Jump to content
Sign in to follow this  
Followers 0
Phathak

Besoin d'aide post install sur 10.11.5

3 posts in this topic

Recommended Posts

Bonjour à tous!

 

Je viens tout juste de découvrir qu'il y avait une section en français ici! C'est super!

 

J'aurais besoin de l'aide de quelques experts ici. Je crois que ce n'est rien de bien compliqué pour quelqu'un qui s'y connait, mais pour moi, c'est quasiment du chinois et j'aimerais bien avoir une meilleure compréhension de l'utilité de tout ces kexts et qu'est-ce qui fait quoi. Bref, voici ce qui à été fait :

 

Installation d'OS X 10.11.5 avec Clover sur mon système. Aucun kext n'a été installé. Clover est seulement installé sur une clé usb. J'aurais besoin de l'installer sur le ssd principal pour ne plus dépendre de cette clé pour démarrer l'ordi. La méthode d'installation qui à été utilisé est celle de RampageDev.

 

Le hack fonctionne lentement. Il est clair que j'ai besoin de drivers graphique et plein d'autres trucs. Et c'est là que j'aurais besoin de votre aide. Je ne sais pas quoi installer et j'ai peur de tout cassé.

 

Ma config :

 

Carte mère : Gigabyte X79-UD5

GPU :Gigabyte 660ti

CPU : Intel 3930K

Storage: 6 ou 7 hdd en sata

 

Merci à l'avance!

Share this post


Link to post
Share on other sites
Advertisement

Ben... tu installes tout simplement Clover sur ton SSD et tu copies ton repertoire EFI/Clover depuis ta clé sur la partition EFI (cachée) de ton SSD. Ca doit ensuite pouvoir démarrer a l'identique mais directement depuis le SSD.

 

Pour finaliser ta configuration, il faut que tu listes tes specifications hardware: carte LAN, wifi, carte audio, carte SD, etc. de manière a pouvoir identifier ce qui convient en terme de pilotes. Il faudra ensuite que tu créées la table SSDT de gestion du CPU avec le générateur de SSDT de Pike R Alpha. Tu devra aussi t'assurer d'activer l'option AsusAICPUPM de Clover pour éviter les Kernel Panic. C'est peut-être deja fait sauf si tu utilises the NullCPUPowerManagement ce qui expliquerait la lenteur de ton système (car pas de gestion CPU native).

 

Pour ta nVidia GeForce GTX 660Ti, je crois qu'il ne faut pas sélectionner "Inject nVidia" dans le fichier de conf Clover pour qu'elle soit détectée et fonctionne correctement.

 

Ton CPU, c'est bien un Sandy Bridge E i7-3930K 6coeurs?

Share this post


Link to post
Share on other sites

Merci pour l'info sur Clover. Je croyais pas que c'était si simple!

 

Pour ce qui est des specifications, voici ce que j'ai trouvé concernant le LAN (je n'utilise pas le Wifi sur cette machine), l'audio, les cartes d'expensions, les prises sata et les ports USB (USB 3 que j'aimerais bien faire fonctioner).

 

------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

LAN

  1. 1 x Intel GbE LAN (10/100/1000 Mbit)

 

Audio

  1. Realtek ALC898 codec

  2. High Definition Audio

  3. 2/4/5.1/7.1-channel

  4. Support for Dolby® Home Theater

  5. Support for S/PDIF Out

 

 

Expansion Slots

  1. 2 x PCI Express x16 slots, running at x16 (PCIEX16_1/PCIEX16_2)
    * For optimum performance, if only one PCI Express graphics card is to be installed, be sure to install it in the PCIEX16_1 slot; if you are installing two PCI Express graphics cards, it is recommended that you install them in the PCIEX16_1 and PCIEX16_2 slots.

  2. 1 x PCI Express x16 slot, running at x8 (PCIEX8)
    (All PCI Express x16 slots conform to PCI Express 3.0 standard.)

  3. 2 x PCI Express x1 slots
    (All PCI Express x1 slots conform to PCI Express 2.0 standard.)

  4. 1 x PCI slot

 

 

Storage InterfaceChipset:

  1. 2 x SATA 6Gb/s connectors (SATA3 0/SATA3 1) supporting up to 2 SATA 6Gb/s devices

  2. 4 x SATA 3Gb/s connectors (SATA2 2~SATA2 5) supporting up to 4 SATA 3Gb/s devices

  3. Support for RAID 0, RAID 1, RAID 5, and RAID 10
    * When a RAID set is built across the SATA 6Gb/s and SATA 3Gb/s channels, the system performance of the RAID set may vary depending on the devices being connected.

3 x Marvell 88SE9172 chips:

  1. 4 x SATA 6Gb/s connectors (GSATA3 6~GSATA3 9) supporting up to 4 SATA 6Gb/s devices

  2. 2 x eSATA 6Gb/s connectors (including 1 eSATA/USB Combo) on the back panel supporting up to 2 SATA 6Gb/s devices

  3. Support for SATA RAID 0 and RAID 1

 

 

USBChipset:

  1. Up to 14 USB 2.0/1.1 ports (8 ports on the back panel, including 1 eSATA/USB Combo, 6 ports available through the internal USB headers)

2 x Fresco FL1009 chips:

  1. Up to 4 USB 3.0/2.0 ports (2 ports on the back panel, 2 ports available through the internal USB headers)

------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

 

Tu devra aussi t'assurer d'activer l'option AsusAICPUPM de Clover pour éviter les Kernel Panic.

 

Qu'est-ce que fait cet option? Je ne crois pas que je j'ai de kernel panic. J'ai remarqué, par contre, que lorsque je laisse l'ordi en marche trop longtemps, je suppose qu'il tombe en veille, mais ne je réveille pas. La machine roule toujours mais impossible de ravoir l'écran ou de m'y connecter en VNC.

 

Je vais vérifier le contenu de ma config de Clover et la copier ici au besoin.

 

Merci!

Je te tiens au courant!

Share this post


Link to post
Share on other sites

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
Sign in to follow this  
Followers 0

  • Recently Browsing   0 members

    No registered users viewing this page.

  • Similar Content

    • By Andy Vandijck
      I decided to extract the immutablekernel for Catalina 10.15.3.
      I had to add a FAT header but it extracts just fine.
      Thanks to this we have the kernel and kexts for the immutablekernel.
      The info dictionary and lists are also included.
      Needs further study if it contains extras compared to the prelinkedkernel.
      Maybe we can find out what those .im4m files (for example immutablekernel.x589iclydev.im4m) are thanks to this.
       
      Enjoy
      immutablekernel.zip
    • By fusion71au
      Clover r5101 ISO compiled with GCC and minimal config.plist compatible for use in VMWare Workstation.
       
      Tested with unlocked Workstation 15 running OSX 10.9 -->10.15 guest in Windows X64 host.
       
      Installation
      1. Download and unzip "EFI_Clover_r5101 for VMware.zip". Mount Clover-v2.5k-5101-X64.iso by double clicking on it.
      2. Mount your VM's EFI System Partition eg in terminal
      sudo diskutil mount disk0s1   3. Copy EFI folder from step 1 into the EFI partition
      4. Shutdown the VM, add bios.bootDelay = "3000" to your VM's vmx file
      5. Reboot your VM, press <F2> to access the VMware Boot Manager and add CLOVERX64.efi to the boot menu.
       
      Substitute your own unique and valid MLB and ROM variables in the /EFI/CLOVER/config.plist (Rt Variables section) to activate iMessage/Facetime on your VM.
    • By ludufre
      Novo guia para o macOS Catalina 10.15 (versões i3 e i5)!
      Obs.: Somente em inglês :/
       
       
       
      Instalando OS X El Capitan 10.11.5 no ASUS VivoBook S400C (também conhecido como S400CA)
      Especificamente no modelo S400CA-CA178H, provavelmente os outros modelos serão compatíveis
       
        
       
      Atualização 26/06/16 #1:
      - Adicionado correção para a logo no segundo estágio de boot em <KextsToPatch> no config.plist do Clover. (não está nos anexos)
       
       
      O que funciona e o que não funciona
       
      - Processador ->  Funciona. i5-3317U @ 1.7Ghz/2.6Ghz.  SpeedStep 8 a 26 estágios. AsusAICPUPM <true/> no Clover config.plist.  - Placa de vídeo ->  Funciona. HD4000. QE/CI completo. - Chipset ->  Funciona. - HDMI ->  Funciona. - VGA ->  Não funciona. - Som ->  Funciona. VoodooHDA 2.8.8 (use o arquivo PKG). - WiFi ->  Funciona. Substituída pela Athero 9285 Wifi/Bluetooth (http://lista.mercadolivre.com.br/atheros-9285#D[A:atheros-9285]). - Rede ->  Funciona. AtherosE2200Ethernet 2.1.0. - Teclado e touchpad ->  Funciona. ELAN, FocalTech and Synaptics (Smart Touchpad) Driver (Mac OS X) (versão 4.6). - Teclas FN do teclado ->  Funciona. Alterado "FN keys layout" na kext ELAN acima. - Controle do brilho ->  Funciona. DSDT patch (abaixo). - Repouso/Sleep ->  Não funciona. A tela desliga mas não entra em standby. - Bateria ->  Funciona. ACPIBatteryManager by RehabMan (versão 2016-0531) e DSDT patch (abaixo). - Leitor de cartão ->  Não funciona. - Câmera integrada ->  Funciona. AnyiSightCam. - Bluetooth ->  Funciona. Bluetooth Firmware Uploader (versão 3.1). - Segundo estágio da logo no boot ->  Funciona. Correção para adicionar em <KextsToPatch> abaixo.    
      O que você precisa para instalar
       
      - Instalação do El Capitan funcionando no VMware -> Baixei a versão 10.11 por torrent (busque torrent por "10.11 vmware"). Você pode usar um Mac real de um amigo. Meu método só funciona no Mavericks (10.9) e acima.
      - Um pendrive de 8GB ou maior.
      - App de instalação do OS X El Capitan -> Baixe na App Store por dentro da máquina virtual. Baixei a versão 10.11.5.
      - CloverEFI -> Também baixe por dentro da máquina virtual. Eu usei a compilação 3577.
      - Habilidade em DSDT patch-> Necessário para a bateria funcionar. [Guia] DSDT/SSDT - Conhecimentos Gerais. Ou você pode baixar o meu DSDT abaixo, mas eu não recomendo.
       
       
      Como criar o pendrive
       
      Criando a instalação:
       
      Formate o pendrive com partição GUID e nomeie como "Install"
       
      Abra o terminal e execute o comando:
       
       
      Isso vai levar 30 minutos.

      Instalando o bootloader:
       
      Baixe o CloverEFI (usei 3577) e instale com essas opções em "Install OS X El Capitan":

      Opções:
       
      - Install for UEFI booting only
      - Install Clover in the ESP
      - Drivers64UEFI - CsmVideoDxe-64
      - Drivers64UEFI - OsxAptioFixDrv-64
       
      Vai ser criado uma partição com nome EFI. Edite o arquivo /EFI/CLOVER/config.plist e altere os seguintes valores:
        - Graphics - Inject - ATI - <false/> - Graphics - Inject - Intel - <true/> - Graphics - ig-platform-id - 0x01660003 - KernelAndKextPatches - AsusAICPUPM - <true/>   Importante: Renomeie "#Inject" para "Inject" e "#ig-platform-id" para "ig-platform-id".   Obs.: Vou deixar em anexo meu config.plist.   Agora você vai precisar dessas duas Kexts:
       
      - Baixar a kext Smart Touchpad. Eu usei a versão 4.6.
      - Baixar o dmg do HWSensors e utilizar a FakeSMC.kext de dentro. Eu usei a versão 6.20.1410. Isso é muito importante. Não dá pra dar boot sem ele.
      - Coloque essas Kexts dentro de /EFI/CLOVER/kexts/10.11/
      - Coloque o instalador do Clover dentro do pendrive também.
       
      Agora você pode iniciar a inalação sem problema (eu acho).
       
       
      Configuração do Setup da BIOS e Instalação
       
      - Desligue o ultrabook e insira o pendrive.
      - Ligue com a tecla F2 apertada para entrar no Setup da BIOS.
      - Vá para "Save & Exit" e selecione "Restore Defaults".
      - Vá para aba "Advanced" e altere esses valores:
      - Intel Virtualization Technology: Disabled
      - VT-d: Disabled
      - USB Configuration - XHCI Pre-Boot Mode: Disabled
      - Vá para "Save & Exit" novamente e selecione "Save Changes".
      - Agora na seção "Boot Override" selecione o pendrive que vai estar com onome começando com UEFI. No meu caso "UEFI: KingstonDataTraveler 2.0PMAP".
      - O menu do Clover vai aparecer. Use as setas do teclado para selecionar o pendrive. Vai até a opção com o nome de "Boot OS X Install from Install OS X El Capitan", então aperter Enter.
      - Se você fez tudo corretamente, sua instalação vai inciar. Lembre-se: Formatar o HDD ou SSD com partição GUID.
      - Isso vai levar cerca de 20 minutos.
      - Depois da instalação da primeira parte o sistema vai reiniciar. Você precisa segurar o botão ESC para entrar no menu de Boot quando aparecer a logo da Asus.
      - Selecione o pendrive novamente.
      - No menu do Clover, aperte Enter em "Boot OS X Install from Install OS X El Capitan" mais uma vez.
      - A segunda parte da instalação vai começar. Isso leva cerca de 16 minutos.
       
      Pós instalação
       
      - Quando a segunda parte da instalação acabar, o sistema vai reiniciar novamente.
      - Após realizar a configuração inicial de usuário e ir para a área de trabalho, você precisará instalar o Clover no disco interno.
      - Abra o instalador do Clover dentro do pendrive que você copiou anteriormente.
      - Use as mesmas opções acima mas dessa vez escolha o a partição do sistema.
      - Agora você precisa substituir a pasta EFI de dentro da partição EFI do disco interno com a pasta EFI da partição EFI do pendrive.
      - A partição EFI do pendrive não vai estar montada. Monde com "diskutil mount /dev/rdiskXs1". Para saber qual é o X, use "diskutil list", mas provavelmente será 1.
      - Agora reinicie o sistema. Você vai precisar apertar ESC para entrar no menu de Boot quando aparecer a logo da Asus.
      - Selecione o pendrive novamente.
      - No menu do Clove, use as setas do teclado e vá para a última opção com nome "Clover Boot Options" e aperte Espaço. - Selecione a opção "Add Clover boot options for all entries".
      - Desligue, remova o pendrive e ligue.
      - Se você fez tudo corretamente, o sistema vai iniciar normalmente.
       
      Outras Kexts:
       
      Baixe as kexts nos links abaixo. Eu recomendo fortemente sempre usar versões mais novas. Se você estiver com preguiça, eu anexei no final desse post.
       
      Rede: AtherosE2200Ethernet 2.1.0
      Som: VoodooHDA 2.8.8 (use o arquivo PKG). Você precisa selecionar a saída nas Preferências do Sistemas após reiniciar.
      Bateria: ACPIBatteryManager by RehabMan (versão 2016-0531). Você precisa do path DSDT (abaixo).
      Bluetooth: Bluetooth Firmware Uploader (versão 3.1).
      Câmera integrada: AnyiSightCam
       
      Todas as kexts devem ser colocadas em /EFI/CLOVER/kexts/10.11/, monde essa partição novamente (diskutil mount /dev/rdiskXs1) pra isso.
       
      Teclas FN:
      Abra "ApplePS2SmartTouchPad.kext/Contents/Plugins/ApplePS2Keyboard.kext/Contents/Info.plist" e altere:
      <key>Fn keys Layout</key> <string>NONE</string> <key>Fn keys Mode</key> <integer>2</integer> Para:
      <key>Fn keys Layout</key> <string>ASUS</string> <key>Fn keys Mode</key> <integer>3</integer>   Correção do segundo estágio de boot:
      Adicionar em /EFI/CLOVER/config.plist dentro de KextsToPatch
      <dict> <key>Comment</key> <string>HD 4000 Logo Fix</string> <key>Find</key> <data> AQAAdRc= </data> <key>Name</key> <string>IOGraphicsFamily</string> <key>Replace</key> <data> AQAA6xc= </data> </dict> Path DSDT da bateria:
      #Maintained by: RehabMan for: Laptop Patches #battery_ASUS-N55SL.txt # created by RehabMan 8/12/2013 # created originally for jesselid # works for: # ASUS N55SL, BIOS rev. 204 # ASUS VivoBook series # ASUS Zenbook UX31A # ASUS UX301LA # ASUS X553E-SX399V # ASUS F501A # ASUS K55VM # ASUS U46SV, BIOS rev. 2.04 # ASUS N43 # ASUS PU500CA (90NB00F1-M01120) # ASUS N73SV # ASUS X401A-WX108 # ASUS F551CA Bios rev. 207 # ASUS S551LB VivoBook # ASUS ZenBook UX32VD # ASUS F550L-X455H # ASUS X53S # ASUS K550JD-XX003H # ASUS G53SX # ASUS K56CB # ASUS UX305 into method label B1B2 remove_entry; into definitionblock code_regex . insert begin Method (B1B2, 2, NotSerialized) { Return (Or (Arg0, ShiftLeft (Arg1, 8))) }\n end; # not really for battery, but might come in handy to read fan speed(s) into device label EC0 code_regex TAH0,\s+16 replace_matched begin TH00,8,TH01,8 end; into device label EC0 code_regex TAH1,\s+16 replace_matched begin TH10,8,TH11,8 end; into method label TACH code_regex \(TAH0, replace_matched begin (B1B2(TH00,TH01), end; into method label TACH code_regex \(TAH1, replace_matched begin (B1B2(TH10,TH11), end; into method label GFAN code_regex \(\\_SB\.PCI0\.LPCB\.EC0\.TAH0, replace_matched begin (B1B2(\\_SB.PCI0.LPCB.EC0.TH00,\\_SB.PCI0.LPCB.EC0.TH01), end; # battery EC into device label EC0 code_regex B0SN,\s+16 replace_matched begin B0S0,8,B0S1,8 end; into device label EC0 code_regex B1SN,\s+16 replace_matched begin B1S0,8,B1S1,8 end; into method label BIFA code_regex \(B0SN, replace_matched begin (B1B2(B0S0,B0S1), end; into method label BIFA code_regex \(B1SN, replace_matched begin (B1B2(B1S0,B1S1), end; into device label EC0 code_regex DT2B,\s+16 replace_matched begin T2B0,8,T2B1,8 end; into method label SMBR code_regex \(DT2B, replace_matched begin (B1B2(T2B0,T2B1), end; into method label SMBW code_regex Store\s+\(([^,]*),\s+DT2B\) replace_matched begin Store(%1,T2B0) Store(ShiftRight(%1,8),T2B1) end; into device label EC0 insert begin Method (RDBA, 0, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (BA00, Index(TEMP, 0x00))\n Store (BA01, Index(TEMP, 0x01))\n Store (BA02, Index(TEMP, 0x02))\n Store (BA03, Index(TEMP, 0x03))\n Store (BA04, Index(TEMP, 0x04))\n Store (BA05, Index(TEMP, 0x05))\n Store (BA06, Index(TEMP, 0x06))\n Store (BA07, Index(TEMP, 0x07))\n Store (BA08, Index(TEMP, 0x08))\n Store (BA09, Index(TEMP, 0x09))\n Store (BA0A, Index(TEMP, 0x0A))\n Store (BA0B, Index(TEMP, 0x0B))\n Store (BA0C, Index(TEMP, 0x0C))\n Store (BA0D, Index(TEMP, 0x0D))\n Store (BA0E, Index(TEMP, 0x0E))\n Store (BA0F, Index(TEMP, 0x0F))\n Store (BA10, Index(TEMP, 0x10))\n Store (BA11, Index(TEMP, 0x11))\n Store (BA12, Index(TEMP, 0x12))\n Store (BA13, Index(TEMP, 0x13))\n Store (BA14, Index(TEMP, 0x14))\n Store (BA15, Index(TEMP, 0x15))\n Store (BA16, Index(TEMP, 0x16))\n Store (BA17, Index(TEMP, 0x17))\n Store (BA18, Index(TEMP, 0x18))\n Store (BA19, Index(TEMP, 0x19))\n Store (BA1A, Index(TEMP, 0x1A))\n Store (BA1B, Index(TEMP, 0x1B))\n Store (BA1C, Index(TEMP, 0x1C))\n Store (BA1D, Index(TEMP, 0x1D))\n Store (BA1E, Index(TEMP, 0x1E))\n Store (BA1F, Index(TEMP, 0x1F))\n Return (TEMP)\n }\n end; into device label EC0 insert begin Method (WRBA, 1, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (Arg0, TEMP)\n Store (DerefOf(Index(TEMP, 0x00)), BA00)\n Store (DerefOf(Index(TEMP, 0x01)), BA01)\n Store (DerefOf(Index(TEMP, 0x02)), BA02)\n Store (DerefOf(Index(TEMP, 0x03)), BA03)\n Store (DerefOf(Index(TEMP, 0x04)), BA04)\n Store (DerefOf(Index(TEMP, 0x05)), BA05)\n Store (DerefOf(Index(TEMP, 0x06)), BA06)\n Store (DerefOf(Index(TEMP, 0x07)), BA07)\n Store (DerefOf(Index(TEMP, 0x08)), BA08)\n Store (DerefOf(Index(TEMP, 0x09)), BA09)\n Store (DerefOf(Index(TEMP, 0x0A)), BA0A)\n Store (DerefOf(Index(TEMP, 0x0B)), BA0B)\n Store (DerefOf(Index(TEMP, 0x0C)), BA0C)\n Store (DerefOf(Index(TEMP, 0x0D)), BA0D)\n Store (DerefOf(Index(TEMP, 0x0E)), BA0E)\n Store (DerefOf(Index(TEMP, 0x0F)), BA0F)\n Store (DerefOf(Index(TEMP, 0x10)), BA10)\n Store (DerefOf(Index(TEMP, 0x11)), BA11)\n Store (DerefOf(Index(TEMP, 0x12)), BA12)\n Store (DerefOf(Index(TEMP, 0x13)), BA13)\n Store (DerefOf(Index(TEMP, 0x14)), BA14)\n Store (DerefOf(Index(TEMP, 0x15)), BA15)\n Store (DerefOf(Index(TEMP, 0x16)), BA16)\n Store (DerefOf(Index(TEMP, 0x17)), BA17)\n Store (DerefOf(Index(TEMP, 0x18)), BA18)\n Store (DerefOf(Index(TEMP, 0x19)), BA19)\n Store (DerefOf(Index(TEMP, 0x1A)), BA1A)\n Store (DerefOf(Index(TEMP, 0x1B)), BA1B)\n Store (DerefOf(Index(TEMP, 0x1C)), BA1C)\n Store (DerefOf(Index(TEMP, 0x1D)), BA1D)\n Store (DerefOf(Index(TEMP, 0x1E)), BA1E)\n Store (DerefOf(Index(TEMP, 0x1F)), BA1F)\n }\n end; into device label EC0 code_regex BDAT,\s+256 replace_matched begin //BDAT, 256,\n BA00,8,BA01,8,BA02,8,BA03,8,\n BA04,8,BA05,8,BA06,8,BA07,8,\n BA08,8,BA09,8,BA0A,8,BA0B,8,\n BA0C,8,BA0D,8,BA0E,8,BA0F,8,\n BA10,8,BA11,8,BA12,8,BA13,8,\n BA14,8,BA15,8,BA16,8,BA17,8,\n BA18,8,BA19,8,BA1A,8,BA1B,8,\n BA1C,8,BA1D,8,BA1E,8,BA1F,8\n end; into method label SMBR code_regex \(BDAT, replaceall_matched begin (RDBA(), end; into method label SMBR code_regex Store\s\((.*),\sBDAT\) replaceall_matched begin WRBA(%1) end; into method label SMBW code_regex Store\s\((.*),\sBDAT\) replaceall_matched begin WRBA(%1) end; into method label ECSB code_regex Store\s\((.*),\sBDAT\) replaceall_matched begin WRBA(%1) end; into method label ECSB code_regex \(BDAT, replaceall_matched begin (RDBA(), end; into device label EC0 insert begin Method (RDBB, 0, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (BB00, Index(TEMP, 0x00))\n Store (BB01, Index(TEMP, 0x01))\n Store (BB02, Index(TEMP, 0x02))\n Store (BB03, Index(TEMP, 0x03))\n Store (BB04, Index(TEMP, 0x04))\n Store (BB05, Index(TEMP, 0x05))\n Store (BB06, Index(TEMP, 0x06))\n Store (BB07, Index(TEMP, 0x07))\n Store (BB08, Index(TEMP, 0x08))\n Store (BB09, Index(TEMP, 0x09))\n Store (BB0A, Index(TEMP, 0x0A))\n Store (BB0B, Index(TEMP, 0x0B))\n Store (BB0C, Index(TEMP, 0x0C))\n Store (BB0D, Index(TEMP, 0x0D))\n Store (BB0E, Index(TEMP, 0x0E))\n Store (BB0F, Index(TEMP, 0x0F))\n Store (BB10, Index(TEMP, 0x10))\n Store (BB11, Index(TEMP, 0x11))\n Store (BB12, Index(TEMP, 0x12))\n Store (BB13, Index(TEMP, 0x13))\n Store (BB14, Index(TEMP, 0x14))\n Store (BB15, Index(TEMP, 0x15))\n Store (BB16, Index(TEMP, 0x16))\n Store (BB17, Index(TEMP, 0x17))\n Store (BB18, Index(TEMP, 0x18))\n Store (BB19, Index(TEMP, 0x19))\n Store (BB1A, Index(TEMP, 0x1A))\n Store (BB1B, Index(TEMP, 0x1B))\n Store (BB1C, Index(TEMP, 0x1C))\n Store (BB1D, Index(TEMP, 0x1D))\n Store (BB1E, Index(TEMP, 0x1E))\n Store (BB1F, Index(TEMP, 0x1F))\n Return (TEMP)\n }\n end; into device label EC0 insert begin Method (WRBB, 1, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (Arg0, TEMP)\n Store (DerefOf(Index(TEMP, 0x00)), BB00)\n Store (DerefOf(Index(TEMP, 0x01)), BB01)\n Store (DerefOf(Index(TEMP, 0x02)), BB02)\n Store (DerefOf(Index(TEMP, 0x03)), BB03)\n Store (DerefOf(Index(TEMP, 0x04)), BB04)\n Store (DerefOf(Index(TEMP, 0x05)), BB05)\n Store (DerefOf(Index(TEMP, 0x06)), BB06)\n Store (DerefOf(Index(TEMP, 0x07)), BB07)\n Store (DerefOf(Index(TEMP, 0x08)), BB08)\n Store (DerefOf(Index(TEMP, 0x09)), BB09)\n Store (DerefOf(Index(TEMP, 0x0A)), BB0A)\n Store (DerefOf(Index(TEMP, 0x0B)), BB0B)\n Store (DerefOf(Index(TEMP, 0x0C)), BB0C)\n Store (DerefOf(Index(TEMP, 0x0D)), BB0D)\n Store (DerefOf(Index(TEMP, 0x0E)), BB0E)\n Store (DerefOf(Index(TEMP, 0x0F)), BB0F)\n Store (DerefOf(Index(TEMP, 0x10)), BB10)\n Store (DerefOf(Index(TEMP, 0x11)), BB11)\n Store (DerefOf(Index(TEMP, 0x12)), BB12)\n Store (DerefOf(Index(TEMP, 0x13)), BB13)\n Store (DerefOf(Index(TEMP, 0x14)), BB14)\n Store (DerefOf(Index(TEMP, 0x15)), BB15)\n Store (DerefOf(Index(TEMP, 0x16)), BB16)\n Store (DerefOf(Index(TEMP, 0x17)), BB17)\n Store (DerefOf(Index(TEMP, 0x18)), BB18)\n Store (DerefOf(Index(TEMP, 0x19)), BB19)\n Store (DerefOf(Index(TEMP, 0x1A)), BB1A)\n Store (DerefOf(Index(TEMP, 0x1B)), BB1B)\n Store (DerefOf(Index(TEMP, 0x1C)), BB1C)\n Store (DerefOf(Index(TEMP, 0x1D)), BB1D)\n Store (DerefOf(Index(TEMP, 0x1E)), BB1E)\n Store (DerefOf(Index(TEMP, 0x1F)), BB1F)\n }\n end; into device label EC0 code_regex BDA2,\s+256 replace_matched begin //BDA2, 256,\n BB00,8,BB01,8,BB02,8,BB03,8,\n BB04,8,BB05,8,BB06,8,BB07,8,\n BB08,8,BB09,8,BB0A,8,BB0B,8,\n BB0C,8,BB0D,8,BB0E,8,BB0F,8,\n BB10,8,BB11,8,BB12,8,BB13,8,\n BB14,8,BB15,8,BB16,8,BB17,8,\n BB18,8,BB19,8,BB1A,8,BB1B,8,\n BB1C,8,BB1D,8,BB1E,8,BB1F,8\n end; into method label SMBR code_regex \(BDA2, replaceall_matched begin (RDBB(), end; into method label SMBR code_regex Store\s\((.*),\sBDA2\) replaceall_matched begin WRBB(%1) end; into method label SMBW code_regex Store\s\((.*),\sBDA2\) replaceall_matched begin WRBB(%1) end; into method label ECSB code_regex Store\s\((.*),\sBDA2\) replaceall_matched begin WRBB(%1) end; into method label ECSB code_regex \(BDA2, replaceall_matched begin (RDBB(), end; # additional work for _BIX method present in some ASUS laptops into device label EC0 code_regex B0C3,\s+16 replace_matched begin XC30,8,XC31,8 end; into device label EC0 code_regex B1C3,\s+16 replace_matched begin YC30,8,YC31,8 end; into_all method label _BIX code_regex \(\^\^LPCB\.EC0\.B0C3, replaceall_matched begin (B1B2(^^LPCB.EC0.XC30,^^LPCB.EC0.XC31), end; into_all method label _BIX code_regex \(\^\^LPCB\.EC0\.B1C3, replaceall_matched begin (B1B2(^^LPCB.EC0.YC30,^^LPCB.EC0.YC31), end; # or could remove the _BIX method if it turns out not to work #into_all method label _BIX remove_entry; Path do brilho
      #Maintained by: RehabMan for: Laptop Patches #graphics_PNLF_ivy_sandy.txt # This patch enables the brightness slider in SysPrefs->Displays # and will also enable activation of sleep mode by closing # the laptop lid. # # This particular version is intended to be used with ACPIBacklight.kext # although it can also be used with AppleBacklight.kext, # provided AppleBacklight.kext is patched to recognize your # display or an injector is used to set brightness levels. # # See this thread for more information: # http://www.tonymacx86.com/hp-probook-mavericks/121031-native-brightness-working-without-blinkscreen-using-patched-applebacklight-kext.html # (also read any linked threads) # # # Note: This patch should be applied to the DSDT or SSDT that defines # your integrated graphics device (always at _ADR 0x00020000) # into_all device label PNLF remove_entry; into_all device name_adr 0x00020000 code_regex (OperationRegion\s\(RMPC,\sPCI_Config[^\}]*\}) remove_matched; into device name_adr 0x00020000 insert begin OperationRegion (RMPC, PCI_Config, 0x10, 4)\n Field (RMPC, AnyAcc, NoLock, Preserve)\n {\n BAR1,32,\n }\n Device (PNLF)\n {\n // normal PNLF declares (note some of this probably not necessary)\n Name (_ADR, Zero)\n Name (_HID, EisaId ("APP0002"))\n Name (_CID, "backlight")\n Name (_UID, 10)\n Name (_STA, 0x0B)\n //define hardware register access for brightness\n // lower nibble of BAR1 is status bits and not part of the address\n OperationRegion (BRIT, SystemMemory, And(^BAR1, Not(0xF)), 0xe1184)\n Field (BRIT, AnyAcc, Lock, Preserve)\n {\n Offset(0x48250),\n LEV2, 32,\n LEVL, 32,\n Offset(0x70040),\n P0BL, 32,\n Offset(0xc8250),\n LEVW, 32,\n LEVX, 32,\n Offset(0xe1180),\n PCHL, 32,\n }\n // DEB1 special for setting KLVX at runtime...\n //Method (DEB1, 1, NotSerialized)\n //{\n // Store(Arg0, KLVX)\n //}\n // LMAX: use 0x710 to force OS X value\n // or use any arbitrary value\n // or use 0 to capture BIOS setting\n Name (LMAX, 0x710)\n // KMAX: defines the unscaled range in the _BCL table below\n Name (KMAX, 0x710)\n // KPCH: saved value for PCHL\n Name(KPCH, 0)\n // _INI deals with differences between native setting and desired\n Method (_INI, 0, NotSerialized)\n {\n // save value of PCHL for later\n Store(PCHL, KPCH)\n // determine LMAX to use\n If (LNot(LMAX)) { Store(ShiftRight(LEVX,16), LMAX) }\n If (LNot(LMAX)) { Store(KMAX, LMAX) }\n Store(ShiftLeft(LMAX,16), KLVX)\n If (LNotEqual(LMAX, KMAX))\n {\n // Scale all the values in _BCL to the PWM max in use\n Store(0, Local0)\n While (LLess(Local0, SizeOf(_BCL)))\n {\n Store(DerefOf(Index(_BCL,Local0)), Local1)\n Divide(Multiply(Local1,LMAX), KMAX,, Local1)\n Store(Local1, Index(_BCL,Local0))\n Increment(Local0)\n }\n // Also scale XRGL and XRGH values\n Divide(Multiply(XRGL,LMAX), KMAX,, XRGL)\n Divide(Multiply(XRGH,LMAX), KMAX,, XRGH)\n }\n // adjust values to desired LMAX\n Store(ShiftRight(LEVX,16), Local1)\n If (LNotEqual(Local1, LMAX))\n {\n Store(LEVL, Local0)\n If (LOr(LNot(Local0),LNot(Local1))) { Store(LMAX, Local0) Store(LMAX, Local1) }\n Divide(Multiply(Local0,LMAX), Local1,, Local0)\n //REVIEW: wait for vblank before setting new PWM config\n //Store(P0BL, Local7)\n //While (LEqual (P0BL, Local7)) {}\n If (LGreater(LEVL, LMAX))\n { Store(KLVX, LEVX) Store(Local0, LEVL) }\n Else\n { Store(Local0, LEVL) Store(KLVX, LEVX) }\n }\n }\n // _BCM/_BQC: set/get for brightness level\n Method (_BCM, 1, NotSerialized)\n {\n // initialize for consistent backlight level before/after sleep\n If (LNotEqual(PCHL, KPCH)) { Store(KPCH, PCHL) }\n If (LNotEqual(LEVW, 0x80000000)) { Store (0x80000000, LEVW) }\n If (LNotEqual(LEVX, KLVX)) { Store (KLVX, LEVX) }\n // store new backlight level\n Store(Match(_BCL, MGE, Arg0, MTR, 0, 2), Local0)\n If (LEqual(Local0, Ones)) { Subtract(SizeOf(_BCL), 1, Local0) }\n If (LNotEqual(LEV2, 0x80000000)) { Store(0x80000000, LEV2) }\n Store(DerefOf(Index(_BCL, Local0)), LEVL)\n }\n Method (_BQC, 0, NotSerialized)\n {\n Store(Match(_BCL, MGE, LEVL, MTR, 0, 2), Local0)\n If (LEqual(Local0, Ones)) { Subtract(SizeOf(_BCL), 1, Local0) }\n Return(DerefOf(Index(_BCL, Local0)))\n }\n Method (_DOS, 1, NotSerialized)\n {\n // Note: Some systems have this defined in DSDT, so uncomment\n // the next line if that is the case.\n //External(^^_DOS, MethodObj)\n ^^_DOS(Arg0)\n }\n // extended _BCM/_BQC for setting "in between" levels\n Method (XBCM, 1, NotSerialized)\n {\n // initialize for consistent backlight level before/after sleep\n If (LNotEqual(PCHL, KPCH)) { Store(KPCH, PCHL) }\n If (LNotEqual(LEVW, 0x80000000)) { Store (0x80000000, LEVW) }\n If (LNotEqual(LEVX, KLVX)) { Store (KLVX, LEVX) }\n // store new backlight level\n If (LGreater(Arg0, XRGH)) { Store(XRGH, Arg0) }\n If (LAnd(Arg0, LLess(Arg0, XRGL))) { Store(XRGL, Arg0) }\n If (LNotEqual(LEV2, 0x80000000)) { Store(0x80000000, LEV2) } \n Store(Arg0, LEVL)\n }\n Method (XBQC, 0, NotSerialized)\n {\n Store(LEVL, Local0)\n If (LGreater(Local0, XRGH)) { Store(XRGH, Local0) }\n If (LAnd(Local0, LLess(Local0, XRGL))) { Store(XRGL, Local0) }\n Return(Local0)\n }\n // Use XOPT=1 to disable smooth transitions\n Name (XOPT, Zero)\n // XRGL/XRGH: defines the valid range\n Name (XRGL, 40)\n Name (XRGH, 1808)\n // KLVX is initialization value for LEVX\n Name (KLVX, 0x7100000)\n // _BCL: returns list of valid brightness levels\n // first two entries describe ac/battery power levels\n Name (_BCL, Package()\n {\n 1808,\n 479,\n 0,\n 53, 55, 57, 59,\n 62, 66, 71, 77,\n 83, 91, 99, 108,\n 119, 130, 142, 154,\n 168, 183, 198, 214,\n 232, 250, 269, 289,\n 309, 331, 354, 377,\n 401, 426, 453, 479,\n 507, 536, 566, 596,\n 627, 660, 693, 727,\n 762, 797, 834, 872,\n 910, 949, 990, 1031,\n 1073, 1115, 1159, 1204,\n 1249, 1296, 1343, 1391,\n 1440, 1490, 1541, 1592,\n 1645, 1698, 1753, 1808,\n })\n }\n end; Está pronto!
       
       
      Em anexo arquivos utilizados na instalação. Pelo amor de deus, sempre use versões mais novas.
       
       
      E por último mas não menos importante
       
      Eu gostaria de agradecer os seguintes membros da comunidade, por tornar esse sonho possível:
      @crushers, @snatch, @apianti, @blackosx, @blusseau, @dmazar, @slice2009, @autumnrain, @phpdev32, @EMlyDinEsH, @RehabMan, @Scellow, @mitch_de, @Shailua, @Andy Vandijck, @maxfierke, @ArturXXX, @LexHimself, @brumas e todos os outros membros envolvidos direta ou indiretamente.
      EFI antes instalação.zip
      EFI após instalação.zip
×