powerd (service powerd stop) and run
> it with verbose on a terminal ("powerd -v" plus whatever options you
> have in powerd_flags) and watch what powerd is doing.
powerd: using sysctl for AC line status
powerd: using devd for AC line status
load 0%, current freq 2200 MHz ( 0), wanted freq 2131 MHz
load 0%, current freq 2200 MHz ( 0), wanted freq 2064 MHz
load 6%, current freq 2200 MHz ( 0), wanted freq 1999 MHz
load 9%, current freq 2200 MHz ( 0), wanted freq 1936 MHz
load 8%, current freq 2200 MHz ( 0), wanted freq 1875 MHz
changing clock speed from 2200 MHz to 1900 MHz
load 4%, current freq 1900 MHz ( 1), wanted freq 1816 MHz
load 0%, current freq 1900 MHz ( 1), wanted freq 1759 MHz
load 4%, current freq 1900 MHz ( 1), wanted freq 1704 MHz
load 0%, current freq 1900 MHz ( 1), wanted freq 1650 MHz
load 0%, current freq 1900 MHz ( 1), wanted freq 1598 MHz
changing clock speed from 1900 MHz to 1600 MHz
load 3%, current freq 1600 MHz ( 2), wanted freq 1548 MHz
load 10%, current freq 1600 MHz ( 2), wanted freq 1499 MHz
load 6%, current freq 1600 MHz ( 2), wanted freq 1452 MHz
load 6%, current freq 1600 MHz ( 2), wanted freq 1406 MHz
load 7%, current freq 1600 MHz ( 2), wanted freq 1362 MHz
load 4%, current freq 1600 MHz ( 2), wanted freq 1319 MHz
load 4%, current freq 1600 MHz ( 2), wanted freq 1277 MHz
changing clock speed from 1600 MHz to 1300 MHz
load 6%, current freq 1300 MHz ( 3), wanted freq 1237 MHz
load 13%, current freq 1300 MHz ( 3), wanted freq 1198 MHz
load 3%, current freq 1300 MHz ( 3), wanted freq 1160 MHz
load 3%, current freq 1300 MHz ( 3), wanted freq 1123 MHz
load 6%, current freq 1300 MHz ( 3), wanted freq 1087 MHz
load 22%, current freq 1300 MHz ( 3), wanted freq 1053 MHz
load 8%, current freq 1300 MHz ( 3), wanted freq 1020 MHz
load 3%, current freq 1300 MHz ( 3), wanted freq 988 MHz
load 9%, current freq 1300 MHz ( 3), wanted freq 957 MHz
load 21%, current freq 1300 MHz ( 3), wanted freq 927 MHz
load 3%, current freq 1300 MHz ( 3), wanted freq 898 MHz
load 7%, current freq 1300 MHz ( 3), wanted freq 869 MHz
load 9%, current freq 1300 MHz ( 3), wanted freq 841 MHz
load 7%, current freq 1300 MHz ( 3), wanted freq 814 MHz
load 7%, current freq 1300 MHz ( 3), wanted freq 800 MHz
changing clock speed from 1300 MHz to 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 10%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 18%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 30%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 15%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 11%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 9%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 8%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 13%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 15%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 10%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 8%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 9%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 9%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 26%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 17%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 8%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 9%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 8%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 14%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 12%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 12%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 12%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 10%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 8%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 9%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 6%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 7%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 16%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 11%, current freq 800 MHz ( 4), wanted freq 800 MHz
load 10%, current freq 800 MHz ( 4), wanted freq 800 MHz
^Ctotal joules used: 64.579
So aside from being informative, how can this help me? You guys
mentioned locking up, was that happening each line here?
The -i and -r seemed reasonable for my purposes, so no change there, at
least until I get a better feel for things anyway.
With regards powernow! I can't see it in dmesg (used grep), but est
isn't used either as far as I can tell. How would I enable powernow in
freebsd anyway? Or is it just a cpu thing and not a module?
CPU: AMD Phenom(tm) II N970 Quad-Core Processor (2194.63-MHz K8-class CPU)
Origin = "AuthenticAMD" Id = 0x100f53 Family = 0x10 Model = 0x5
Stepping = 3
Features=0x178bfbff<FPU,VME,DE,PSE,TSC,MSR,PAE,MCE,CX8,APIC,SEP,MTRR,PGE,MCA,CMOV,PAT,PSE36,CLFLUSH,MMX,FXSR,SSE,SSE2,HTT>
Features2=0x802009<SSE3,MON,CX16,POPCNT>
AMD
Features=0xee500800<SYSCALL,NX,MMX+,FFXSR,Page1GB,RDTSCP,LM,3DNow!+,3DNow!>
AMD
Features2=0x837ff<LAHF,CMP,SVM,ExtAPIC,CR8,ABM,SSE4A,MAS,Prefetch,OSVW,IBS,SKINIT,WDT,NodeId>
TSC: P-state invariant
More information about the freebsd-acpi
mailing list