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Found 148 results

  1. Please, I need a dsdt for me samsung np270e4e urgent. someone help me!!!
  2. Version 1.0.0

    86 downloads

    HP Pavilion x360 (i5 Skylake 6200u Intel 520 Graphics) model: HP 15-bk020wm base patched DSDT - Works with 10.11 El Capitan and 10.12 Sierra - not tested with earlier versions - laptop battery display working
  3. Version 1.1

    4,244 downloads

    This is the H81M-K DSDT 100% Working! This the only working version of Hackintosh Community! DSDT have several Remarks on iASL, but is working. Work all devices of H81M motherboard - USB, xHCI, HPET and LPC WITHOUT a Clover Injection! In archieve: - config.plist with settings and SMBIOS iMac 14,1 (because iMac 14,2 have a problem with a FlashPlayer Plugin) + Apple HDA PATCH for ALC 887 Current by Toleda. - kexts - FakeSMC,realtekALC (for Audio Injection) and nothing more, it's not necessary)) - Clover UEFI 64 Drivers! Here only required drivers for a H81M Series. Notice: I cut the Graphics part (\.SB-PCI0-PEG0-PEGP) of DSDT, because write in my card (HD 5450), but you may inject his Graphics into this DSDT! Layout ID (HDEF) = 1 Configure of my Hackintosh: i3 4130 (3.4 Ghz) Haswell 3GB RAM HD 5450 512MB Silent (with DSDT Injection) H81M-K (UEFI BIOS 1003 version) ALC887 Current All working)) C and P states (SSDT generated), Sleep, Audio, Power Nap (really! Just turn on "Intel Smart Connect" in UEFI BIOS), etc. USB ports on El Capitan Fixed on the 1.1 ver) This files be working of many H81M-XXX motherboards! Just download and leave a comment, it's my first release) My English is bad, sorry)
  4. Version

    4,955 downloads

    Here is the AppleHDA kexts for ALC 269, it is fully working according to screenshot, tested on my Acer V3-571g. Install : 1- patch your DSDT with the ALC 269.txt file 2- install the kexts 3- reboot Fully working!!!!!!!!
  5. n7110

    Version 1.0.0

    44 downloads

    Dear friends, here is mine N7110 dsdt patched for installation on Sierra, I didn't tried this on other versions of OSX but it should work on EL Capitan at least, my wifi card is AR5B95 AR9285+AR3011. BT is working OOB, WiFi is working with toledaARPT kext installed with easykextpro and always followed by sudo touch /System/Library/Extensions I will post my clover folder and kexts also. Everything is working like a charm. I also found Mieze FE driver but for some reason only original Realtec driver is working good for me. There is only 10Mbps but it is full duplex at least :). Sleep is working too ( hey, a lot of probooks doesn't have working sleep ) UPDATE - New version soon, I am working on disabling nVidia Optimus via DSDT and SSDT, and DSDT will be patched for ALC269 Device ID 28.
  6. Version 1.0

    241 downloads

    Requirements: Yosemite install app from apple store 1. Partition drive, GUID table, HFS+J 2. Create installer using OSX Yosemite chameleon and select your <installer> drive as target and following: installer > chameleon 2.3snv-r2510 driver kext > audio > voodooHDA driver kext > autres-misc > laptop ps2, laptop batterie, usb3.0 fakesmc > fakesmc 3. Hit Install 4. Using Kext wizard install ACPM.kext to <installer>/S/L/E 5. Copy whole Extra folder and replace the one on your <installer> drive 6. Using Chameleon wizard generate your own SMBios file (MPB8.3 is recommended) and save it to <installer>/Extra folder 7. Boot from your installer drive using -v -f option 8. Install yosemite 9. Boot to your previous OSX installation and run the OSX Yosemite chameleon again and now select your new Yosemite OS as target and this: post installer > chameleon 2.3snv-r2510 driver kext > audio > voodooHDA driver kext > autres-misc > laptop ps2, laptop batterie, usb3.0 fakesmc > fakesmc 10. Copy whole Extra folder from <installer> and replace the one on your <Yosemite OS> drive 11. Using Kext wizard install ACPM.kext and ALXEthernet.kext to <Yosemite OS>/S/L/E 12. Boot from your Yosemite OS using -v -f 13. Using Kext wizard repair permissions and rebuild cache. 14. Reboot. No flags needed anymore Enjoy PS: In case of kernel panic (CPU) install NullCPM but it should be ok. Attached ACPM is patched. Working: everything but see below. Not working: stock wifi module > use compatible one, sleep not tested (i don't use it), imessage (NVram still not patched).
  7. i need some help with this dsdt can't fix errors I can pay if needed please i need battery working and some other fixes x555lab.zip
  8. Version 1.3

    1,234 downloads

    Please before use this pack flash/upgrade/downgrade your bios to version 2.04 (ori or mod is the same) and set graphics mode "integrated" This zip include: DSDT.aml (copy it into EFI/CLOVER/ACPI/patched) Clover Folder (copy it into EFI Directory) KEXT AUDIO (copy them into S/L/E) FIX in DSDT: HD4000 REALTEK ACL269 MCHC IPIC RTC DTGP AC ADAPTER FIX NEXT RELEASE: add battery icon Nvidia Support Tested on Yosemite 10.10 - 10.10.1 with all original kexts
  9. Version 1.0.0

    72 downloads

    P8H61-M LX2 R2.0 DSDT for El Capitan. Don't forget to Drop OEM and Generate P/C States on Clover.
  10. Need some help guys. Fairly new to the DSDT world and this is my first hackintosh build. Been working on my DSDT for almost a week now and I'm stumped. I did a clean native DSDT extraction using clover and decompiled it. I've managed to get it down to 0 errors and have taken care of 20 or so other warnings give or take a few, but now I'm stuck again. I normally like to take care of this myself as it is gratifying when your able to do things on your own accord (with some research and a little help from guys/gals such as yourselves of course), but I've done my due diligence and I'm raising the white flag. Here are some screenshots: Also this may or may not be related, but is this screenshot below something to worry about? In the beginning of my DSDT, there are unresolved argument warnings relating to external devices?? I've attached my clean native DSDT (DSDT.dsl) and my patched one (DSDTb.dsl) where I've gotten it down to 0 errors, but 25 warnings still exist. Any help would be greatly appreciated. Thanks DSDT.dsl DSDTb.dsl
  11. [FAQ] Hackintosh Haswell CPU Installation and Overclocking Introduction: This is a small but valuable guide to those who are seeking to install a Haswell CPU on a hackintosh. The primary objective is to answer any questions that some may have. I could not find many answers for these questions. At least, a clear informative source. This very much applies to others intel chips. The process is all the same. For me, it was a 4790k. ------------------------------------------------------------------------- Can I Install a Haswell CPU without Reinstalling OSX? Yes. Very likely. I did not have to reinstall making the jump from an i5 4430 to the i7 4790k. What Do I Need to Do to Get My CPU Working Correctly? You've heard the term "speed step" or "power management" or even "Frequency Scaling". This is the power saving feature that intel has designed to decrease the frequency (thus, power consumption) when the CPU is not under load. This is fixed by generating an SSDT file (see below). If you're a novice to the subject, you may have also been confused by the terms C States and P States. Simply, the more states you have, the more power consumption levels you have. With only 1 P and C state, your CPU may only scale down to one low frequency, instead of multiple, which is how it was designed. Anyway, i'm not an expert on C/P states. As long as my frequency scales, i'm happy with that. There is a way to check P and C states, with a kext called AppleIntelInfo.kext which (if im not mistaken) was developed by PikerAlpha. Secondly, you should have the best SMBIOS profile loaded in Clover Config. For the 4790k, iMac 14,2 is the most compatible with my GTX650. iMac 15,2 gave a black screen at boot. To determine the best profile, a good rule of thumb is to select a system that uses the same CPU socket as you have, and even the same processor (if possible.) Lastly, DO NOT use NullCPUPowermanagement.kext with an SSDT! In fact, NullCPUPowermanagement.kext is an abomination to a true hackintosh. It should not be required. How to Generate SSDT? The process is easy. PikerAlpha generated a program that creates this via terminal. It is called ssdtPRgen.sh. SSDTs are then place in EFI>CLOVER>ACPI>PATCHED. The shell script can be downloaded with a quick google search. Piker's GitHUB will provide a download. The script is ran inside terminal. The ssdt file(s) export to a location designated inside the terminal window. Just pay attention to the script output. Note*****: It is best to generate an SSDT AFTER you have overclocked the system. <-- How to Confirm if CPU Power Management is Working? Download the latest Intel Power Gadget from their website and simply run it. Once it is open, view your CPU frequency chart. If it is moving up and down, you're good. If it is staying constant, it is not working and the SSDT is either not being loaded or is more likely generated incorrectly. SSDT requires no special kernel flags. But it must be installed in the right location of the EFI partition. OVERCLOCKING a Hackintosh - HOW?? There is absolutely no information on how to do this. Mostly because its the exact same process as a PC. However, theres some things you should know. About This Mac will never show your overclocked speed. Thats pretty understandable. Overclocking must be done from the BIOS on Hackintoshes Best stress test softwares for OSX are : CPUTest, Prime 95, Cinebench, and Geekbench. Monitor temps with Intel Power Gadget tool. Monitor voltages with ONLY HWMonitor. HW Monitor is accurate if fakeSMC is installed. But I do think there are some inaccuracies with the voltages. Other than that, there really is no way on OSX to see voltages and important CPU data. Let me know if this has helped. Mods, correct my info if it is incorrect. Appreciation: PikerAlpha, RampageDev, OSX86.net, InsanelyMac, others.
  12. Version 1.19

    12,467 downloads

    Gigabyte Z68X-UD3H-B3 tool pack is all-in-one post-installation pack designed specifically for this motherboard. Fully patched set of DSDT files is included, additional drivers, definitions + several useful applications... The DSDT for Legacy Award F12 BIOS is still in the pack, however for perfect hackintosh consider to switch on UEFI BIOS & CLOVER boot loader. Other Post Installation Tool Packs Don't forget to check this page for future updates!
  13. Version 1.0.0

    53 downloads

    This is DSDT for ASUS A451LB/S451LB BIOS Version 403 Working : Everything except Fn Keys for Brightness (Sometimes brightness Slider is available through Setting but sometimes unavailable, depend on your Clover configuration)
  14. Like the title says I am needing help cleaning up a couple of DSDTs. I've already extracted (2) different DSDT.dsl's from separate dual-boot machines under Windows. However, there are numerous errors on each of them that I can't fix alone in order to compile them into a DSDT.aml. I would greatly appreciate any kind soul willing to help me complete this task. I have included the (2) different DSDT.dsl's as a attachment in this post. Thanks in advance. dsdt-Z97.zip dsdt-Z170.zip
  15. Version 1.0

    830 downloads

    Bundle for for running OSX Mavericks on Dell Latitude E5420 Processor: Intel 2nd Gen Core i3 i3-2330M / 2.2 GHz ( Dual-Core ) RAM: 4GB Max Resolution: 1366 x 768 Graphics Processor: Intel HD Graphics 3000 Dynamic Video Memory Technology
  16. Hello everyone, As we know that for Hackintosh, most of the systems needs a patched DSDT in order to get everything working very well in OSX, and SSDT files are needed for the native cpu power management and Speedsteps to work for the Intel processors(Sandy and Ivy Bridge).? This my Little Effort to make this very Simple for Generally for Noob or NewBie ,This Post contains Topic: 1.How to Create DSDT 2.How to Create SSDTWhat is DSDT ??? The?Differentiated System Description Table?is the main table in the ACPI part of a computer's BIOS. The Advanced Configuration and Power Interface (ACPI) defines a large number of tables that provide the interface between an ACPI-compliant operating system and system firmware. These allow description of system hardware in a platform-independent manner in ACPI Machine Language (AML). The DSDT is the largest and most important table because this is where the motherboard devices are described. As the DSDT, along with other ACPI tables, is stored in the BIOS only on-board hardware is described. The goal is to bypass this often faulty table because of optimization for Windows by a custom one where the declarations are adjusted to the needs of Mac OS X in order to maximize compatibility. ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ??Use for Hackintoshes By loading an edited DSDT via the Chameleon?bootloader?instead of the factory one, the following things can be achieved: faking device-ids via DSDT can replace legacy/injector kextsupdates may disable modified or legacy/injector kexts but cannot disable DSDT patchesDSDT edits can enable sleep, native speedsteppingextensive edits can boost the boot processDo i really need it? No, to get a functional Hackintosh you don't need a DSDT. But having one can make your?system running?more stable, lighter (editing this one table replace many extra files). How to Create/Extract DSDT ??? Requirement : application for Creating DSDT and Patching 1.For Mac : MaciASL,DSDT Editor,DSDT Simple Editor. 2.For Windows Aida64,DSDT Editor. STEPS::::::For MAC and Winows If you are using DSDT Editor and Pacther::: 1.?Open DSDT Editor, and go to File->'Extract DSDT' from the menu bar. ? 2.This will create an unedited copy of your motherboard's DSDT.? 3.Goto iASL menubar ,Choose Compile and 4.If you get any Error ,then choose fix errors after fixing Errors You will?Prompted Get Option For Save As AML ,save as DSDT.aml Where you want , ? 5.If you need to Apply Patches ,Goto Patches Tab choose open(if you have patches in.txt file),New (if you have written or not patches applied from .txt file) again Compile it ,,Save as Aml Put Your DSDT in Extra folder ,add?entry in Org.chameleon.plist by manually adding or using?Chameleon Wizard <key>DSDT</key><string>/Extra/DSDT.aml</string>Verifying that the custom DSDT is loaded: First be sure your file is named?DSDT.aml?and placed in /DSDT.aml?or /Extra/DSDT.aml. You made / have a custom DSDT and see no changes and your not sure that the DSDT is used and injected by the boot-loader. Here are some ways to check the loading of a DSDT: Use bdmesg. bdmesg ships with the Chameleon boot loader and goes in /usr/bin. bdmesg can be run from Terminal after startup so that you may examine what Chameleon is doing while it boots your Hackintosh. Type bdmesg in Terminal.app you will see this? Example Result: SMBIOS orig was = f0ce0SMBIOS new is = 24ec000Read HFS+ file: [hd(0,3)/Extra/DSDT.aml] 18822 bytes.Read HFS+ file: [hd(0,3)/Extra/SSDT.aml] 1279 bytes.ACPI Table not found: SSDT-1.amlFADT: ACPI Restart Fix applied!FADT: Using custom DSDT!OEM SSDT tables was droppedRSDT: Added 1 SSDT table(s)Starting Darwin x86_64Tips::: If you got any Error related DSDT then use this Flag DSDT=null. ? How to Create SSDT??? Creating SSDT ::STEPS:::: Create your SSDT based on the script R. Pike Alpha Run these commands in terminal curl -o ssdtPRGen.sh https://raw.github.com/Piker-Alpha/RevoBoot/clang/i386/libsaio/acpi/Tools/ssdtPRGen.shchmod +x ssdtPRGen.sh./ssdtPRGen.shAfter you run it you need to put the?Maximum Frequency?and?Maximum TDP?of your CPU ... see these information about your CPU in here:?http://ark.intel.com/ This is an example of one?i5 2500K?that has?3400MHz(3.4 Ghz)?of maximum frequency and?95?of TDP sudo ./ssdtPRGen.sh 3400 95Place the SSDT in?Extra?folder and rename ssdt_pr for SSDT Final Steps ::: Final adjustments To make the Chameleon recognize your SSDT, enable?DropSSDT?in org.chameleon <key>DropSSDT</key><string>Yes</string>Don't install?the NullCPUPM?and don't enable?P and C States in org.chameleon ... Don't forget to create a DSDT in future to help the power management Tips::after trying all steps you will get Kernel Panic then need to use?Patch?AppleIntelCPUPowermanagement.kext ? If you Don't Understand above method and Don't know What to Do After ??Let Me to Do this ? ? ? ? ? Credit goes to Deepak
  17. Version 1.1

    853 downloads

    iPads and iPhones charging fix Fix the SMBUS device Add the missing MCHC device Proper device renames Fix the Ethernet to fix AppStore issues Fix Intel SATA Fixes 'Built-in' status for Realtek Gigabit Ethernet Fix HDEF device for the Realtek ALC892 audio codec (no need HDAEnabler1.kext) Long Wake Fix Haswell Additional Fixes Patches the Intel USB3 on Intel 8 Series chipsets to allow more power output LPC fix for SMC error
  18. Version 1.0.0

    146 downloads

    this is dsdt.aml for GA-B85M-D2V my desktop pc: GA-B85M-D2V i5-4590 GTX960 works fine now! everything works fine!
  19. Version 1.1

    2,147 downloads

    Fully working VANILLA yosemite on 10.10.1 - DSDT/ ALL EXTRA with settings + EXTENSIONS, wifi working with AES, bt working with magic mouse audio working with internal speakers, headphones, mic, hdmi output, 3GB NVIDIA 560GTX working - you must install latest nvidia WEB DRIVER, keyboard lightning working also ENJOY!!! NOTES! to installation osx - boot with flags: nv_disable=1 dart=0 darkwake=0 igpenabler=no GraphicsEnabler=Yes PCIRootUID=0 after installation and 10.10.1 update: - install chimera from latest MB{censored}, also trim if you have an ssd disk - replace extra with extra from this package (include also DSDT file) use this flags: kext-dev-mode=1 nvda_drv=1 PCIRootUID=0 - GENERATE NEW SMBIOS serial with chameleon wizard!!!! - install all extensions with kext utility - repair permissions enjoy fully working 10.10.1 (only display brightness not working, but i use free SHADES app) my specs: intel i7 2630QM Nvidia GTX 560M 3GB / no 3d display Qualcomm Atheros 9285 wifi/bt bgn audio - ALC 269 USB 3 WORKING!
  20. Version 20160108

    485 downloads

    MaciASL 1.4 b270 Intel ACPI tools. The NEW version 20160108 compiled by me from original sources. Use iasl compiler with your MaciASL, DSDTSE or another editor (or Terminal). To update your DSDTSE, simply right click on DSDTSE --> Show contents, drag'n'drop iasl into --> Contents --> Resources. Another editors have mostly the same way. For MaciASL simply drag iasl to Contents --> MacOS and rename it to iasl5 (or iasl6 for MaciASL 1.4 b270+ builds) For Terminal: simply copy all the utilities to /usr/local/bin or /usr/bin Then type in Terminal iasl [space] [keys separated with spaces] [space] and then drag'n'drop needed files to the Terminal's window. Or type cd [space] then drag'n'drop origin folder (press F4 in Clover's GUI) [Enter], then simply type needed command, like this: iasl -da -dl SSDT*.aml DSDT.aml // or if there are only DSDT and SSDTs in origin folder (w/o APIC, FADT, HPET, etc.), then type: iasl -da -dl *.aml Intel ACPI тулзы. Новая версия 20160108 скомпилирована мною из оригинальных сырцов. Для использования с ДСДТ редактором MaciASL, DSDTSE или другим (или Терминалом). Инсталим сюда: Открываем правой кнопкой по "любимому" редактору --> показать ?одержимое пакета --> Contents --> Resources --> перетаскиваем драг-н-дропом на эту папку файл iasl, на замену соглашаемся. Имеем свежий компайлер. Для MaciASL перетаскиваем в подпапку Contents --> MacOS и даем ему имя iasl5 (или iasl6 для современных билдов MaciASL 1.4 b270+ ) Для Терминала: копируем все утилиты в папку /usr/local/bin или /usr/bin Затем в терминале набираем iasl [пробел] [ключи через пробел] [пробел] и перетаскиваем на окно Терминала требуемые файлы. Либо набираем cd [пробел] и перетаскиваем папку origin (снятую в ГУИ Кловера по F4) [Enter], затем набираем требуемую команду, например: iasl -da -dl SSDT*.aml DSDT.aml // или если в папке origin только таблицы DSDT и SSDTs (без остальных APIC, FADT HPET и т.д.), то: iasl -da -dl *.aml Major tools and utilities: iASL - ACPI Source Language Compiler, ACPI Table Compiler, and AML Disassembler AcpiExec - Load ACPI tables and execute control methods from user space AcpiDump - Obtain system ACPI tables and save in ASCII hex format AcpiXtract - Extract binary ACPI tables from an ASCII acpidump AcpiHelp - Help utility for ASL operators, AML opcodes, and ACPI Predefined Names Miscellaneous utilities: AcpiNames - Example utility that loads and displays the ACPI namespace AcpiSrc - Convert ACPICA code to Linux format AcpiBin - Miscellaneous manipulation of binary ACPI tables ACPISpec ver. 6.0 / ACPI Спецификации 6.0 ACPI Spec ver. 5.1 / ACPI cпецификации верcии 5.1 ACPISPec ver. 5.1 Errata A / ACPI cпецификации 5.1 Иcправления А iASL HELP: New ASL+ decompile: / Декомпайл ASL+: iasl -e SSDT*.aml -d DSDT.aml iasl -e /@full_path@/SSDT*.aml -d /@full_path@/DSDT.aml Legacy ASL decompile / Декомпайл ASL легаcи: iasl -e SSDT*.aml -dl DSDT.aml iasl -e /@full_path@/SSDT*.aml -dl /@full_path@/DSDT.aml To decompile all DSDT & SSDTs use -da key / Чтобы декомпилировать вcе DSDT и SSDT таблицы, иcпользуйте ключ -da: iasl -da DSDT.aml SSDT*.aml iasl -da -dl DSDT.aml SSDT*.aml iasl -da /@full_path@/DSDT.aml /@full_path@/SSDT*.aml iasl -da -dl /@full_path@/SSDT*.aml /@full_path@/DSDT.aml Also add reference file ref.txt with unresolved External Methods and Argument count for each. Use -fe key: Также можно добавить дополнительный реф.файл ref.txt c перечиcлением вcе еще нераcпознанных методов и количеcтво Аргументов для каждого. Используйте ключ -fe: External (MDBG, MethodObj, 1) // <<<--- Unresolved Method with allocated Arguments count (text file ref.txt) iasl -fe ref.txt -e SSDT*.aml -dl DSDT.aml iasl -fe /@full_path@/ref.txt -e /@full_path@/SSDT*.aml -d /@full_path@/DSDT.aml iasl -fe /@full_path@/ref.txt -e /@full_path@/SSDT*.aml -dl /@full_path@/DSDT.aml iasl -fe /@full_path@/ref.txt -da -dl /@full_path@/SSDT*.aml /@full_path@/DSDT.aml The command in the Terminal should be like this (with full paths of the files): Команда в Терминале будет выглядеть так (с полными путями к файлам): 0:~ steve$ /Volumes/2\ UNIT\ 2T/MAC\ OS\ X\ \&\ HACK/ACPI/iASL_MAC/acpica-unix-20150619/iasl_20150619_64/iasl -fe /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt -e /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT*.aml -dl /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.aml After pressing the Return key you should see something like this. It means that all of SSDTs were connected to parsing (but this example shows that not all Externals were resolved).После нажатия клавиши Return вы увидите что-то наподобие этого. Это означает, что все ССДТ таблицы были прикреплены к парсингу (но в этом примере не были распознаны все External методы). Here is an example how disassembler parses the Externals. / Вот пример, как дизассемблер парсит External методы: External (_SB_.TPM_.CMOR, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_PR_.ACRT, FieldUnitObj) External (_PR_.CPU0._PPC, IntObj) External (_PR_.CPU0._PSS, PkgObj) External (_SB_.IAOE.ECTM, FieldUnitObj) External (_SB_.IAOE.IBT1, IntObj) External (_SB_.IAOE.ITMR, FieldUnitObj) External (_SB_.IAOE.PTSL, IntObj) External (_SB_.IAOE.RCTM, FieldUnitObj) External (_SB_.IAOE.WKRS, FieldUnitObj) External (_SB_.PCCD, UnknownObj) External (_SB_.PCCD.PENB, UnknownObj) External (_SB_.PCI0.B0D3.ABAR, FieldUnitObj) External (_SB_.PCI0.B0D3.BARA, IntObj) External (_SB_.PCI0.GFX0.AINT, MethodObj) // 2 Arguments External (_SB_.PCI0.GFX0.CLID, FieldUnitObj) External (_SB_.PCI0.GFX0.DD1F, UnknownObj) External (_SB_.PCI0.GFX0.DRDY, FieldUnitObj) External (_SB_.PCI0.GFX0.GSCI, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GSSE, FieldUnitObj) External (_SB_.PCI0.GFX0.STAT, FieldUnitObj) External (_SB_.PCI0.GFX0.TCHE, FieldUnitObj) External (_SB_.PCI0.PEG0, UnknownObj) External (_SB_.PCI0.PEG0.HPME, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP, UnknownObj) External (_SB_.PCI0.PEG1, UnknownObj) External (_SB_.PCI0.PEG1.HPME, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG2, UnknownObj) External (_SB_.PCI0.PEG2.HPME, MethodObj) // 0 Arguments External (D1F0, UnknownObj) External (D1F1, UnknownObj) External (D1F2, UnknownObj) External (DIDX, FieldUnitObj) External (GSMI, FieldUnitObj) External (PDC0, IntObj) External (PDC1, IntObj) External (PDC2, IntObj) External (PDC3, IntObj) External (PDC4, IntObj) External (PDC5, IntObj) External (PDC6, IntObj) External (PDC7, IntObj) External (SGMD, FieldUnitObj) And here you are a correctly disassembled Method ADBG, which refering to External Method MDBG with 1 Arg countВот пример корректно дизассемблированного метода ADBG, который ссылается на External метод MDBG c 1 Аргументом. External (MDBG, MethodObj) ... Method (ADBG, 1, Serialized) { If (CondRefOf (MDBG)) { Return (MDBG (Arg0)) // MDBG is an External reference Method, but there is no such method in ACPI tables. } Return (Zero) } But without ref.txt parsing will be incorrect and compiler will return an error, like this:Но без подключенного ref.txt файла парсинг кода пройдет неправильно и компилятор вернет ошибку компиляции: External (MDBG, IntObj) // Here is an ERROR ... Method (ADBG, 1, Serialized) { If (CondRefOf (MDBG)) { Return (MDBG) /* External reference */ // Here is an ERROR Arg0 // Here is an ERROR } Return (Zero) } Here is an original SSDT with MDBG method, which was lost. / Вот SSDT таблица c методом MDBG, которая была утеряна: DefinitionBlock ("MDBG.aml", "SSDT", 1, "Intel_", "ADebTabl", 0x00001000) { Scope (\) { Name (DPTR, 0x80000000) Name (EPTR, 0x80000000) Name (CPTR, 0x80000000) Mutex (MMUT, 0x00) Method (MDBG, 1, Serialized) { Store (Acquire (MMUT, 0x03E8), Local0) If (LEqual (Local0, Zero)) { OperationRegion (ABLK, SystemMemory, CPTR, 0x10) Field (ABLK, ByteAcc, NoLock, Preserve) { AAAA, 128 } Store (Arg0, AAAA) /* \MDBG.AAAA */ Add (CPTR, 0x10, CPTR) /* \CPTR */ If (LGreaterEqual (CPTR, EPTR)) { Add (DPTR, 0x10, CPTR) /* \CPTR */ } Release (MMUT) } Return (Local0) } } } =================== And more: if you need to decompile your custom DSDT with your patches and if it still has many External Methods, you need to use all of the SSDTs this time too. If you deleted all of the Externals and those dependencies in the code, then no need to decompile with SSDTs and refs. В дополнение: если вы решили декомпилировать свою кастомную DSDT с примененными патчами и в таблице все еще имеются в большом количестве External методы, в этом случае также требуется использовать терминал и включить в декомпиляцию все SSDT таблицы. Если вы удалили все External методы со всеми зависимостями в коде, тогда не требуется использовать при декомпиляции SSDT таблицы и реф.файлы. =================== Changelog: https://github.com/acpica/acpica/blob/master/documents/changes.txt
  21. My laptop have the following Ethernet card: Realtek RTL8139/810x Fast Ethernet Adapter PCI and OS X Mavericks is not supporting it, have tried many kext for it.. but no success.. ? Some help me with it.. Laptop's Integrated Graphics , Audio are working fine.. I've issue with Wifi Adapter and Ethernet Adapter. Wifi Adapter :?Qualcomm Atheros AR9485WB-EG Wireless Network Adapter ? Specs: i7-4702MQ 2.20Ghz 8GB Ram Intel HD 4600 and GT 740M DSDT Lenovo z510.zip
  22. Version 20151124

    262 downloads

    ? The NEW version of MaciASL 1.4 b270 / ?ова? вер?и? MaciASL 1.4 b270 ? Intel ACPI tools. The NEW version 20151124 compiled by me from original sources. Use iasl compiler with your MaciASL, DSDTSE or another editor (or Terminal). To update your DSDTSE, simply right click on DSDTSE --> Show contents, drag'n'drop iasl into --> Contents --> Resources. Another editors have mostly the same way. For MaciASL simply drag iasl to Contents --> MacOS and rename it to iasl5 (or iasl6 for MaciASL 1.4 b270+ builds) ? For Terminal: simply copy all the utilities to /usr/local/bin. Then type in Terminal iasl [space] [keys separated with spaces] [space] and then drag'n'drop needed files to the Terminal's window. Or type cd [space] then drag'n'drop origin folder (press F4 in Clover's GUI) [Enter], then simply type needed command, like this: iasl -da -dl SSDT*.aml DSDT.aml// or if there are only DSDT and SSDTs in origin folder (w/o APIC, FADT, HPET, etc.), then type:iasl -da -dl *.aml Intel ACPI тулзы. ?ова? вер?и? 20151124 ?компилирована мною из оригинальных ?ырцов. Дл? и?пользовани? ? ДСДТ редактором MaciASL, DSDTSE или другим (или Терминалом). Ин?талим ?юда: Открываем правой кнопкой по "любимому" редактору --> показать ?одержимое пакета --> Contents --> Resources --> перета?киваем драг-н-дропом на ?ту папку файл iasl, на замену ?оглашаем??. Имеем ?вежий компайлер. Дл? MaciASL перета?киваем в подпапку Contents --> MacOS и даем ему им? iasl5 (или iasl6 дл? ?овременных билдов MaciASL 1.4 b270+ ) ? Дл? Терминала: копируем в?е утилиты в папку /usr/local/bin. Затем в терминале набираем iasl [пробел] [ключи через пробел] [пробел] и перета?киваем на окно Терминала требуемые файлы. Либо набираем cd [пробел] и перета?киваем папку origin (?н?тую в ГУИ Кловера по F4) [Enter], затем набираем требуемую команду, например: iasl -da -dl SSDT*.aml DSDT.aml// или е?ли в папке origin только таблицы DSDT и SSDTs (без о?тальных APIC, FADT HPET и т.д.), то:iasl -da -dl *.aml Major tools and utilities: iASL - ACPI Source Language Compiler, ACPI Table Compiler, and AML Disassembler AcpiExec - Load ACPI tables and execute control methods from user space AcpiDump - Obtain system ACPI tables and save in ASCII hex format AcpiXtract - Extract binary ACPI tables from an ASCII acpidump AcpiHelp - Help utility for ASL operators, AML opcodes, and ACPI Predefined Names Miscellaneous utilities:AcpiNames - Example utility that loads and displays the ACPI namespace AcpiSrc - Convert ACPICA code to Linux format AcpiBin - Miscellaneous manipulation of binary ACPI tables ? iASL HELP: Intel ACPI Component ArchitectureASL+ Optimizing Compiler version 20151124-64Copyright (c) 2000 - 2015 Intel CorporationSupports ACPI Specification Revision 6.0Usage: iasl [Options] [Files]Options:General: -@ <file> Specify command file -I <dir> Specify additional include directory -T <sig>|ALL|* Create table template file for ACPI <Sig> -p <prefix> Specify path/filename prefix for all output files -v Display compiler version -vo Enable optimization comments -vs Disable signonHelp: -h This message -hc Display operators allowed in constant expressions -hf Display help for output filename generation -hr Display ACPI reserved method names -ht Display currently supported ACPI table namesPreprocessor: -D <symbol> Define symbol for preprocessor use -li Create preprocessed output file (*.i) -P Preprocess only and create preprocessor output file (*.i) -Pn Disable preprocessorErrors, Warnings, and Remarks: -va Disable all errors/warnings/remarks -ve Report only errors (ignore warnings and remarks) -vi Less verbose errors and warnings for use with IDEs -vr Disable remarks -vw <messageid> Disable specific warning or remark -w1 -w2 -w3 Set warning reporting level -we Report warnings as errorsAML Code Generation (*.aml): -oa Disable all optimizations (compatibility mode) -of Disable constant folding -oi Disable integer optimization to Zero/One/Ones -on Disable named reference string optimization -ot Disable typechecking -cr Disable Resource Descriptor error checking -in Ignore NoOp operators -r <revision> Override table header Revision (1-255)Optional Source Code Output Files: -sc -sa Create source file in C or assembler (*.c or *.asm) -ic -ia Create include file in C or assembler (*.h or *.inc) -tc -ta -ts Create hex AML table in C, assembler, or ASL (*.hex) -so Create offset table in C (*.offset.h)Optional Listing Files: -l Create mixed listing file (ASL source and AML) (*.lst) -lm Create hardware summary map file (*.map) -ln Create namespace file (*.nsp) -ls Create combined source file (expanded includes) (*.src)Data Table Compiler: -G Compile custom table that contains generic operators -vt Create verbose template files (full disassembly)AML Disassembler: -d <f1 f2 ...> Disassemble or decode binary ACPI tables to file (*.dsl) (Optional, file type is automatically detected) -da <f1 f2 ...> Disassemble multiple tables from single namespace -db Do not translate Buffers to Resource Templates -dc <f1 f2 ...> Disassemble AML and immediately compile it (Obtain DSDT from current system if no input file) -df Force disassembler to assume table contains valid AML -dl Emit legacy ASL code only (no C-style operators) -e <f1 f2 ...> Include ACPI table(s) for external symbol resolution -fe <file> Specify external symbol declaration file -in Ignore NoOp opcodes -l Disassemble to mixed ASL and AML code -vt Dump binary table data in hex format within output fileDebug Options: -bf Create debug file (full output) (*.txt) -bs Create debug file (parse tree only) (*.txt) -bp <depth> Prune ASL parse tree -bt <type> Object type to be pruned from the parse tree -f Ignore errors, force creation of AML output file(s) -m <size> Set internal line buffer size (in Kbytes) -n Parse only, no output generation -oc Display compile times and statistics -x <level> Set debug level for trace output -z Do not insert new compiler ID for DataTables ACPISpec ver. 6.0 / ACPI Спецификации 6.0 ? ACPI Spec ver. 5.1 / ACPI ?пецификации вер?ии 5.1 ACPISPec ver. 5.1 Errata A / ACPI ?пецификации 5.1 И?правлени? ? ? Attension / Внимание :: =========================== Simple replacement of iasl compiler (iasl --> iasl5) in MacIASL leads to an empty Summary window, the bottom line shows correctly number of the errors / warnings / remarks, but the screen remains blank and errors addresses hard to find. This is the MacIASL's bug, not the compiler's.? Про?та? замена компайлера iasl (iasl --> iasl5) в MacIASL ведет к пу?тому выхлопу окна Summary, то е?ть количе?тво ошибок / предупреждений / ремарок в нижней ?троке показывает корректно, но окно о?тает?? пу?тым и адре?а ошибок найти ?ложно. Это баг ?амого MacIASL, а не компил?тора. =========================== ? IMPORTANT / В?Ж?О : =========================== To have a correctly disassembled DSL file w/o unexpected errors, you need to use the Terminal to decompile AML binaries. If you have a modern platform and more than 1 SSDT in your ACPI, you need to decompile all of them correctly. To decompile only DSDT.aml use -e key (to decompile in legacy ASL code mode you have to add -dl key instead of -d ) : ? Чтобы получить корректно диза??емблированный DSL файл без непредвиденных ошибок декомпил?ции, нужно и?пользовать терминал дл? декомпил?ции бинарников. Е?ли вы владеете ?овременной платформой и ?реди ACPI таблиц при?ут?твует более 1 SSDT, необходимо их корректно декомпилировать. Чтобы декомпилировать только DSDT, и?пользуйте ключ -e: (дл? ра?паковки в лега?и код ASL вме?то ключа -d надо и?пользовать новый ключ -dl ) : ? New ASL+ decompile: / Декомпайл ASL+: iasl -e SSDT*.aml -d DSDT.amliasl -e /@full_path@/SSDT*.aml -d /@full_path@/DSDT.aml Legacy ASL decompile / Декомпайл ASL лега?и: iasl -e SSDT*.aml -dl DSDT.amliasl -e /@full_path@/SSDT*.aml -dl /@full_path@/DSDT.aml =============================== ? To decompile all DSDT & SSDTs use -da key / Чтобы декомпилировать в?е DSDT и SSDT таблицы, и?пользуйте ключ -da: iasl -da DSDT.aml SSDT*.amliasl -da -dl DSDT.aml SSDT*.aml iasl -da /@full_path@/DSDT.aml /@full_path@/SSDT*.amliasl -da -dl /@full_path@/SSDT*.aml /@full_path@/DSDT.aml Also add reference file ref.txt with unresolved External Methods and Argument count for each. Use -fe key: Также можно добавить дополнительный реф.файл ref.txt c перечи?лением в?е еще нера?познанных методов и количе?тво ?ргументов дл? каждого. И?пользуйте ключ -fe: =============================== External (MDBG, MethodObj, 1) // <<<--- Unresolved Method with allocated Arguments count (text file ref.txt) iasl -fe ref.txt -e SSDT*.aml -dl DSDT.amliasl -fe /@full_path@/ref.txt -e /@full_path@/SSDT*.aml -d /@full_path@/DSDT.amliasl -fe /@full_path@/ref.txt -e /@full_path@/SSDT*.aml -dl /@full_path@/DSDT.amliasl -fe /@full_path@/ref.txt -da -dl /@full_path@/SSDT*.aml /@full_path@/DSDT.aml =============================== ? The command in the Terminal should be like this (with full paths of the files): Команда в Терминале будет выгл?деть так (? полными пут?ми к файлам): 0:~ steve$ /Volumes/2\ UNIT\ 2T/MAC\ OS\ X\ \&\ HACK/ACPI/iASL_MAC/acpica-unix-20150619/iasl_20150619_64/iasl -fe /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt -e /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT*.aml -dl /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.aml After pressing the Return key you should see something like this. It means that all of SSDTs were connected to parsing (but this example shows that not all Externals were resolved). По?ле нажати? клавиши Return вы увидите что-то наподобие ?того. Это означает, что в?е ССДТ таблицы были прикреплены к пар?ингу (но в ?том примере не были ра?познаны в?е External методы). Intel ACPI Component ArchitectureASL+ Optimizing Compiler version 20150619-64Copyright (c) 2000 - 2015 Intel CorporationReading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.aml - Length 00081138 (0x013CF2)ACPI: DSDT 0x0000000000000000 013CF2 (v02 _ASUS_ Notebook 00000012 INTL 20120711)Acpi table [DSDT] successfully installed and loadedReading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-9.aml - Length 00006602 (0x0019CA)ACPI: SSDT 0x0000000000000000 0019CA (v01 OptRef OptTabl 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-8.aml - Length 00006531 (0x001983)ACPI: SSDT 0x0000000000000000 001983 (v01 SgRef SgPeg 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-7.aml - Length 00017729 (0x004541)ACPI: SSDT 0x0000000000000000 004541 (v01 SaSsdt SaSsdt 00003000 INTL 20091112)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-6.aml - Length 00000664 (0x000298)ACPI: SSDT 0x0000000000000000 000298 (v01 SataRe SataTabl 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-5x.aml - Length 00000281 (0x000119)ACPI: SSDT 0x0000000000000000 000119 (v01 PmRef ApCst 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-4x.aml - Length 00000979 (0x0003D3)ACPI: SSDT 0x0000000000000000 0003D3 (v01 PmRef Cpu0Cst 00003001 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-3x.aml - Length 00001450 (0x0005AA)ACPI: SSDT 0x0000000000000000 0005AA (v01 PmRef ApIst 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-2.aml - Length 00002776 (0x000AD8)ACPI: SSDT 0x0000000000000000 000AD8 (v01 PmRef CpuPm 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-1.aml - Length 00001337 (0x000539)ACPI: SSDT 0x0000000000000000 000539 (v01 PmRef Cpu0Ist 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-0.aml - Length 00000413 (0x00019D)ACPI: SSDT 0x0000000000000000 00019D (v01 Intel zpodd 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt: Importing method external (1 arguments) MDBG/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt: Importing method external (4 arguments) _SB_.PCI0.GFX0._DSM/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt: Imported 2 external method definitionsPass 1 parse of [DSDT]Pass 2 parse of [DSDT]Parsing Deferred Opcodes (Methods/Buffers/Packages/Regions)Parsing completedFound 31 external control methods, reparsing with new informationPass 1 parse of [DSDT]Pass 2 parse of [DSDT]Parsing Deferred Opcodes (Methods/Buffers/Packages/Regions)Parsing completedDisassembly completedASL Output: /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.dsl - 748426 bytesiASL Warning: There were 31 external control methods found duringdisassembly, but only 25 were resolved (6 unresolved). AdditionalACPI tables may be required to properly disassemble the code. Theresulting disassembler output file may not compile because thedisassembler did not know how many arguments to assign to theunresolved methods. Note: SSDTs can be dynamically loaded atruntime and may or may not be available via the host OS.If necessary, the -fe option can be used to specify a file containingcontrol method external declarations with the associated methodargument counts. Each line of the file must be of the form: External (<method pathname>, MethodObj, <argument count>)Invocation: iasl -fe refs.txt -d dsdt.aml Here is an example how disassembler parses the Externals. / Вот пример, как диза??емблер пар?ит External методы. External (_SB_.PCI0.PAUD.PUAM, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_SB_.PCI0.RP05.PEGP.EPON, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_SB_.PCI0.XHC_.DUAM, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_SB_.TPM_.PTS_, MethodObj) // Warning: Unresolved method, guessing 1 arguments External (PS0X, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (PS3X, MethodObj) // Warning: Unresolved method, guessing 0 arguments /* * External declarations that were imported from * the reference file [/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt] */ External (_SB_.PCI0.GFX0._DSM, MethodObj) // 4 Arguments External (MDBG, MethodObj) // 1 Arguments External (_PR_.CPU0._PPC, IntObj) External (_PR_.CPU0._PSS, PkgObj) External (_SB_.IAOE.ECTM, UnknownObj) External (_SB_.IAOE.FFSE, UnknownObj) External (_SB_.IAOE.IBT1, UnknownObj) External (_SB_.IAOE.ITMR, UnknownObj) External (_SB_.IAOE.PTSL, UnknownObj) External (_SB_.IAOE.RCTM, UnknownObj) External (_SB_.IAOE.WKRS, UnknownObj) External (_SB_.IFFS.FFSS, UnknownObj) External (_SB_.PCCD, UnknownObj) External (_SB_.PCCD.PENB, UnknownObj) External (_SB_.PCI0.B0D3.ABAR, FieldUnitObj) External (_SB_.PCI0.B0D3.BARA, IntObj) External (_SB_.PCI0.GFX0.ADVD, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.AINT, MethodObj) // 2 Arguments External (_SB_.PCI0.GFX0.CBLV, FieldUnitObj) External (_SB_.PCI0.GFX0.CLID, FieldUnitObj) External (_SB_.PCI0.GFX0.DWBL, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GCBL, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.GCDS, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GLID, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.GSCI, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GSSE, FieldUnitObj) External (_SB_.PCI0.GFX0.LCDD._DCS, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.NATK, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.OPTS, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.OWAK, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.PRST, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.STAT, FieldUnitObj) External (_SB_.PCI0.GFX0.SWHD, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.TCHE, FieldUnitObj) External (_SB_.PCI0.GFX0.UPBL, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0, UnknownObj) External (_SB_.PCI0.PEG0.HPME, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP, UnknownObj) External (_SB_.PCI0.PEG0.PEGP.DWBL, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.EPON, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.LCDD._DCS, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.NATK, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.PRST, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.UPBL, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG1, UnknownObj) External (_SB_.PCI0.PEG1.HPME, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG2, UnknownObj) External (_SB_.PCI0.PEG2.HPME, MethodObj) // 0 Arguments External (GSMI, FieldUnitObj) External (LIDS, FieldUnitObj) External (PCCD, UnknownObj) External (PDC0, IntObj) External (PDC1, IntObj) External (PDC2, IntObj) External (PDC3, IntObj) External (PDC4, IntObj) External (PDC5, IntObj) External (PDC6, IntObj) External (PDC7, IntObj) External (SGMD, FieldUnitObj) And here you are a correctly disassembled Method ADBG, which refering to External Method MDBG with 1 Arg count Вот пример корректно диза??емблированного метода ADBG, который ??ылает?? на External метод MDBG c 1 ?ргументом. External (MDBG, MethodObj) ... Method (ADBG, 1, Serialized) { If (CondRefOf (MDBG)) { MNIO (Arg0) MNIO ("\n") Return (MDBG (Arg0)) // MDBG is an External reference Method, but there is no such method in ACPI tables. } Return (Zero) } But without ref.txt parsing will be incorrect and compiler will return an error, like this: ?о без подключенного ref.txt файла пар?инг кода пройдет неправильно и компил?тор вернет ошибку компил?ции: External (MDBG, IntObj) // Here is an ERROR// ... Method (ADBG, 1, Serialized) { If (CondRefOf (MDBG)) { MNIO (Arg0) MNIO ("\n") Return (MDBG) // Here is an ERROR Arg0 // Here is an ERROR } Return (Zero) } Here is an original SSDT with MDBG method, which was lost. / Вот SSDT таблица ? методом MDBG, котора? была утер?на: DefinitionBlock ("MDBG.aml", "SSDT", 1, "Intel_", "ADebTabl", 0x00001000){ Scope (\) { Name (DPTR, 0x80000000) Name (EPTR, 0x80000000) Name (CPTR, 0x80000000) Mutex (MMUT, 0x00) Method (MDBG, 1, Serialized) { Store (Acquire (MMUT, 0x03E8), Local0) If (LEqual (Local0, Zero)) { OperationRegion (ABLK, SystemMemory, CPTR, 0x10) Field (ABLK, ByteAcc, NoLock, Preserve) { AAAA, 128 } Store (Arg0, AAAA) /* \MDBG.AAAA */ Add (CPTR, 0x10, CPTR) /* \CPTR */ If (LGreaterEqual (CPTR, EPTR)) { Add (DPTR, 0x10, CPTR) /* \CPTR */ } Release (MMUT) } Return (Local0) } }} =================== And more: if you need to decompile your custom DSDT with your patches and if it still has many External Methods, you need to use all of the SSDTs this time too. If you deleted all of the Externals and those dependencies in the code, then no need to decompile with SSDTs and refs. ? В дополнение: е?ли вы решили декомпилировать ?вою ка?томную DSDT ? примененными патчами и в таблице в?е еще имеют?? в большом количе?тве External методы, в ?том ?лучае также требует?? и?пользовать терминал и включить в декомпил?цию в?е SSDT таблицы. Е?ли вы удалили в?е External методы ?о в?еми зави?имо?т?ми в коде, тогда не требует?? и?пользовать при декомпил?ции SSDT таблицы и реф.файлы. =================== ? Changelog 20151124: ? 24 November 2015. Summary of changes for version 20151124: ? 1) ACPICA kernel-resident subsystem: Fixed a possible regression for a previous update to FADT handling. The FADT no longer has a fixed table ID, causing some issues with code that was hardwired to a specific ID. Lv Zheng. Fixed a problem where the method auto-serialization could interfere with the current SyncLevel. This change makes the auto-serialization support transparent to the SyncLevel support and management. Removed support for the _SUB predefined name in AcpiGetObjectInfo. This interface is intended for early access to the namespace during the initial namespace device discovery walk. The _SUB method has been seen to access operation regions in some cases, causing errors because the operation regions are not fully initialized. AML Debugger: Fixed some issues with the terminate/quit/exit commands that can cause faults. Lv Zheng. AML Debugger: Add thread ID support so that single-step mode only applies to the AML Debugger thread. This prevents runtime errors within some kernels. Lv Zheng. Eliminated extraneous warnings from AcpiGetSleepTypeData. Since the _Sx methods that are invoked by this interface are optional, removed warnings emitted for the case where one or more of these methods do not exist. ACPICA BZ 1208, original change by Prarit Bhargava. Made a major pass through the entire ACPICA source code base to standardize formatting that has diverged a bit over time. There are no functional changes, but this will of course cause quite a few code differences from the previous ACPICA release. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. ? Current Release:Non-Debug Version: 102.0K Code, 28.3K Data, 130.3K Total Debug Version: 199.6K Code, 81.8K Data, 281.4K Total Previous Release: Non-Debug Version: 101.7K Code, 27.9K Data, 129.6K Total Debug Version: 199.3K Code, 81.4K Data, 280.7K Total ? 2) iASL Compiler/Disassembler and Tools:iASL/acpiexec/acpixtract/disassembler: Added support to allow multiple definition blocks within a single ASL file and the resulting AML file. Support for this type of file was also added to the various tools that use binary AML files: acpiexec, acpixtract, and the AML disassembler. The example code below shows two definition blocks within the same file: DefinitionBlock ("dsdt.aml", "DSDT", 2, "Intel", "Template", 0x12345678) {...} DefinitionBlock ("", "SSDT", 2, "Intel", "Template", 0xABCDEF01) {...} iASL: Enhanced typechecking for the Name() operator. All expressions for the value of the named object must be reduced/folded to a single constant at compile time, as per the ACPI specification (the AML definition of Name()). iASL: Fixed some code indentation issues for the -ic and -ia options (C and assembly headers). Now all emitted code correctly begins in column 1. iASL: Added an error message for an attempt to open a Scope() on an object defined in an SSDT. The DSDT is always loaded into the namespace first, so any attempt to open a Scope on an SSDT object will fail at runtime. ? OLD CHANCHELOG: ? ---------------------------------------- 30 September 2015. Summary of changes for version 20150930: ? 1) ACPICA kernel-resident subsystem:Debugger: Implemented several changes and bug fixes to assist support for the in-kernel version of the AML debugger. Lv Zheng. - Fix the "predefined" command for in-kernel debugger. - Do not enter debug command loop for the help and version commands. - Disallow "execute" command during execution/single-step of a method. Interpreter: Updated runtime typechecking for all operators that have target operands. The operand is resolved and validated that it is legal. For example, the target cannot be a non-data object such as a Device, Mutex, ThermalZone, etc., as per the ACPI specification. Debugger: Fixed the double-mutex user I/O handshake to work when local deadlock detection is enabled. Debugger: limited display of method locals and arguments (LocalX and ArgX) to only those that have actually been initialized. This prevents lines of extraneous output. Updated the definition of the NFIT table to correct the bit polarity of one flag: ACPI_NFIT_MEM_ARMED --> ACPI_NFIT_MEM_NOT_ARMED Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release:Non-Debug Version: 101.7K Code, 27.9K Data, 129.6K Total Debug Version: 199.3K Code, 81.4K Data, 280.7K Total Previous Release: Non-Debug Version: 101.3K Code, 27.7K Data, 129.0K Total Debug Version: 198.6K Code, 80.9K Data, 279.5K Total 2) iASL Compiler/Disassembler and Tools:iASL: Improved the compile-time typechecking for operands of many of the ASL operators: -- Added an option to disable compiler operand/operator typechecking (-ot). -- For the following operators, the TermArg operands are now validated when possible to be Integer data objects: BankField, OperationRegion, DataTableRegion, Buffer, and Package. -- Store (Source, Target): Both the source and target operands are resolved and checked that the operands are both legal. For example, neither operand can be a non-data object such as a Device, Mutex, ThermalZone, etc. Note, as per the ACPI specification, the CopyObject operator can be used to store an object to any type of target object. -- Store (Source, Target): If the source is a Package object, the target must be a Package object, LocalX, ArgX, or Debug. Likewise, if the target is a Package, the source must also be a Package. -- Store (Source, Target): A warning is issued if the source and target resolve to the identical named object. -- Store (Source, <method invocation>): An error is generated for the target method invocation, as this construct is not supported by the AML interpreter. -- For all ASL math and logic operators, the target operand must be a data object (Integer, String, Buffer, LocalX, ArgX, or Debug). This includes the function return value also. -- External declarations are also included in the typechecking where possible. External objects defined using the UnknownObj keyword cannot be typechecked, however. iASL and Disassembler: Added symbolic (ASL+) support for the ASL Index operator: - Legacy code: Index (PKG1, 3) - New ASL+ code: PKG1 [3] This completes the ACPI 6.0 ASL+ support as it was the only operator not supported. iASL: Fixed the file suffix for the preprocessor output file (.i). Two spaces were inadvertently appended to the filename, causing file access and deletion problems on some systems. ASL Test Suite (ASLTS): Updated the master makefile to generate all possible compiler output files when building the test suite -- thus exercising these features of the compiler. These files are automatically deleted when the test suite exits. ---------------------------------------- 18 August 2015. Summary of changes for version 20150818: ? 1) ACPICA kernel-resident subsystem:Fix a regression for AcpiGetTableByIndex interface causing it to fail. Lv Zheng. ACPICA BZ 1186. Completed development to ensure that the ACPICA Disassembler and Debugger are fully standalone components of ACPICA. Removed cross-component dependences. Lv Zheng. The max-number-of-AML-loops is now runtime configurable (previously was compile-time only). This is essentially a loop timeout to force-abort infinite AML loops. ACPCIA BZ 1192. Debugger: Cleanup output to dump ACPI names and namepaths without any trailing underscores. Lv Zheng. ACPICA BZ 1135. Removed unnecessary conditional compilations across the Debugger and Disassembler components where entire modules could be left uncompiled. The aapits test is deprecated and has been removed from the ACPICA git tree. The test has never been completed and has not been maintained, thus becoming rather useless. ACPICA BZ 1015, 794. A batch of small changes to close bugzilla and other reports: - Remove duplicate code for _PLD processing. ACPICA BZ 1176. - Correctly cleanup after a ACPI table load failure. ACPICA BZ 1185. - iASL: Support POSIX yacc again in makefile. Jung-uk Kim. - ACPI table support: general cleanup and simplification. Lv Zheng, Bob Moore. - ACPI table support: fix for a buffer read overrun in AcpiTbFindTable. ACPICA BZ 1184. - Enhance parameter validation for DataTableRegion and LoadTable ASL/AML operators. - Debugger: Split debugger initialization/termination interfaces. Lv Zheng. - AcpiExec: Emit OemTableId for SSDTs during the load phase for table identification. - AcpiExec: Add debug message during _REG method phase during table load/init. - AcpiNames: Fix a regression where some output was missing and no longer emitted. - Debugger: General cleanup and simplification. Lv Zheng. - Disassembler: Cleanup use of several global option variables. Lv Zheng. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 101.3K Code, 27.7K Data, 129.0K Total Debug Version: 198.6K Code, 80.9K Data, 279.5K Total Previous Release:Non-Debug Version: 100.9K Code, 24.5K Data, 125.4K Total Debug Version: 197.8K Code, 81.5K Data, 279.3K Total 2) iASL Compiler/Disassembler and Tools: AcpiExec: Fixed a problem where any more than 32 ACPI tables in the XSDT were not handled properly and caused load errors. Now, properly invoke and use the ACPICA auto-reallocate mechanism for ACPI table data structures. ACPICA BZ 1188 AcpiNames: Add command-line wildcard support for ACPI table files. ACPICA BZ 1190. AcpiExec and AcpiNames: Add -l option to load ACPI tables only. For AcpiExec, this means that no control methods (like _REG/_INI/_STA) are executed during initialization. ACPICA BZ 1187, 1189. iASL/Disassembler: Implemented a prototype "listing" mode that emits AML that corresponds to each disassembled ASL statement, to simplify debugging. ACPICA BZ 1191. Debugger: Add option to the "objects" command to display a summary of the current namespace objects (Object type and count). This is displayed if the command is entered with no arguments. AcpiNames: Add -x option to specify debug level, similar to AcpiExec. ---------------------------------------- 17 July 2015. Summary of changes for version 20150717: ? 1) ACPICA kernel-resident subsystem:Improved the partitioning between the Debugger and Disassembler components. This allows the Debugger to be used standalone within kernel code without the Disassembler (which is used for single stepping also). This renames and moves one file, dmobject.c to dbobject.c. Lv Zheng. Debugger: Implemented a new command to trace the execution of control methods (Trace). This is especially useful for the in-kernel version of the debugger when file I/O may not be available for method trace output. See the ACPICA reference for more information. Lv Zheng. Moved all C library prototypes (used for the local versions of these functions when requested) to a new header, acclib.hCleaned up the use of non-ANSI C library functions. These functions are implemented locally in ACPICA. Moved all such functions to a common source file, utnonansi.c Debugger: Fixed a problem with the "!!" command (get last command executed) where the debugger could enter an infinite loop and eventually crash. Removed the use of local macros that were used for some of the standard C library functions to automatically cast input parameters. This mostly affected the is* functions where the input parameter is defined to be an int. This required a few modifications to the main ACPICA source code to provide casting for these functions and eliminate possible compiler warnings for these parameters. Across the source code, added additional status/error checking to resolve issues discovered by static source code analysis tools such as Coverity. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 100.9K Code, 24.5K Data, 125.4K Total Debug Version: 197.8K Code, 81.5K Data, 279.3K Total Previous Release:Non-Debug Version: 100.6K Code, 27.6K Data, 128.2K Total Debug Version: 196.2K Code, 81.0K Data, 277.2K Total 2) iASL Compiler/Disassembler and Tools: iASL: Fixed a regression where the device map file feature no longer worked properly when used in conjunction with the disassembler. It only worked properly with the compiler itself. iASL: Implemented a new warning for method LocalX variables that are set but never used (similar to a C compiler such as gcc). This also applies to ArgX variables that are not defined by the parent method, and are instead (legally) used as local variables. iASL/Preprocessor: Finished the pass-through of line numbers from the preprocessor to the compiler. This ensures that compiler errors/warnings have the correct original line numbers and filenames, regardless of any #include files. iASL/Preprocessor: Fixed a couple of issues with comment handling and the pass-through of comments to the preprocessor output file (which becomes the compiler input file). Also fixed a problem with // comments that appear after a math expression. iASL: Added support for the TCPA server table to the table compiler and template generator. (The client table was already previously supported) iASL/Preprocessor: Added a permanent #define of the symbol "__IASL__" to identify the iASL compiler. Cleaned up the use of the macros NEGATIVE and POSITIVE which were defined multiple times. The new names are ACPI_SIGN_NEGATIVE and ACPI_SIGN_POSITIVE. AcpiHelp: Update to expand help messages for the iASL preprocessor directives. ---------------------------------------- ? 19 June 2015. Summary of changes for version 20150619: ? Two regressions in version 20150616 have been addressed:Fixes some problems/issues with the C library macro removal (ACPI_STRLEN, etc.) This update changes ACPICA to only use the standard headers for functions, or the prototypes for the local versions of the C library functions. Across the source code, this required some additional casts for some Clib invocations for portability. Moved all local prototypes to a new file, acclib.h Fixes several problems with recent changes to the handling of the FACS table that could cause some systems not to boot. ---------------------------------------- 16 June 2015. Summary of changes for version 20150616: ? 1) ACPICA kernel-resident subsystem: Across the entire ACPICA source code base, the various macros for the C library functions (such as ACPI_STRLEN, etc.) have been removed and replaced by the standard C library names (strlen, etc.) The original purpose for these macros is no longer applicable. This simplification reduces the number of macros used in the ACPICA source code significantly, improving readability and maintainability. Implemented support for a new ACPI table, the OSDT. This table, the "override" SDT, can be loaded directly by the host OS at boot time. It enables the replacement of existing namespace objects that were installed via the DSDT and/or SSDTs. The primary purpose for this is to replace buggy or incorrect ASL/AML code obtained via the BIOS. The OSDT is slated for inclusion in a future version of the ACPI Specification. Lv Zheng/Bob Moore. Added support for systems with (improperly) two FACS tables -- a "32-bit" table (via FADT 32-bit legacy field) and a "64-bit" table (via the 64-bit X field). This change will support both automatically. There continues to be systems found with this issue. This support requires a change to the AcpiSetFirmwareWakingVector interface. Also, a public global variable has been added to allow the host to select which FACS is desired (AcpiGbl_Use32BitFacsAddresses). See the ACPICA reference for more details Lv Zheng. Added a new feature to allow for systems that do not contain an FACS. Although this is already supported on hardware-reduced platforms, the feature has been extended for all platforms. The reasoning is that we do not want to abort the entire ACPICA initialization just because the system is seriously buggy and has no FACS. Fixed a problem where the GUID strings for NFIT tables (in acuuid.h) were not correctly transcribed from the ACPI specification in ACPICA version 20150515. Implemented support for the _CLS object in the AcpiGetObjectInfo external interface. Updated the definitions of the TCPA and TPM2 ACPI tables to the more recent TCG ACPI Specification, December 14, 2014. Table disassembler and compiler also updated. Note: The TCPA "server" table is not supported by the disassembler/table-compiler at this time. ACPI 6.0: Added definitions for the new GIC version field in the MADT. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release:Non-Debug Version: 100.6K Code, 27.6K Data, 128.2K Total Debug Version: 196.2K Code, 81.0K Data, 277.2K Total Previous Release: Non-Debug Version: 99.9K Code, 27.5K Data, 127.4K Total Debug Version: 195.2K Code, 80.8K Data, 276.0K Total 2) iASL Compiler/Disassembler and Tools:Disassembler: Fixed a problem with the new symbolic operator disassembler where incorrect ASL code could be emitted in some cases for the "non-commutative" operators -- Subtract, Divide, Modulo, ShiftLeft, and ShiftRight. The actual problem cases seem to be rather unusual in common ASL code, however. David Box. Modified the linux version of acpidump to obtain ACPI tables from not just /dev/mem (which may not exist) and /sys/firmware/acpi/tables. Lv Zheng. iASL: Fixed a problem where the user preprocessor output file (.i) contained extra data that was not expected. The compiler was using this file as a temporary file and passed through #line directives in order to keep compiler error messages in sync with the input file and line number across multiple include files. The (.i) is no longer a temporary file as the compiler uses a new, different file for the original purpose. iASL: Fixed a problem where comments within the original ASL source code file were not passed through to the preprocessor output file, nor any listing files. iASL: Fixed some issues for the handling of the "#include" preprocessor directive and the similar (but not the same) "Include" ASL operator. iASL: Add support for the new OSDT in both the disassembler and compiler. iASL: Fixed a problem with the constant folding support where a Buffer object could be incorrectly generated (incorrectly formed) during a conversion to a Store() operator. AcpiHelp: Updated for new NFIT GUIDs, "External" AML opcode, and new description text for the _REV predefined name. _REV now permanently returns 2, as per the ACPI 6.0 specification. Debugger: Enhanced the output of the Debug ASL object for references produced by the Index operator. For Buffers and strings, only output the actual byte pointed to by the index. For packages, only print the single package element decoded by the index. Previously, the entire buffer/string/package was emitted. iASL/Table-compiler: Fixed a regression where the "generic" data types were no longer recognized, causing errors. --------------------------------------------- 08 April 2015. Summary of changes for version 20150515: ? This release implements most of ACPI 6.0 as described below. ? 1) ACPICA kernel-resident subsystem: Implemented runtime argument checking and return value checking for all new ACPI 6.0 predefined names. This includes: _BTH, _CR3, _DSD, _LPI, _MTL, _PRR, _RDI, _RST, _TFP, _TSN. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release:Non-Debug Version: 99.9K Code, 27.5K Data, 127.4K Total Debug Version: 195.2K Code, 80.8K Data, 276.0K Total Previous Release: Non-Debug Version: 99.1K Code, 27.3K Data, 126.4K Total Debug Version: 192.8K Code, 79.9K Data, 272.7K Total 2) iASL Compiler/Disassembler and Tools:iASL compiler: Added compile-time support for all new ACPI 6.0 predefined names (argument count validation and return value typechecking.) iASL disassembler and table compiler: implemented support for all new ACPI 6.0 tables. This includes: DRTM, IORT, LPIT, NFIT, STAO, WPBT, XENV. iASL disassembler and table compiler: Added ACPI 6.0 changes to existing tables: FADT, MADT. iASL preprocessor: Added a new directive to enable inclusion of binary blobs into ASL code. The new directive is #includebinary. It takes a binary file as input and emits a named ascii buffer object into the ASL code. AcpiHelp: Added support for all new ACPI 6.0 predefined names. AcpiHelp: Added a new option, -d, to display all iASL preprocessor directives. AcpiHelp: Added a new option, -t, to display all known/supported ACPI tables. ---------------------------------------- 10 April 2015. Summary of changes for version 20150410: Reverted a change introduced in version 20150408 that caused a regression in the disassembler where incorrect operator symbols could be emitted. ---------------------------------------- 08 April 2015. Summary of changes for version 20150408: ? 1) ACPICA kernel-resident subsystem:Permanently set the return value for the _REV predefined name. It now returns 2 (was 5). This matches other ACPI implementations. _REV will be deprecated in the future, and is now defined to be 1 for ACPI 1.0, and 2 for ACPI 2.0 and later. It should never be used to differentiate or identify operating systems. Added the "Windows 2015" string to the _OSI support. ACPICA will now return TRUE to a query with this string. Fixed several issues with the local version of the printf function. Added the C99 compiler option (-std=c99) to the Unix makefiles. Current Release: Non-Debug Version: 99.9K Code, 27.4K Data, 127.3K Total Debug Version: 195.2K Code, 80.7K Data, 275.9K
  23. Version 1.0

    152 downloads

    here i the latest DSDT patched for Dell 7537 Intel 4500U+intel HD 4400+1080P laptop can be used for 10.11 and (tested working) need a port injector to get USB fully functionality
  24. Version 20150930

    400 downloads

    The NEW version of MaciASL 1.3 b265 / ?ова? вер?и? MaciASL 1.3 b265 Intel ACPI tools. The NEW version 20150930 compiled by me from original sources. Use iasl compiler with your MaciASL, DSDTSE or another editor (or Terminal). To update your DSDTSE, simply right click on DSDTSE --> Show contents, drag'n'drop iasl into --> Contents --> Resources. Another editors have mostly the same way. For MaciASL simply drag iasl to Contents --> MacOS and rename it to iasl5 (or iasl51 for MaciASL 1.3 b262+ builds) Intel ACPI тулзы. ?ова? вер?и? 20150930 их ?компилирована мною из оригинальных ?ырцов. Дл? и?пользовани? ? ДСДТ редактором MaciASL, DSDTSE или другим (или Терминалом). Ин?талим ?юда: Открываем правой кнопкой по "любимому" редактору --> показать ?одержимое пакета --> Contents --> Resources --> перета?киваем драг-н-дропом на ?ту папку файл iasl, на замену ?оглашаем??. Имеем ?вежий компайлер. Дл? MaciASL перета?киваем в подпапку Contents --> MacOS и даем ему им? iasl5 (или iasl51 дл? ?овременных билдов MaciASL 1.3 b262+ ) Major tools and utilities: iASL - ACPI Source Language Compiler, ACPI Table Compiler, and AML Disassembler AcpiExec - Load ACPI tables and execute control methods from user space AcpiDump - Obtain system ACPI tables and save in ASCII hex format AcpiXtract - Extract binary ACPI tables from an ASCII acpidump AcpiHelp - Help utility for ASL operators, AML opcodes, and ACPI Predefined Names Miscellaneous utilities: AcpiNames - Example utility that loads and displays the ACPI namespace AcpiSrc - Convert ACPICA code to Linux format AcpiBin - Miscellaneous manipulation of binary ACPI tables iASL HELP: Supports ACPI Specification Revision 6.0 Usage: iasl [Options] [Files] Options: General: -@ <file> Specify command file -I <dir> Specify additional include directory -T <sig>|ALL|* Create table template file for ACPI <Sig> -p <prefix> Specify path/filename prefix for all output files -v Display compiler version -vo Enable optimization comments -vs Disable signon Help: -h This message -hc Display operators allowed in constant expressions -hf Display help for output filename generation -hr Display ACPI reserved method names -ht Display currently supported ACPI table names Preprocessor: -D <symbol> Define symbol for preprocessor use -li Create preprocessed output file (*.i) -P Preprocess only and create preprocessor output file (*.i) -Pn Disable preprocessor Errors, Warnings, and Remarks: -va Disable all errors/warnings/remarks -ve Report only errors (ignore warnings and remarks) -vi Less verbose errors and warnings for use with IDEs -vr Disable remarks -vw <messageid> Disable specific warning or remark -w1 -w2 -w3 Set warning reporting level -we Report warnings as errors AML Code Generation (*.aml): -oa Disable all optimizations (compatibility mode) -of Disable constant folding -oi Disable integer optimization to Zero/One/Ones -on Disable named reference string optimization -ot Disable typechecking -cr Disable Resource Descriptor error checking -in Ignore NoOp operators -r <revision> Override table header Revision (1-255) Optional Source Code Output Files: -sc -sa Create source file in C or assembler (*.c or *.asm) -ic -ia Create include file in C or assembler (*.h or *.inc) -tc -ta -ts Create hex AML table in C, assembler, or ASL (*.hex) -so Create offset table in C (*.offset.h) Optional Listing Files: -l Create mixed listing file (ASL source and AML) (*.lst) -lm Create hardware summary map file (*.map) -ln Create namespace file (*.nsp) -ls Create combined source file (expanded includes) (*.src) Data Table Compiler: -G Compile custom table that contains generic operators -vt Create verbose template files (full disassembly) AML Disassembler: -d <f1 f2 ...> Disassemble or decode binary ACPI tables to file (*.dsl) (Optional, file type is automatically detected) -da <f1 f2 ...> Disassemble multiple tables from single namespace -db Do not translate Buffers to Resource Templates -dc <f1 f2 ...> Disassemble AML and immediately compile it (Obtain DSDT from current system if no input file) -df Force disassembler to assume table contains valid AML -dl Emit legacy ASL code only (no C-style operators) -e <f1 f2 ...> Include ACPI table(s) for external symbol resolution -fe <file> Specify external symbol declaration file -in Ignore NoOp opcodes -l Disassemble to mixed ASL and AML code -vt Dump binary table data in hex format within output file Debug Options: -bf Create debug file (full output) (*.txt) -bs Create debug file (parse tree only) (*.txt) -bp <depth> Prune ASL parse tree -bt <type> Object type to be pruned from the parse tree -f Ignore errors, force creation of AML output file(s) -m <size> Set internal line buffer size (in Kbytes) -n Parse only, no output generation -oc Display compile times and statistics -x <level> Set debug level for trace output -z Do not insert new compiler ID for DataTables ACPISpec ver. 6.0 / ACPI Спецификации 6.0 ACPI Spec ver. 5.1 / ACPI ?пецификации вер?ии 5.1 ACPISPec ver. 5.1 Errata A / ACPI ?пецификации 5.1 И?правлени? ? Attension / Внимание :: =========================== Simple replacement of iasl compiler (iasl --> iasl5) in MacIASL leads to an empty Summary window, the bottom line shows correctly number of the errors / warnings / remarks, but the screen remains blank and errors addresses hard to find. This is the MacIASL's bug, not the compiler's. Про?та? замена компайлера iasl (iasl --> iasl5) в MacIASL ведет к пу?тому выхлопу окна Summary, то е?ть количе?тво ошибок / предупреждений / ремарок в нижней ?троке показывает корректно, но окно о?тает?? пу?тым и адре?а ошибок найти ?ложно. Это баг ?амого MacIASL, а не компил?тора. =========================== IMPORTANT / В?Ж?О : =========================== To have a correctly disassembled DSL file w/o unexpected errors, you need to use the Terminal to decompile AML binaries. If you have a modern platform and more than 1 SSDT in your ACPI, you need to decompile all of them correctly. To decompile only DSDT.aml use -e key (to decompile in legacy ASL code mode you have to add -dl key instead of -d ) : Чтобы получить корректно диза??емблированный DSL файл без непредвиденных ошибок декомпил?ции, нужно и?пользовать терминал дл? декомпил?ции бинарников. Е?ли вы владеете ?овременной платформой и ?реди ACPI таблиц при?ут?твует более 1 SSDT, необходимо их корректно декомпилировать. Чтобы декомпилировать только DSDT, и?пользуйте ключ -e: (дл? ра?паковки в лега?и код ASL вме?то ключа -d надо и?пользовать новый ключ -dl ) : =========================== New ASL+ decompile: / Декомпайл ASL+: iasl -e SSDT*.aml -d DSDT.aml iasl -e /@full_path@/SSDT*.aml -d /@full_path@/DSDT.aml iasl -da /@full_path@/SSDT*.aml /@full_path@/DSDT.aml Legacy ASL decompile / Декомпайл ASL лега?и: iasl -e SSDT*.aml -dl DSDT.aml iasl -e /@full_path@/SSDT*.aml -dl /@full_path@/DSDT.aml iasl -da -dl /@full_path@/SSDT*.aml /@full_path@/DSDT.aml =============================== To decompile all DSDT & SSDTs use -da key / Чтобы декомпилировать в?е DSDT и SSDT таблицы, и?пользуйте ключ -da: iasl -da DSDT.aml SSDT*.aml iasl -da /@full_path@/DSDT.aml /@full_path@/SSDT*.aml Also add reference file ref.txt with unresolved External Methods and Argument count for each. Use -fe key: Также можно добавить дополнительный реф.файл ref.txt c перечи?лением в?е еще нера?познанных методов и количе?тво ?ргументов дл? каждого. И?пользуйте ключ -fe: =============================== External (MDBG, MethodObj, 1) // <<<--- Unresolved Method with allocated Arguments count (text file ref.txt) iasl -fe /@full_path@/ref.txt -e /@full_path@/SSDT*.aml -d /@full_path@/DSDT.am liasl -fe /@full_path@/ref.txt -e /@full_path@/SSDT*.aml -dl /@full_path@/DSDT.aml iasl -fe /@full_path@/ref.txt -da -dl /@full_path@/SSDT*.aml /@full_path@/DSDT.aml =============================== The command in the Terminal should be like this (with full paths of the files): Команда в Терминале будет выгл?деть так (? полными пут?ми к файлам): 0:~ steve$ /Volumes/2\ UNIT\ 2T/MAC\ OS\ X\ \&\ HACK/ACPI/iASL_MAC/acpica-unix-20150619/iasl_20150619_64/iasl -fe /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt -e /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT*.aml -dl /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.aml After pressing the Return key you should see something like this. It means that all of SSDTs were attached correctly to parsing (but in this example there were not all Externals resolved). По?ле нажати? клавиши Return вы увидите что-то наподобие ?того. Это означает, что в?е ССДТ таблицы были прикреплены к пар?ингу (но в ?том примере не были ра?познаны в?е External методы). Intel ACPI Component ArchitectureASL+ Optimizing Compiler version 20150619-64Copyright (c) 2000 - 2015 Intel CorporationReading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.aml - Length 00081138 (0x013CF2)ACPI: DSDT 0x0000000000000000 013CF2 (v02 _ASUS_ Notebook 00000012 INTL 20120711)Acpi table [DSDT] successfully installed and loadedReading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-9.aml - Length 00006602 (0x0019CA)ACPI: SSDT 0x0000000000000000 0019CA (v01 OptRef OptTabl 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-8.aml - Length 00006531 (0x001983)ACPI: SSDT 0x0000000000000000 001983 (v01 SgRef SgPeg 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-7.aml - Length 00017729 (0x004541)ACPI: SSDT 0x0000000000000000 004541 (v01 SaSsdt SaSsdt 00003000 INTL 20091112)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-6.aml - Length 00000664 (0x000298)ACPI: SSDT 0x0000000000000000 000298 (v01 SataRe SataTabl 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-5x.aml - Length 00000281 (0x000119)ACPI: SSDT 0x0000000000000000 000119 (v01 PmRef ApCst 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-4x.aml - Length 00000979 (0x0003D3)ACPI: SSDT 0x0000000000000000 0003D3 (v01 PmRef Cpu0Cst 00003001 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-3x.aml - Length 00001450 (0x0005AA)ACPI: SSDT 0x0000000000000000 0005AA (v01 PmRef ApIst 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-2.aml - Length 00002776 (0x000AD8)ACPI: SSDT 0x0000000000000000 000AD8 (v01 PmRef CpuPm 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-1.aml - Length 00001337 (0x000539)ACPI: SSDT 0x0000000000000000 000539 (v01 PmRef Cpu0Ist 00003000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]Reading ACPI table from file /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/SSDT-0.aml - Length 00000413 (0x00019D)ACPI: SSDT 0x0000000000000000 00019D (v01 Intel zpodd 00001000 INTL 20120711)Acpi table [SSDT] successfully installed and loadedPass 1 parse of [SSDT]Pass 2 parse of [SSDT]/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt: Importing method external (1 arguments) MDBG/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt: Importing method external (4 arguments) _SB_.PCI0.GFX0._DSM/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt: Imported 2 external method definitionsPass 1 parse of [DSDT]Pass 2 parse of [DSDT]Parsing Deferred Opcodes (Methods/Buffers/Packages/Regions)Parsing completedFound 31 external control methods, reparsing with new informationPass 1 parse of [DSDT]Pass 2 parse of [DSDT]Parsing Deferred Opcodes (Methods/Buffers/Packages/Regions)Parsing completedDisassembly completedASL Output: /Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/DSDT.dsl - 748426 bytesiASL Warning: There were 31 external control methods found duringdisassembly, but only 25 were resolved (6 unresolved). AdditionalACPI tables may be required to properly disassemble the code. Theresulting disassembler output file may not compile because thedisassembler did not know how many arguments to assign to theunresolved methods. Note: SSDTs can be dynamically loaded atruntime and may or may not be available via the host OS.If necessary, the -fe option can be used to specify a file containingcontrol method external declarations with the associated methodargument counts. Each line of the file must be of the form: External (<method pathname>, MethodObj, <argument count>)Invocation: iasl -fe refs.txt -d dsdt.aml Here is an example how disassembler parses the Externals. / Вот пример, как диза??емблер пар?ит External методы. External (_SB_.PCI0.PAUD.PUAM, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_SB_.PCI0.RP05.PEGP.EPON, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_SB_.PCI0.XHC_.DUAM, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (_SB_.TPM_.PTS_, MethodObj) // Warning: Unresolved method, guessing 1 arguments External (PS0X, MethodObj) // Warning: Unresolved method, guessing 0 arguments External (PS3X, MethodObj) // Warning: Unresolved method, guessing 0 arguments /* * External declarations that were imported from * the reference file [/Volumes/Y/Users/stevebondaryan/Desktop/N551JM/origin/ref.txt] */ External (_SB_.PCI0.GFX0._DSM, MethodObj) // 4 Arguments External (MDBG, MethodObj) // 1 Arguments External (_PR_.CPU0._PPC, IntObj) External (_PR_.CPU0._PSS, PkgObj) External (_SB_.IAOE.ECTM, UnknownObj) External (_SB_.IAOE.FFSE, UnknownObj) External (_SB_.IAOE.IBT1, UnknownObj) External (_SB_.IAOE.ITMR, UnknownObj) External (_SB_.IAOE.PTSL, UnknownObj) External (_SB_.IAOE.RCTM, UnknownObj) External (_SB_.IAOE.WKRS, UnknownObj) External (_SB_.IFFS.FFSS, UnknownObj) External (_SB_.PCCD, UnknownObj) External (_SB_.PCCD.PENB, UnknownObj) External (_SB_.PCI0.B0D3.ABAR, FieldUnitObj) External (_SB_.PCI0.B0D3.BARA, IntObj) External (_SB_.PCI0.GFX0.ADVD, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.AINT, MethodObj) // 2 Arguments External (_SB_.PCI0.GFX0.CBLV, FieldUnitObj) External (_SB_.PCI0.GFX0.CLID, FieldUnitObj) External (_SB_.PCI0.GFX0.DWBL, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GCBL, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.GCDS, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GLID, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.GSCI, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.GSSE, FieldUnitObj) External (_SB_.PCI0.GFX0.LCDD._DCS, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.NATK, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.OPTS, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.OWAK, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.PRST, MethodObj) // 0 Arguments External (_SB_.PCI0.GFX0.STAT, FieldUnitObj) External (_SB_.PCI0.GFX0.SWHD, MethodObj) // 1 Arguments External (_SB_.PCI0.GFX0.TCHE, FieldUnitObj) External (_SB_.PCI0.GFX0.UPBL, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0, UnknownObj) External (_SB_.PCI0.PEG0.HPME, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP, UnknownObj) External (_SB_.PCI0.PEG0.PEGP.DWBL, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.EPON, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.LCDD._DCS, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.NATK, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.PRST, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG0.PEGP.UPBL, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG1, UnknownObj) External (_SB_.PCI0.PEG1.HPME, MethodObj) // 0 Arguments External (_SB_.PCI0.PEG2, UnknownObj) External (_SB_.PCI0.PEG2.HPME, MethodObj) // 0 Arguments External (GSMI, FieldUnitObj) External (LIDS, FieldUnitObj) External (PCCD, UnknownObj) External (PDC0, IntObj) External (PDC1, IntObj) External (PDC2, IntObj) External (PDC3, IntObj) External (PDC4, IntObj) External (PDC5, IntObj) External (PDC6, IntObj) External (PDC7, IntObj) External (SGMD, FieldUnitObj) And here you are a correctly disassembled Method ADBG, which refering to External Method MDBG with 1 Arg count Вот пример корректно диза??емблированного метода ADBG, который ??ылает?? на External метод MDBG c 1 ?ргументом. Method (ADBG, 1, Serialized) { If (CondRefOf (MDBG)) { MNIO (Arg0) MNIO ("\n") Return (MDBG (Arg0)) // MDBG is and External reference Method, but there is no such method in ACPI tables. } Return (Zero) } But without ref.txt parsing will be incorrect and compiler will return an error, like this: ?о без подключенного ref.txt файла пар?инг кода пройдет неправильно и компил?тор вернет ошибку компил?ции: External (MDBG, IntObj) // Here is an ERROR// ... Method (ADBG, 1, Serialized) { If (CondRefOf (MDBG)) { MNIO (Arg0) MNIO ("\n") Return (MDBG) // Here is an ERROR Arg0 // Here is an ERROR } Return (Zero) } Here is an original SSDT with MDBG method, which was lost. / Вот SSDT таблица ? методом MDBG, котора? была утер?на: DefinitionBlock ("MDBG.aml", "SSDT", 1, "Intel_", "ADebTabl", 0x00001000){ Scope (\) { Name (DPTR, 0x80000000) Name (EPTR, 0x80000000) Name (CPTR, 0x80000000) Mutex (MMUT, 0x00) Method (MDBG, 1, Serialized) { Store (Acquire (MMUT, 0x03E8), Local0) If (LEqual (Local0, Zero)) { OperationRegion (ABLK, SystemMemory, CPTR, 0x10) Field (ABLK, ByteAcc, NoLock, Preserve) { AAAA, 128 } Store (Arg0, AAAA) /* \MDBG.AAAA */ Add (CPTR, 0x10, CPTR) /* \CPTR */ If (LGreaterEqual (CPTR, EPTR)) { Add (DPTR, 0x10, CPTR) /* \CPTR */ } Release (MMUT) } Return (Local0) } }} =================== And more: if you need to decompile your custom DSDT with your patches and if it still has many External Methods, you need to use all of the SSDTs this time too. If you deleted all of the Externals and those dependencies in the code, then no need to decompile with SSDTs and refs. В дополнение: е?ли вы решили декомпилировать ?вою ка?томную DSDT ? примененными патчами и в таблице в?е еще имеют?? в большом количе?тве External методы, в ?том ?лучае также требует?? и?пользовать терминал и включить в декомпил?цию в?е SSDT таблицы. Е?ли вы удалили в?е External методы ?о в?еми зави?имо?т?ми в коде, тогда не требует?? и?пользовать при декомпил?ции SSDT таблицы и реф.файлы. =================== Changelog 20150930: 30 September 2015. Summary of changes for version 20150930: 1) ACPICA kernel-resident subsystem: Debugger: Implemented several changes and bug fixes to assist support for the in-kernel version of the AML debugger. Lv Zheng. - Fix the "predefined" command for in-kernel debugger. - Do not enter debug command loop for the help and version commands. - Disallow "execute" command during execution/single-step of a method. Interpreter: Updated runtime typechecking for all operators that have target operands. The operand is resolved and validated that it is legal. For example, the target cannot be a non-data object such as a Device, Mutex, ThermalZone, etc., as per the ACPI specification. Debugger: Fixed the double-mutex user I/O handshake to work when local deadlock detection is enabled. Debugger: limited display of method locals and arguments (LocalX and ArgX) to only those that have actually been initialized. This prevents lines of extraneous output. Updated the definition of the NFIT table to correct the bit polarity of one flag: ACPI_NFIT_MEM_ARMED --> ACPI_NFIT_MEM_NOT_ARMED Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 101.7K Code, 27.9K Data, 129.6K Total Debug Version: 199.3K Code, 81.4K Data, 280.7K Total Previous Release: Non-Debug Version: 101.3K Code, 27.7K Data, 129.0K Total Debug Version: 198.6K Code, 80.9K Data, 279.5K Total 2) iASL Compiler/Disassembler and Tools: iASL: Improved the compile-time typechecking for operands of many of the ASL operators: -- Added an option to disable compiler operand/operator typechecking (-ot). -- For the following operators, the TermArg operands are now validated when possible to be Integer data objects: BankField, OperationRegion, DataTableRegion, Buffer, and Package. -- Store (Source, Target): Both the source and target operands are resolved and checked that the operands are both legal. For example, neither operand can be a non-data object such as a Device, Mutex, ThermalZone, etc. Note, as per the ACPI specification, the CopyObject operator can be used to store an object to any type of target object. -- Store (Source, Target): If the source is a Package object, the target must be a Package object, LocalX, ArgX, or Debug. Likewise, if the target is a Package, the source must also be a Package. -- Store (Source, Target): A warning is issued if the source and target resolve to the identical named object. -- Store (Source, <method invocation>): An error is generated for the target method invocation, as this construct is not supported by the AML interpreter. -- For all ASL math and logic operators, the target operand must be a data object (Integer, String, Buffer, LocalX, ArgX, or Debug). This includes the function return value also. -- External declarations are also included in the typechecking where possible. External objects defined using the UnknownObj keyword cannot be typechecked, however. iASL and Disassembler: Added symbolic (ASL+) support for the ASL Index operator: - Legacy code: Index (PKG1, 3) - New ASL+ code: PKG1 [3] This completes the ACPI 6.0 ASL+ support as it was the only operator not supported. iASL: Fixed the file suffix for the preprocessor output file (.i). Two spaces were inadvertently appended to the filename, causing file access and deletion problems on some systems. ASL Test Suite (ASLTS): Updated the master makefile to generate all possible compiler output files when building the test suite -- thus exercising these features of the compiler. These files are automatically deleted when the test suite exits. ---------------------------------------- 18 August 2015. Summary of changes for version 20150818: 1) ACPICA kernel-resident subsystem: Fix a regression for AcpiGetTableByIndex interface causing it to fail. Lv Zheng. ACPICA BZ 1186. Completed development to ensure that the ACPICA Disassembler and Debugger are fully standalone components of ACPICA. Removed cross-component dependences. Lv Zheng. The max-number-of-AML-loops is now runtime configurable (previously was compile-time only). This is essentially a loop timeout to force-abort infinite AML loops. ACPCIA BZ 1192. Debugger: Cleanup output to dump ACPI names and namepaths without any trailing underscores. Lv Zheng. ACPICA BZ 1135. Removed unnecessary conditional compilations across the Debugger and Disassembler components where entire modules could be left uncompiled. The aapits test is deprecated and has been removed from the ACPICA git tree. The test has never been completed and has not been maintained, thus becoming rather useless. ACPICA BZ 1015, 794. A batch of small changes to close bugzilla and other reports: - Remove duplicate code for _PLD processing. ACPICA BZ 1176. - Correctly cleanup after a ACPI table load failure. ACPICA BZ 1185. - iASL: Support POSIX yacc again in makefile. Jung-uk Kim. - ACPI table support: general cleanup and simplification. Lv Zheng, Bob Moore. - ACPI table support: fix for a buffer read overrun in AcpiTbFindTable. ACPICA BZ 1184. - Enhance parameter validation for DataTableRegion and LoadTable ASL/AML operators. - Debugger: Split debugger initialization/termination interfaces. Lv Zheng. - AcpiExec: Emit OemTableId for SSDTs during the load phase for table identification. - AcpiExec: Add debug message during _REG method phase during table load/init. - AcpiNames: Fix a regression where some output was missing and no longer emitted. - Debugger: General cleanup and simplification. Lv Zheng. - Disassembler: Cleanup use of several global option variables. Lv Zheng. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 101.3K Code, 27.7K Data, 129.0K Total Debug Version: 198.6K Code, 80.9K Data, 279.5K Total Previous Release: Non-Debug Version: 100.9K Code, 24.5K Data, 125.4K Total Debug Version: 197.8K Code, 81.5K Data, 279.3K Total 2) iASL Compiler/Disassembler and Tools: AcpiExec: Fixed a problem where any more than 32 ACPI tables in the XSDT were not handled properly and caused load errors. Now, properly invoke and use the ACPICA auto-reallocate mechanism for ACPI table data structures. ACPICA BZ 1188 AcpiNames: Add command-line wildcard support for ACPI table files. ACPICA BZ 1190. AcpiExec and AcpiNames: Add -l option to load ACPI tables only. For AcpiExec, this means that no control methods (like _REG/_INI/_STA) are executed during initialization. ACPICA BZ 1187, 1189. iASL/Disassembler: Implemented a prototype "listing" mode that emits AML that corresponds to each disassembled ASL statement, to simplify debugging. ACPICA BZ 1191. Debugger: Add option to the "objects" command to display a summary of the current namespace objects (Object type and count). This is displayed if the command is entered with no arguments. AcpiNames: Add -x option to specify debug level, similar to AcpiExec. ---------------------------------------- 17 July 2015. Summary of changes for version 20150717: 1) ACPICA kernel-resident subsystem: Improved the partitioning between the Debugger and Disassembler components. This allows the Debugger to be used standalone within kernel code without the Disassembler (which is used for single stepping also). This renames and moves one file, dmobject.c to dbobject.c. Lv Zheng. Debugger: Implemented a new command to trace the execution of control methods (Trace). This is especially useful for the in-kernel version of the debugger when file I/O may not be available for method trace output. See the ACPICA reference for more information. Lv Zheng. Moved all C library prototypes (used for the local versions of these functions when requested) to a new header, acclib.hCleaned up the use of non-ANSI C library functions. These functions are implemented locally in ACPICA. Moved all such functions to a common source file, utnonansi.c Debugger: Fixed a problem with the "!!" command (get last command executed) where the debugger could enter an infinite loop and eventually crash. Removed the use of local macros that were used for some of the standard C library functions to automatically cast input parameters. This mostly affected the is* functions where the input parameter is defined to be an int. This required a few modifications to the main ACPICA source code to provide casting for these functions and eliminate possible compiler warnings for these parameters. Across the source code, added additional status/error checking to resolve issues discovered by static source code analysis tools such as Coverity. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 100.9K Code, 24.5K Data, 125.4K Total Debug Version: 197.8K Code, 81.5K Data, 279.3K Total Previous Release: Non-Debug Version: 100.6K Code, 27.6K Data, 128.2K Total Debug Version: 196.2K Code, 81.0K Data, 277.2K Total 2) iASL Compiler/Disassembler and Tools: iASL: Fixed a regression where the device map file feature no longer worked properly when used in conjunction with the disassembler. It only worked properly with the compiler itself. iASL: Implemented a new warning for method LocalX variables that are set but never used (similar to a C compiler such as gcc). This also applies to ArgX variables that are not defined by the parent method, and are instead (legally) used as local variables. iASL/Preprocessor: Finished the pass-through of line numbers from the preprocessor to the compiler. This ensures that compiler errors/warnings have the correct original line numbers and filenames, regardless of any #include files. iASL/Preprocessor: Fixed a couple of issues with comment handling and the pass-through of comments to the preprocessor output file (which becomes the compiler input file). Also fixed a problem with // comments that appear after a math expression. iASL: Added support for the TCPA server table to the table compiler and template generator. (The client table was already previously supported) iASL/Preprocessor: Added a permanent #define of the symbol "__IASL__" to identify the iASL compiler. Cleaned up the use of the macros NEGATIVE and POSITIVE which were defined multiple times. The new names are ACPI_SIGN_NEGATIVE and ACPI_SIGN_POSITIVE. AcpiHelp: Update to expand help messages for the iASL preprocessor directives. ---------------------------------------- 19 June 2015. Summary of changes for version 20150619: Two regressions in version 20150616 have been addressed: Fixes some problems/issues with the C library macro removal (ACPI_STRLEN, etc.) This update changes ACPICA to only use the standard headers for functions, or the prototypes for the local versions of the C library functions. Across the source code, this required some additional casts for some Clib invocations for portability. Moved all local prototypes to a new file, acclib.h Fixes several problems with recent changes to the handling of the FACS table that could cause some systems not to boot. ---------------------------------------- 16 June 2015. Summary of changes for version 20150616: 1) ACPICA kernel-resident subsystem: Across the entire ACPICA source code base, the various macros for the C library functions (such as ACPI_STRLEN, etc.) have been removed and replaced by the standard C library names (strlen, etc.) The original purpose for these macros is no longer applicable. This simplification reduces the number of macros used in the ACPICA source code significantly, improving readability and maintainability. Implemented support for a new ACPI table, the OSDT. This table, the "override" SDT, can be loaded directly by the host OS at boot time. It enables the replacement of existing namespace objects that were installed via the DSDT and/or SSDTs. The primary purpose for this is to replace buggy or incorrect ASL/AML code obtained via the BIOS. The OSDT is slated for inclusion in a future version of the ACPI Specification. Lv Zheng/Bob Moore. Added support for systems with (improperly) two FACS tables -- a "32-bit" table (via FADT 32-bit legacy field) and a "64-bit" table (via the 64-bit X field). This change will support both automatically. There continues to be systems found with this issue. This support requires a change to the AcpiSetFirmwareWakingVector interface. Also, a public global variable has been added to allow the host to select which FACS is desired (AcpiGbl_Use32BitFacsAddresses). See the ACPICA reference for more details Lv Zheng. Added a new feature to allow for systems that do not contain an FACS. Although this is already supported on hardware-reduced platforms, the feature has been extended for all platforms. The reasoning is that we do not want to abort the entire ACPICA initialization just because the system is seriously buggy and has no FACS. Fixed a problem where the GUID strings for NFIT tables (in acuuid.h) were not correctly transcribed from the ACPI specification in ACPICA version 20150515. Implemented support for the _CLS object in the AcpiGetObjectInfo external interface. Updated the definitions of the TCPA and TPM2 ACPI tables to the more recent TCG ACPI Specification, December 14, 2014. Table disassembler and compiler also updated. Note: The TCPA "server" table is not supported by the disassembler/table-compiler at this time. ACPI 6.0: Added definitions for the new GIC version field in the MADT. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 100.6K Code, 27.6K Data, 128.2K Total Debug Version: 196.2K Code, 81.0K Data, 277.2K Total Previous Release: Non-Debug Version: 99.9K Code, 27.5K Data, 127.4K Total Debug Version: 195.2K Code, 80.8K Data, 276.0K Total 2) iASL Compiler/Disassembler and Tools: Disassembler: Fixed a problem with the new symbolic operator disassembler where incorrect ASL code could be emitted in some cases for the "non-commutative" operators -- Subtract, Divide, Modulo, ShiftLeft, and ShiftRight. The actual problem cases seem to be rather unusual in common ASL code, however. David Box. Modified the linux version of acpidump to obtain ACPI tables from not just /dev/mem (which may not exist) and /sys/firmware/acpi/tables. Lv Zheng. iASL: Fixed a problem where the user preprocessor output file (.i) contained extra data that was not expected. The compiler was using this file as a temporary file and passed through #line directives in order to keep compiler error messages in sync with the input file and line number across multiple include files. The (.i) is no longer a temporary file as the compiler uses a new, different file for the original purpose. iASL: Fixed a problem where comments within the original ASL source code file were not passed through to the preprocessor output file, nor any listing files. iASL: Fixed some issues for the handling of the "#include" preprocessor directive and the similar (but not the same) "Include" ASL operator. iASL: Add support for the new OSDT in both the disassembler and compiler. iASL: Fixed a problem with the constant folding support where a Buffer object could be incorrectly generated (incorrectly formed) during a conversion to a Store() operator. AcpiHelp: Updated for new NFIT GUIDs, "External" AML opcode, and new description text for the _REV predefined name. _REV now permanently returns 2, as per the ACPI 6.0 specification. Debugger: Enhanced the output of the Debug ASL object for references produced by the Index operator. For Buffers and strings, only output the actual byte pointed to by the index. For packages, only print the single package element decoded by the index. Previously, the entire buffer/string/package was emitted. iASL/Table-compiler: Fixed a regression where the "generic" data types were no longer recognized, causing errors. --------------------------------------------- 08 April 2015. Summary of changes for version 20150515: This release implements most of ACPI 6.0 as described below. 1) ACPICA kernel-resident subsystem: Implemented runtime argument checking and return value checking for all new ACPI 6.0 predefined names. This includes: _BTH, _CR3, _DSD, _LPI, _MTL, _PRR, _RDI, _RST, _TFP, _TSN. Example Code and Data Size: These are the sizes for the OS-independent acpica.lib produced by the Microsoft Visual C++ 9.0 32-bit compiler. The debug version of the code includes the debug output trace mechanism and has a much larger code and data size. Current Release: Non-Debug Version: 99.9K Code, 27.5K Data, 127.4K Total Debug Version: 195.2K Code, 80.8K Data, 276.0K Total Previous Release: Non-Debug Version: 99.1K Code, 27.3K Data, 126.4K Total Debug Version: 192.8K Code, 79.9K Data, 272.7K Total 2) iASL Compiler/Disassembler and Tools: iASL compiler: Added compile-time support for all new ACPI 6.0 predefined names (argument count validation and return value typechecking.) iASL disassembler and table compiler: implemented support for all new ACPI 6.0 tables. This includes: DRTM, IORT, LPIT, NFIT, STAO, WPBT, XENV. iASL disassembler and table compiler: Added ACPI 6.0 changes to existing tables: FADT, MADT. iASL preprocessor: Added a new directive to enable inclusion of binary blobs into ASL code. The new directive is #includebinary. It takes a binary file as input and emits a named ascii buffer object into the ASL code. AcpiHelp: Added support for all new ACPI 6.0 predefined names. AcpiHelp: Added a new option, -d, to display all iASL preprocessor directives. AcpiHelp: Added a new option, -t, to display all known/supported ACPI tables. ---------------------------------------- 10 April 2015. Summary of changes for version 20150410: Reverted a change introduced in version 20150408 that caused a regression in the disassembler where incorrect operator symbols could be emitted. ---------------------------------------- 08 April 2015. Summary of changes for version 20150408: 1) ACPICA kernel-resident subsystem: Permanently set the return value for the _REV predefined name. It now returns 2 (was 5). This matches other ACPI implementations. _REV will be deprecated in the future, and is now defined to be 1 for ACPI 1.0, and 2 for ACPI 2.0 and later. It should never be used to differentiate or identify operating systems. Added the "Windows 2015" string to the _OSI support. ACPICA will now return TRUE to a query with this string. Fixed several issues with the local version of the printf function. Added the C99 compiler option (-std=c99) to the Unix makefiles. Current Release: Non-Debug Version: 99.9K Code, 27.4K Data, 127.3K Total Debug Version: 195.2K Code, 80.7K Data, 275.9K Total Previous Release: Non-Debug Version: 98.8K Code, 27.3K Data, 126.1K Total Debug Version: 192.1K Code, 79.8K Data, 271.9K Total 2) iASL Compiler/Disassembler and Tools: iASL: Implemented an enhancement to the constant folding feature to transform the parse tree to a simple Store operation whenever possible: Add (2, 3, X) ==> is converted to: Store (5, X)X = 2 + 3 ==> is converted to: Store (5, X) Updated support for the SLIC table (Software Licensing Description Table) in both the Data Table compiler and the disassembler. The SLIC table support now conforms to "Microsoft Software Licensing Tables (SLIC and MSDM). November 29, 2011. Copyright 2011 Microsoft". Note: Any SLIC data following the ACPI header is now defined to be "Proprietary Data", and as such, can only be entered or displayed as a hex data block. Implemented full support for the MSDM table as described in the document above. Note: The format of MSDM is similar to SLIC. Any MSDM data following the ACPI header is defined to be "Proprietary Data", and can only be entered or displayed as a hex data block. Implemented the -Pn option for the iASL Table Compiler (was only implemented for the ASL compiler). This option disables the iASL preprocessor. Disassembler: For disassembly of Data Tables, added a comment field around the Ascii equivalent data that is emitted as part of the "Raw Table Data" block. This prevents the iASL Preprocessor from possible confusion if/when the table is compiled. Disassembler: Added an option (-df) to force the disassembler to assume that the table being disassembled contains valid AML. This feature is useful for disassembling AML files that contain ACPI signatures other than DSDT or SSDT (such as OEMx or other signatures). Changes for the EFI version of the tools: 1) Fixed a build error/issue 2) Fixed a cast warning iASL: Fixed a path issue with the __FILE__ operator by making the directory prefix optional within the internal SplitInputFilename function. Debugger: Removed some unused global variables. Tests: Updated the makefile for proper generation of the AAPITS suite. ---------------------------------------- 04 February 2015. Summary of changes for version 20150204: This release is available at https://acpica.org/downloads ACPICA kernel-resident subsystem: Updated all ACPICA copyrights and signons to 2014. Added the 2014 copyright to all module headers and signons, including the standard Linux header. This affects virtually every file in the ACPICA core subsystem, iASL compiler, all ACPICA utilities, and the test suites. Events: Introduce ACPI_GPE_DISPATCH_RAW_HANDLER to fix GPE storm issues. A raw gpe handling mechanism was created to allow better handling of GPE storms that aren't easily managed by the normal handler. The raw handler allows disabling/renabling of the the GPE so that interrupt storms can be avoided in cases where events cannot be timely serviced. In this scenario, handlers should use the AcpiSetGpe() API to disable/enable the GPE. This APIwill leave the reference counts undisturbed, thereby preventing unintentionalclearing of the GPE when the intent in only to temporarily disable it. Rawhandlers allow enabling and disabling of a GPE by removing GPE registerlocking. As such, raw handlers much provide their own locks while using GPE API's to protect access to GPE data structures. Lv Zheng Events: Always modify GPE registers under the GPE lock. Applies GPE lock around AcpiFinishGpe() to protect access to GPE register values. Reported as bug by joe.liu@apple.com. Unix makefiles: Separate option to disable optimizations and _FORTIFY_SOURCE. This change removes the _FORTIFY_SOURCE flag from the NOOPT disable option and creates a separate flag (NOFORTIFY) for this purpose. Some toolchains may define _FORTIFY_SOURCE which leads redefined errors when building ACPICA. This allows disabling the option without also having to disable optimazations. David Box Current Release: Non-Debug Version: 101.7K Code, 27.9K Data, 129.6K Total Debug Version: 199.2K Code, 82.4K Data, 281.6K Total ------------------------------------------------------------- 07 November 2014. Summary of changes for version 20141107: This release is available at https://acpica.org/downloads This release introduces and implements language extensions to ASL that provide support for symbolic ("C-style") operators and expressions. These language extensions are known collectively as ASL+. 1) iASL Compiler/Disassembler and Tools: Disassembler: Fixed a problem with disassembly of the UartSerialBus macro. Changed "StopBitsNone" to the correct "StopBitsZero". David E. Box. Disassembler: Fixed the Unicode macro support to add escape sequences. All non-printable ASCII values are emitted as escape sequences, as well as the standard escapes for quote and backslash. Ensures that the disassembled macro can be correctly recompiled. iASL: Added Printf/Fprintf macros for formatted output. These macros are translated to existing AML Concatenate and Store operations. Printf writes to the ASL Debug object. Fprintf allows the specification of an ASL name as the target. Only a single format specifier is required, %o, since the AML interpreter dynamically converts objects to the required type. David E. Box. (old) Store (Concatenate (Concatenate (Concatenate (Concatenate(Concatenate (Concatenate (Concatenate ("", Arg0),": Unexpected value for "), Arg1), ", "), Arg2)," at line "), Arg3), Debug)(new) Printf ("%o: Unexpected value for %o, %o at line %o",Arg0, Arg1, Arg2, Arg3)(old) Store (Concatenate (Concatenate (Concatenate (Concatenate("", Arg1), ": "), Arg0), " Successful"), STR1)(new) Fprintf (STR1, "%o: %o Successful", Arg1, Arg0) iASL: Added debug options (-bp, -bt) to dynamically prune levels of the ASL parse tree before the AML code is generated. This allows blocks of ASL code to be removed in order to help locate and identify problem devices and/or code. David E. Box. AcpiExec: Added support (-fi) for an optional namespace object initialization file. This file specifies initial values for namespace objects as necessary for debugging and testing different ASL code paths that may be taken as a result of BIOS options. 2) Overview of symbolic operator support for ASL (ASL+) ------------------------------------------------------- As an extension to the ASL language, iASL implements support for symbolic (C-style) operators for math and logical expressions. This can greatly simplify ASL code as well as improve both readability and maintainability. These language extensions can exist concurrently with all legacy ASL code and expressions. The symbolic extensions are 100% compatible with existing AML interpreters, since no new AML opcodes are created. To implement the extensions, the iASL compiler transforms the symbolic expressions into the legacy ASL/AML equivalents at compile time. Full symbolic expressions are supported, along with the standard C precedence and associativity rules. Full disassembler support for the symbolic expressions is provided, and creates an automatic migration path for existing ASL code to ASL+ code via the disassembly process. By default, the disassembler now emits ASL+ code with symbolic expressions. An option (-dl) is provided to force the disassembler to emit legacy ASL code if desired. Below is the complete list of the currently supported symbolic operators with examples. See the iASL User Guide for additional information. ASL+ Syntax Legacy ASL Equivalent // Math operatorsZ = X + Y Add (X, Y, Z)Z = X - Y Subtract (X, Y, Z)Z = X * Y Multiply (X, Y, Z)Z = X / Y Divide (X, Y, , Z)Z = X % Y Mod (X, Y, Z)Z = X << Y ShiftLeft (X, Y, Z)Z = X >> Y ShiftRight (X, Y, Z)Z = X & Y And (X, Y, Z)Z = X | Y Or (X, Y, Z)Z = X ^ Y Xor (X, Y, Z)Z = ~X Not (X, Z)X++ Increment (X)X-- Decrement (X)// Logical operators(X == Y) LEqual (X, Y)(X != Y) LNotEqual (X, Y)(X < Y) LLess (X, Y)(X > Y) LGreater (X, Y)(X <= Y) LLessEqual (X, Y)(X >= Y) LGreaterEqual (X, Y)(X && Y) LAnd (X, Y)(X || Y) LOr (X, Y)(!X) LNot (X)// Assignment and compound assignment operationsX = Y Store (Y, X)X += Y Add (X, Y, X)X -= Y Subtract (X, Y, X)X *= Y Multiply (X, Y, X)X /= Y Divide (X, Y, , X)X %= Y Mod (X, Y, X)X <<= Y ShiftLeft (X, Y, X)X >>= Y ShiftRight (X, Y, X)X &= Y And (X, Y, X)X |= Y Or (X, Y, X)X ^= Y Xor (X, Y, X) 3) ASL+ Examples: Legacy ASL:If (LOr (LOr (LEqual (And (R510, 0x03FB), 0x02E0), LEqual (And (R520, 0x03FB), 0x02E0)), LOr (LEqual (And (R530,0x03FB),0x02E0), LEqual (And (R540, 0x03FB), 0x02E0)))){And (MEMB, 0xFFFFFFF0, SRMB)Store (MEMB, Local2)Store (PDBM, Local1)And (PDBM, 0xFFFFFFFFFFFFFFF9, PDBM)Store (SRMB,
  25. Version .aml

    147 downloads

    Hi all! This is my DSDT for HP Pavilion g6 2207sg: CPU: Intel Core i7-3632QM, 4x 2.20GHz RAM: 8GB Graphic: IntelHD 4000 1024MB, HDMI Display: 15.6″, 1366×768 2x USB 3.0, 1x USB 2.0, LAN Wireless: WLAN 802.11bgn and SSDT for i7-3632QM that's all created by a professional programmer. It works without issues, except the AMD Radeon graphics card - graphics card switching is not possible in Hackintosh and the card reader. Best regards