QuarkPlatformPkg: Add Readme.md for QuarkPlatformPkg

Add a Readme.md for the QuarkPlatformPkg that describes how to
clone, build, boot, debug, and enable/disable features for the
Intel(R) Galileo Development Board and the Intel(R) Galileo Gen 2
Development Board.

Cc: Kelly Steele <kelly.steele@intel.com>
Cc: Jiewen Yao <jiewen.yao@intel.com>
Contributed-under: TianoCore Contribution Agreement 1.0
Signed-off-by: Michael Kinney <michael.d.kinney@intel.com>
Reviewed-by: Kelly Steele <kelly.steele@intel.com>

git-svn-id: https://svn.code.sf.net/p/edk2/code/trunk/edk2@19764 6f19259b-4bc3-4df7-8a09-765794883524

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+# **EDK II firmware for Intel(R) Quark SoC X1000 based platforms**

+

+## **Features**

+* UEFI firmware image with ability to enable/disable major features such as

+    - Logging

+    - Source level debug using [Intel(R) UEFI Development Kit Debugger Tool](

+      https://firmware.intel.com/develop/intel-uefi-tools-and-utilities/intel-uefi-development-kit-debugger-tool)

+    - Boot Performance Measurements

+    - UEFI Secure Boot with Physical Presence

+    - TCG Measured Boot using TPM 1.2 hardware devices on I2C bus

+* Minimal firmware image for initial power-on and debug

+* UEFI Shell built into FLASH image

+* UEFI Linux operating system boot support from Micro SD FLASH

+* Hardware Support

+    -  [Intel(R) Quark SoC X1000 CPU](

+       http://www.intel.com/content/www/us/en/embedded/products/quark/quark-x1000-datasheet.html)

+    -  [Intel(R) Galileo Development Board](

+       http://www.intel.com/content/www/us/en/embedded/products/galileo/galileo-g1-datasheet.html)

+    -  [Intel(R) Galileo Gen 2 Development Board](

+       http://www.intel.com/content/www/us/en/embedded/products/galileo/galileo-overview.html)

+    -  HPET Timer

+    -  Real Time Clock

+* Major I/O Subsystems

+    - PCI including support for Mini PCI Express Cards

+    - USB using EHCI and OHCI host controllers

+    - Micro SD FLASH with FAT file system support

+    - Serial UART up to 921600 baud for console, logging, and debug

+* ACPI Tables with ACPI S3 sleep state support

+* SMBIOS Tables

+

+## **Windows Build Instructions**

+

+### Pre-requisites

+

+* GIT client: Available from https://git-scm.com/downloads

+* Microsoft Visual Studio.

+  - Visual Studio 2015 recommended and is used in the examples below.

+* Microsoft Windows Driver Development Kit 3790.1830

+  - http://download.microsoft.com/download/9/0/f/90f019ac-8243-48d3-91cf-81fc4093ecfd/1830_usa_ddk.iso

+  - Mount ISO image

+  - Right click on ```x86\kitsetup.exe``` & choose **Run as administrator**

+  - Install to C:\WINDDK\3790.1830

+  - Uncheck all Component Groups

+  - Expand Build Environment Component

+  - Check Windows Driver Development Kit 16-bit Additional Build Tools

+  - Install

+* ASL compiler: Available from http://www.acpica.org

+  - Install into ```C:\ASL``` to match default tools_def.txt configuration.

+

+Create a new directory for an EDK II WORKSPACE.

+

+The code block below shows the GIT clone operations required to pull the EDK II

+source tree, the FatPkg sources, the pre-built versions of BaseTools as WIN32

+binaries, and the edk2-non-osi repository that provides a binary file for the

+Quark Remote Management Unit (RMU).

+

+Next it sets environment variables that must be set before running

+```edksetup.bat```. Since content is being pulled from multiple repositories,

+the EDK II [Multiple Workspace](

+https://github.com/tianocore/tianocore.github.io/wiki/Multiple_Workspace)

+feature is used.

+

+Next, the ```edksetup.bat``` file is run to complete the initialization of an

+EDK II build environment.  Two example build commands are shown.  The first one

+in ```QuarkPlatformPlg/Quark.dsc``` builds a full UEFI firmware image that is

+able to boot the built-in UEFI Shell and Linux from a micro SD FLASH card.  The

+second one in ```QuarkPlatformPkg/QuarkMin.dsc``` builds a minimal firmware

+image that is useful for initial power-on and debug of new features.

+

+```cmd

+git clone https://github.com/tianocore/edk2.git

+git clone https://github.com/tianocore/edk2-FatPkg.git FatPkg

+git clone https://github.com/tianocore/edk2-BaseTools-win32.git

+git clone https://github.com/tianocore/edk2-non-osi.git

+

+set WORKSPACE=%CD%

+set PACKAGES_PATH=%WORKSPACE%\edk2;%WORKSPACE%\edk2-non-osi

+set EDK_TOOLS_BIN=%WORKSPACE%\edk2-BaseTools-win32

+

+cd edk2

+edksetup.bat

+

+build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc

+build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/QuarkMin.dsc

+```

+

+## **Linux Build Instructions**

+

+### Pre-requisites

+

+* GIT client

+* GCC 4.9 compiler

+* ASL compiler: Available from http://www.acpica.org.

+

+Create a new directory for an EDK II WORKSPACE.

+

+The code block below shows the GIT clone operations required to pull the EDK II

+source tree, the FatPkg sources, and the edk2-non-osi repository that provides a

+binary file for the Quark Remote Management Unit (RMU).

+

+Next it sets environment variables that must be set before running

+```edksetup.bat```. Since content is being pulled from multiple repositories,

+the EDK II [Multiple Workspace](

+https://github.com/tianocore/tianocore.github.io/wiki/Multiple_Workspace)

+feature is used.

+

+Next, the EDK II BaseTools required to build firmware images are built.

+

+Next, the ```edksetup.bat``` file is run to complete the initialization of an

+EDK II build environment.  Two example build commands are shown.  The first one

+in ```QuarkPlatformPlg/Quark.dsc``` builds a full UEFI firmware image that is

+able to boot the built-in UEFI Shell and Linux from a micro SD FLASH card.  The

+second one in ```QuarkPlatformPkg/QuarkMin.dsc``` builds a minimal firmware

+image that is useful for initial power-on and debug of new features.

+

+```sh

+git clone https://github.com/tianocore/edk2.git

+git clone https://github.com/tianocore/edk2-FatPkg.git FatPkg

+git clone https://github.com/tianocore/edk2-non-osi.git

+

+export WORKSPACE=$PWD

+export PACKAGES_PATH=$WORKSPACE/edk2:$WORKSPACE/edk2-non-osi

+export EDK_TOOLS_PATH=$WORKSPACE/edk2/BaseTools

+

+make -C edk2/BaseTools

+

+cd $WORKSPACE/edk2

+

+. edksetup.sh BaseTools

+

+build -a IA32 -t GCC49 -p QuarkPlatformPkg/Quark.dsc

+build -a IA32 -t GCC49 -p QuarkPlatformPkg/QuarkMin.dsc

+```

+

+## **Build Features**

+

+The table below contains a summary of the build flags to enable or disable

+features on the build command line using ```-D``` flags.

+

+| **Define Name**            | **Default Value** | **Supported Values** |

+| -------------------------- | ----------------- | -------------------- |

+| ```GALILEO```              |              GEN2 | GEN1, GEN2           |

+| ```LOGGING```              |              TRUE | TRUE, FALSE          |

+| ```SOURCE_DEBUG_ENABLE```  |             FALSE | TRUE, FALSE          |

+| ```PERFORMANCE_ENABLE```   |             FALSE | TRUE, FALSE          |

+| ```SECURE_BOOT_ENABLE```   |             FALSE | TRUE, FALSE          |

+| ```MEASURED_BOOT_ENABLE``` |             FALSE | TRUE, FALSE          |

+| ```TPM_12_HARDWARE```      |              NONE | NONE, LPC, ATMEL_I2C, INFINEON_I2C |

+

+* ```GALILEO``` - Used to specify the type of Intel(R) Galileo board type.  The

+  default is ```GEN2``` for the [Intel(R) Galileo Gen 2 Development Board](

+  http://www.intel.com/content/www/us/en/embedded/products/galileo/galileo-overview.html).

+  The other supported value is ```GEN1``` for the [Intel(R) Galileo Development Board](

+  http://www.intel.com/content/www/us/en/embedded/products/galileo/galileo-g1-datasheet.html).

+  Add ```-D GALILEO=GEN1``` to the build command for [Intel(R) Galileo Development Board](

+  http://www.intel.com/content/www/us/en/embedded/products/galileo/galileo-g1-datasheet.html).

+

+* ```LOGGING``` - Used to enable/disable logging messages from DEBUG() macros to

+  a serial UART.  The default is TRUE for enabled when the BUILDTARGET is DEBUG

+  (```-b DEBUG```).  The default is FALSE for disabled when the BUILDTARGET is

+  not DEBUG (e.g. ```-b RELEASE```).  Add ```-D LOGGING``` to the build command

+  to force logging enabled.  Add ```-D LOGGING=FALSE``` to force logging

+  disabled.

+

+* ```SOURCE_DEBUG_ENABLE``` - Used to enable/disable source level debug using the

+  [Intel(R) UEFI Development Kit Debugger Tool](

+  https://firmware.intel.com/develop/intel-uefi-tools-and-utilities/intel-uefi-development-kit-debugger-tool).

+  The default is FALSE for disabled.  Add ```-D SOURCE_DEBUG_ENABLE``` to the

+  build command line to enable source level debug.

+

+* ```PERFORMANCE_ENABLE``` - Used to enable/disable boot performance measurement.

+  The default is FALSE for disabled.  Add ```-D PERFORMANCE_ENABLE``` to the

+  build command line to enable boot performance measurement.  When this feature

+  is enabled, both ```LOGGING``` and ```SOURCE_DEBUG_ENABLE``` are automatically

+  disabled so there is not boot time overhead from the serial UART for logging

+  messages or the debug agent.

+

+* ```SECURE_BOOT_ENABLE``` - Used to enable/disable UEFI Secure Boot features.

+  The default is FALSE for disabled.  Add ```-D SECURE_BOOT_ENABLE``` to the

+  build command line to enable UEFI Secure Boot features.

+

+* ```MEASURED_BOOT_ENABLE``` - Used to enable/disable measurement of firmware

+  code and data into a TPM 1.2 hardware device.  The default is FALSE for

+  disabled.  Add ```-D MEASURED_BOOT_ENABLE``` to the build command line to

+  enable UEFI Secure Boot features.

+

+* ```TPM_12_HARDWARE``` - Used to specify the type of TPM 1.2 hardware device

+  that is connected to the Galileo board.  This define is valid if the measure

+  boot feature is enabled using ```-D MEASURED_BOOT_ENABLE```.  The default is

+  NONE for no TPM 1.2 hardware device connected.  Add ```-D TPM_12_HARDWARE=LPC```

+  for a TPM hardware device attached to an LPC bus (not supported on on Intel(R)

+  Quark SoC X1000).  Add ```-D TPM_12_HARDWARE=ATMEL_I2C``` for an

+  [Atmel AT97SC3204T](http://www.atmel.com/devices/AT97SC3204T.aspx) or

+  [Atmel AT97SC3205T](http://www.atmel.com/images/atmel-8883s-tpm-at97sc3205t-datasheet-summary.pdf)

+  attached to the I2C bus of the Galileo Arduino header.  Add

+  ```-D TPM_12_HARDWARE=INFINION_I2C``` for an [Infineon SLB9645](

+  http://www.infineon.com/dgdl/Infineon-TPM+SLB+9645-DS-v01_00-EN.pdf?fileId=5546d4625185e0e201518b83d0c63d7c)

+  attached to the I2C bus of the Galileo Arduino header.  The ATMEL_I2C setting

+  has been tested with the [CryptoShield](https://www.sparkfun.com/products/13183)

+  available from [SparkFun](https://www.sparkfun.com/).

+

+

+### **Example Build Commands**

+

+Default build with logging enabled:

+

+```build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc```

+

+Release build with logging disabled:

+

+```build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc -b RELEASE```

+

+Enable source level debugging:

+

+```build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc -D SOURCE_DEBUG_ENABLE```

+

+Enable boot performance metrics:

+

+```build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc -D PERFORMANCE_ENABLE```

+

+Enable UEFI Secure Boot features:

+

+```build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc -D UEFI_SECURE_BOOT```

+

+Enable UEFI Secure Boot and Measured Boot using Atmel I2C TPM hardware device:

+

+```build -a IA32 -t VS2015x86 -p QuarkPlatformPkg/Quark.dsc -D UEFI_SECURE_BOOT

+-D MEASURED_BOOT_ENABLE -D TPM_12_HARDWARE=ATMEL_I2C```

+

+## **FLASH Update using DediProg SF100**

+

+Once the sources have been downloaded, an EDK II build environment established,

+and an EDK II firmware image has been built, the EDK II firmware image needs to

+installed into the FLASH device on the target Galileo development board.  One

+way to do this is with the [Dediprog SF100 IC Programmer](

+http://www.dediprog.com/pd/spi-flash-solution/SF100).

+

+* Install the DediProg SF100 software.

+

+* Connect the DediProg SF100 to the Galileo development board.

+

+    ![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/Dediprog.jpg)

+

+* Make sure ```dpcmd.exe``` is in ```PATH```

+

+  ```PATH=%PATH%;"c:\Program Files (x86)\DediProg\SF100"```

+

+* **NOTE**: It is recommended that the FLASH image that was shipped with the

+  Galileo development board be read and saved before updating FLASH image.  The

+  command shown below read the FLASH image and saves it to the file

+  called ```GalileoOriginalFirmware.bin```.

+

+  ```dpcmd.exe -r GalileoOriginalFirmware.bin```

+

+* Update FLASH image using either the DediProg SF100 GUI or ```dpcmd.exe```.

+  - Example update of Galileo firmware image when BUILDTARGET is DEBUG (default)

+

+    ```dpcmd.exe -u%WORKSPACE%\Build\Quark\DEBUG_VS2015x86\FV\QUARK.fd ```

+

+  - Example update of Galileo firmware image when BUILDTARGET is RELEASE

+    (```-b RELEASE```)

+

+    ```dpcmd.exe -u%WORKSPACE%\Build\Quark\RELEASE_VS2015x86\FV\QUARK.fd ```

+

+## **Setting up a Serial Console and Booting to UEFI Shell**

+

+After the FLASH is updated on Galileo, a serial cable is connected between the

+host system and the Galileo target.  A serial terminal emulator (such as

+[Tera Term](https://en.osdn.jp/projects/ttssh2/releases/)) can be used to see

+the logging messages from DEBUG() macros and the serial console for the UEFI

+Boot Manager, UEFI Shell, and operating system.

+

+The default serial communication parameters for the Intel(R) Galileo Gen 2

+Development Board is 921600,n,8,1 with no hardware flow control.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/TeraTermSerialParameters.png)

+

+The default serial communication parameters for the Intel(R) Galileo Development

+Board is 461800,n,8,1 with no hardware flow control.

+

+The following changes to the [Tera Term](https://en.osdn.jp/projects/ttssh2/releases/)

+configuration files are recommended for UEFI serial console compatibility.

+Some of the later use cases involve using the TCPIP mode, so some of these

+recommendation apply to the TCPIP use cases.

+

+* TERATERM.INI - Set terminal size to 80 x 25 and terminal settings to UTF8.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/TeraTermTerminal.png)

+

+* TERATERM.INI - Set font type to Terminal to support box drawing glyphs.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/TeraTermFont.png)

+

+* TERATERM.INI - Disable line mode to make TCPIP mode work like COM port mode.

+

+```ini

+; Line at a time mode

+EnableLineMode=off

+```

+

+* KEYBOARD.CNF - Disable VT function keys for F5..F10

+

+```ini

+[VT function keys]

+;F6 key

+;F6=64

+;F7 key

+;F7=65

+;F8 key

+;F8=66

+;F9 key

+;F9=67

+;F10 key

+;F10=68

+```

+

+* KEYBOARD.CNF - Disable X function keys for F1..F4

+

+```ini

+[X function keys]

+; F1 key

+XF1=off

+; F2 key

+;XF2=60

+XF2=off

+; F3 key

+;XF3=61

+XF3=off

+; F4 key

+;XF4=62

+XF4=off

+; F5 key

+;XF5=63

+```

+

+* KEYBOARD.CNF - Add UEFI serial console sequences for F1..F10

+

+```ini

+[User keys]

+User1=59,0,$1B[M

+User2=60,0,$1B[N

+User3=61,0,$1B[O

+User4=62,0,$1B[P

+User5=63,0,$1B[Q

+User6=64,0,$1B[R

+User7=65,0,$1B[S

+User8=66,0,$1B[T

+User9=67,0,$1B[U

+User10=68,0,$1B[V

+```

+

+Connect power adapter to Galileo development board, and the logging messages

+should be seen, followed by 5 second countdown, followed by an automatic boot to

+the built-in UEFI Shell.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/UefiShell.png)

+

+## **Source Level Debug Using Intel(R) UEFI Development Kit Debugger Tool**

+

+### Pre-requisites

+

+* Intel(R) UEFI Development Kit Debugger Tool User Manual for Ver 1.5 or higher:

+  Available from https://firmware.intel.com/develop/intel-uefi-tools-and-utilities/intel-uefi-development-kit-debugger-tool

+* Intel(R) UEFI Development Kit Debugger Tool Ver 1.5 or higher: Available from

+  https://firmware.intel.com/develop/intel-uefi-tools-and-utilities/intel-uefi-development-kit-debugger-tool

+* [Tera Term](https://en.osdn.jp/projects/ttssh2/releases/) or other serial

+  terminal emulator with TCPIP support

+

+Follow instructions in Intel(R) UEFI Development Kit Debugger Tool User manual

+to setup host system.

+

+Build a firmware image with SOURCE_DEBUG_ENABLE enabled

+(```-D SOURCE_DEBUG_ENABLE```).  This will select the appropriate libraries,

+debug agent, and PCDs for Galileo.  Galileo does not support a USB 2.0 debug

+port, so only the UART based communications library is used.

+

+Use Dediprog SF100 to update the Galileo development board FLASH image.

+

+Update the ```[Debug Port]``` section of the SoftDebugger.ini file with the host

+side UART configuration settings.  The following example uses COM5, which must

+be updated with the COM port the Galileo target is attached.  The following

+example also shows a baud rate of 921600 which is correct for a Galileo Gen 2.

+If a Galileo Gen 1 is being used, set the baud rate to 460800.  By default, the

+Galileo console is redirected to TCPIP port 20715.

+

+```ini

+[Debug Port]

+Channel = Serial

+Port = COM5

+FlowControl = 0

+BaudRate = 921600

+Server =

+```

+

+Connect power adapter to Galileo development board and run a command script with

+the contents below to start a Tera Term session on TCPIP port 20715 and start

+the Intel(R) UEFI Development Kit Debugger Tool using UART connection between

+the host and target and WinDbg.  The REBOOT button on the Galileo development

+board may need to be pressed for the debugger to perform the initial connect.

+

+```cmd

+start "Console" /B "c:\Program Files (x86)\teraterm\ttermpro.exe" localhost:20715 /nossh

+start "Debugger" /B "C:\Program Files (x86)\Intel\Intel(R) UEFI Development Kit Debugger Tool\eXdi.exe" /LaunchWinDbg

+```

+

+The figure below should be seen when a connection is made.  The SoftDebugger

+Debug Console window shows the status of the connection between the host and the

+target.  The Tera Term window shows the console output from the SEC phase until

+the debug agent is initialized.  The WinDbg window shows that the debugger is

+connected and the WinDbg application can be used for run control, breakpoint

+management, and viewing call stacks, local variables,  global variables, etc.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/UdkDebugger.png)

+

+## **Debug Using Intel(R) System Debugger using OpenOCD**

+

+Setup hardware and software components following the instructions in the article at:

+https://software.intel.com/en-us/articles/using-intel-system-debugger-with-openocd

+

+Connect power adapter to Galileo development board.

+

+The following batch file starts Tera Term serial console on COM5 at 921600 baud,

+starts OpenOCD using a Flyswatter2, and starts Intel(R) System Studio Debugger.

+Select the **Connect** button to complete the host to target connection.

+

+```cmd

+set OPENOCD="C:\Program Files (x86)\IntelSWTools\system_studio_for_windows_2016.0.023\debugger\openocd"

+start "Console" /B "c:\Program Files (x86)\teraterm\ttermpro.exe" /C=5 /BAUD=921600

+start "OpenOcd" /B %OPENOCD%\bin\openocd.exe -f ..\scripts\interface\ftdi\flyswatter2.cfg -f ..\scripts\board\quark_x10xx_board.cfg

+call "C:\Program Files (x86)\IntelSWTools\System Debugger 2016\system_debugger\start_xdb_gdb_remote.bat"

+```

+

+When **Reset Target** is selected, the Galileo development board does not always

+halt at the first instruction at the reset vector.  If debug is required from

+the first instruction of the reset vector, then update the file

+```UefiCpuPkg/SecCore/Ia32/ResetVector.asm``` and change the two NOP

+instructions at the label ```ResetHandler:``` to ```JMP $```.  This puts the CPU

+into a wait loop until the debugger is connected and the debugger is used to set

+instruction pointer to the next instruction.

+

+```

+;

+; For IA32, the reset vector must be at 0xFFFFFFF0, i.e., 4G-16 byte

+; Execution starts here upon power-on/platform-reset.

+;

+ResetHandler:

+;    nop

+;    nop

+    jmp $

+ApStartup:

+    ;

+    ; Jmp Rel16 instruction

+    ; Use machine code directly in case of the assembler optimization

+    ; SEC entry point relative address will be fixed up by some build tool.

+    ;

+    ; Typically, SEC entry point is the function _ModuleEntryPoint() defined in

+    ; SecEntry.asm

+    ;

+    DB      0e9h

+    DW      -3

+```

+

+## **Install, Configure, and Boot Linux**

+

+* Download SD Card Linux Image: Available at

+  http://www.intel.com/content/www/us/en/support/boards-and-kits/intel-galileo-boards/000005614.html

+* Extract the SD Card Linux Image to a FAT formatted Micro SD FLASH device

+* Install Micro SD FLASH device into Galileo development board

+

+Connect power adapter to Galileo development board and boot to the UEFI Shell.

+

+From the UEFI Shell execute the following commands to copy the GRUB EFI boot

+loader to ```\efi\boot\bootia32.efi```.  This allows the UEFI Boot Manager, on

+all future boots, to auto detect that the Micro SD FLASH device is bootable.

+

+```

+Shell> connect -r

+Shell> map -r

+Shell> fs0:

+FS0:> mkdir efi

+FS0:> mkdir efi\boot

+FS0:> cp grub.efi efi\boot\bootia32.efi

+```

+

+The GRUB boot loader is set to a UART baud rate of 115200.  A couple changes are

+required to change the baud rate to 460800 for Galileo Gen 1 or 921600 for

+Galileo Gen 2.  From the UEFI Shell, execute the following commands to make a

+backup copy and edit the GRUB configuration file.

+

+```

+FS0:> cp boot\grub\grub.conf boot\grub\grub.conf.org

+FS0:> edit boot\grub\grub.conf

+```

+

+* Delete the lines associated with the boot option with the following title.

+

+```

+title Clanton SVP kernel-SPI initrd-SPI IMR-On IO-APIC/HPET NoEMU

+```

+

+* Replace the two instances of 115200 in the following line to 460800 for

+  Galileo Gen 1 or 921600 for Galileo Gen 2.

+

+```

+kernel /bzImage root=/dev/ram0 console=ttyS1,115200n8 earlycon=uart8250,mmio32,$EARLY_CON_ADDR_REPLACE,115200n8 reboot=efi,warm apic=debug rw LABEL=boot debugshell=5 rootimage=image-full-galileo-clanton.ext3

+```

+* Press F3 to save the file

+* Run the ```exit``` command to exit from the UEFI Shell and return to the

+  UEFI Boot Manager

+* Select **Boot Manager**

+* Select **UEFI Misc Device** for the Micro SD FLASH device.

+* GRUB should run and Linux should boot with serial log messages.

+* When the serial log messages stop, change the Tera Term baud rate to 115200

+* Login as ```root```.   No password is required.

+* Use ```vi``` to edit ```/etc/inittab```

+* Change the baud rate of ttyS1 from 115200 to 460800 for Galileo Gen 1 or

+  921600 for Galileo Gen 2.  The line that need to be updated is shown below

+

+```

+S:2345:respawn:/sbin/getty 115200 ttyS1

+```

+

+* Save the updated ```/etc/inittab```

+* Run ```reboot -f``` to shutdown Linux and reboot the platform.

+* Set the Tera Term baud rate back to 460800 for Galileo Gen 1 or 921600 for

+  Galileo Gen 2.

+

+After these changes both the EDK II firmware and the Linux operating system use

+the same baud rate.

+

+### **Testing ACPI S3 Sleep**

+

+The ACPI S3 Sleep and Resume feature can be tested on a Galileo development

+board using the Real Time Clock (RTC) for a wake event.  The shell script shown

+below arms the RTC wake alarm 10 seconds in the future and puts the system to

+sleep.  A shorter time in seconds can be passed in as the first argument to the

+script, but do not use times shorter than 2 or 3 seconds.

+

+**NOTE**: The stmmac module is unloaded because the module is not compatible

+with S3 resume.

+

+```sh

+#

+# Unload NIC driver that causes S3 to fail

+#

+rmmod stmmac

+

+#

+# Disable RTC wake alarm

+#

+echo 0 > /sys/class/rtc/rtc0/wakealarm

+

+#

+# Compute wake time that is $1 seconds in the future

+#

+let WakeTime=`date '+%s'`

+echo $WakeTime

+if ["$1" = ""]; then

+  let WakeTime=$WakeTime+10

+else

+  let WakeTime=$WakeTime+$1

+fi

+echo $WakeTime

+

+#

+# Enable RTC wake alarm $1 seconds in the future

+#

+echo $WakeTime > /sys/class/rtc/rtc0/wakealarm

+

+#

+# Put systems into ACPI S3 sleep state

+#

+echo mem > /sys/power/state

+```

+

+## **UEFI Secure Boot Feature and Physical Presence**

+

+Build a firmware image with SECURE_BOOT_ENABLE enabled

+(```-D SECURE_BOOT_ENABLE```). This builds in support for UEFI authenticated

+variables, UEFI image verification, and UEFI Secure Boot configuration screens

+in the Device Manager. In order to change the UEFI Secure Boot configuration,

+the user must assert physical presence.  The Galileo development board only has

+two push buttons (REBOOT and RESET).  The REBOOT button unconditionally reboots

+the platform. The RESET button asserts the reset signal on the Arduino header

+and is also connected to a GPIO pin, so the state of the RESET button can be

+read.  The user asserts physical presence by holding the RESET button while the

+Galileo development board boots, or by holding the RESET button while selecting

+the **Secure Boot Configuration** option in the Device Manager.

+

+Use Dediprog SF100 to update the Galileo development board FLASH image.

+

+Connect power adapter to Galileo development board and boot to the UEFI Boot

+Manager by pressing F2 or running the ```exit``` command from the UEFI Shell.

+Select **Device Manager** and then**Secure Boot Configuration**.  Change

+**Customize Secure Boot** to **Customized** and then select **Custom Secure Boot

+Options**.  If **Custom Secure Boot Options** can not be selected, then physical

+presence was not asserted using one of two methods listed above.  Assert

+physical presence and try again.

+

+The **Custom Secure Boot Options** screen allows the Galileo development board

+to be enrolled into UEFI Secure Boot.  See [How to Sign UEFI Drivers & Application V1.31](

+http://sourceforge.net/projects/edk2/files/General%20Documentation/SigningUefiImages%20-v1dot31.pdf/download)

+in the [SecurityPkg Wiki](https://github.com/tianocore/tianocore.github.io/wiki/SecurityPkg)

+for details on how to complete the UEFI Secure Boot enrollment.

+

+## **Enable Measured Boot Feature using Atmel I2C TPM on CryptoShield**

+

+Build a firmware image with MEASURED_BOOT_ENABLE enabled

+(```-D MEASURED_BOOT_ENABLE```) and TPM_12_HARDWARE set to ATMEL_I2C

+(```-D TMP_12_HARDWARE=ATMEL_I2C```). This builds in the TCG PEIM and DXE

+modules and uses the library for the Atmel I2C TPM hardware device.

+

+Use Dediprog SF100 to update the Galileo development board FLASH image.

+

+Attach the CryptoShield to the Arduino header of the Galileo development board

+as shown below.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/GalileoCryptoShield.jpg)

+

+Connect power adapter to Galileo development board and boot to the UEFI Shell.

+In the boot logging messages, messages similar to the following should be seen

+as the Atmel I2C TPM hardware device is detected and used to measure the

+contents of firmware volumes and firmware tables.

+

+```

+Loading PEIM at 0x0000FC75188 EntryPoint=0x0000FC75260 TrEEConfigPei.efi

+PROGRESS CODE: V03020002 I0

+TrEEConfiguration.TpmDevice from Setup: 1

+DetectTpmDevice:

+TpmDevice final: 1

+TpmDevice PCD: 8B01E5B6-4F19-46E8-AB93-1C53671B90CC

+. . .

+Loading PEIM at 0x0000FC70190 EntryPoint=0x0000FC70260 TcgPei.efi

+PROGRESS CODE: V03020002 I0

+Install PPI: E9DB0D58-D48D-47F6-9C6E-6F40E86C7B41

+Install PPI: A030D115-54DD-447B-9064-F206883D7CCC

+PROGRESS CODE: V03020003 I0

+The FV which is measured by TcgPei starts at: 0xFFF10000

+The FV which is measured by TcgPei has the size: 0xF0000

+The FV which is measured by TcgPei starts at: 0xFFD00000

+The FV which is measured by TcgPei has the size: 0x1E0000

+. . .

+Loading driver at 0x0000F620000 EntryPoint=0x0000F620260 TcgDxe.efi

+. . .

+TPM TcgDxe Measure Data when ReadyToBoot

+```

+See the [SecurityPkg Wiki](https://github.com/tianocore/tianocore.github.io/wiki/SecurityPkg)

+for additional details on EDK II TPM support

+

+## **Measuring Boot Performance**

+

+Build a firmware image with PERFORMANCE_ENABLE enabled

+(```-D PERFORMANCE_ENABLE```). This builds in the UEFI Shell and the DP.EFI

+(Dump Performance) into a firmware volume and also includes a simple file system

+driver for firmware volumes so the DP.EFI command can be run out of the FLASH.

+

+Use Dediprog SF100 to update the Galileo development board FLASH image.

+

+Connect power adapter to Galileo development board and let it boot to the UEFI

+Shell.  Then use the REBOOT button or the ```reset``` UEFI Shell command to

+reboot the Galileo development board.  The first boot after a FLASH update does

+extra work that is only performed one time.  In order to get correct performance

+measurements, use the 2nd or later boots.  After the 2nd boot, run the

+```dp -s``` command.  The output should look similar to the figure below.

+

+![](http://www.tianocore.org/Projects/QuarkPlatformPkg/Images/DpCommand.png)