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-rw-r--r--Documentation/arm/Marvell/README395
-rw-r--r--Documentation/arm/Netwinder78
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-rw-r--r--Documentation/arm/booting.rst (renamed from Documentation/arm/Booting)71
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-rw-r--r--Documentation/arm/marvel.rst488
-rw-r--r--Documentation/arm/mem_alignment.rst (renamed from Documentation/arm/mem_alignment)11
-rw-r--r--Documentation/arm/memory.rst (renamed from Documentation/arm/memory.txt)9
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-rw-r--r--Documentation/arm/netwinder.rst85
-rw-r--r--Documentation/arm/nwfpe/index.rst11
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-rw-r--r--Documentation/arm/sa1100/freebird.rst25
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-rw-r--r--Documentation/arm/sa1100/graphicsmaster.rst (renamed from Documentation/arm/SA1100/GraphicsMaster)13
-rw-r--r--Documentation/arm/sa1100/huw_webpanel.rst (renamed from Documentation/arm/SA1100/HUW_WEBPANEL)8
-rw-r--r--Documentation/arm/sa1100/index.rst23
-rw-r--r--Documentation/arm/sa1100/itsy.rst (renamed from Documentation/arm/SA1100/Itsy)14
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-rw-r--r--Documentation/arm/sa1100/nanoengine.rst (renamed from Documentation/arm/SA1100/nanoEngine)6
-rw-r--r--Documentation/arm/sa1100/pangolin.rst (renamed from Documentation/arm/SA1100/Pangolin)10
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-rw-r--r--Documentation/arm/sa1100/serial_uart.rst51
-rw-r--r--Documentation/arm/sa1100/tifon.rst (renamed from Documentation/arm/SA1100/Tifon)4
-rw-r--r--Documentation/arm/sa1100/yopy.rst (renamed from Documentation/arm/SA1100/Yopy)5
-rw-r--r--Documentation/arm/samsung-s3c24xx/cpufreq.rst (renamed from Documentation/arm/Samsung-S3C24XX/CPUfreq.txt)5
-rw-r--r--Documentation/arm/samsung-s3c24xx/eb2410itx.rst (renamed from Documentation/arm/Samsung-S3C24XX/EB2410ITX.txt)5
-rw-r--r--Documentation/arm/samsung-s3c24xx/gpio.rst (renamed from Documentation/arm/Samsung-S3C24XX/GPIO.txt)23
-rw-r--r--Documentation/arm/samsung-s3c24xx/h1940.rst (renamed from Documentation/arm/Samsung-S3C24XX/H1940.txt)5
-rw-r--r--Documentation/arm/samsung-s3c24xx/index.rst18
-rw-r--r--Documentation/arm/samsung-s3c24xx/nand.rst (renamed from Documentation/arm/Samsung-S3C24XX/NAND.txt)6
-rw-r--r--Documentation/arm/samsung-s3c24xx/overview.rst (renamed from Documentation/arm/Samsung-S3C24XX/Overview.txt)21
-rw-r--r--Documentation/arm/samsung-s3c24xx/s3c2412.rst (renamed from Documentation/arm/Samsung-S3C24XX/S3C2412.txt)5
-rw-r--r--Documentation/arm/samsung-s3c24xx/s3c2413.rst (renamed from Documentation/arm/Samsung-S3C24XX/S3C2413.txt)7
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-rw-r--r--Documentation/arm/samsung/bootloader-interface.rst (renamed from Documentation/arm/Samsung/Bootloader-interface.txt)27
-rwxr-xr-xDocumentation/arm/samsung/clksrc-change-registers.awk (renamed from Documentation/arm/Samsung/clksrc-change-registers.awk)0
-rw-r--r--Documentation/arm/samsung/gpio.rst (renamed from Documentation/arm/Samsung/GPIO.txt)7
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-rw-r--r--Documentation/arm/sti/stih407-overview.rst (renamed from Documentation/arm/sti/stih407-overview.txt)9
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-rw-r--r--Documentation/arm/sunxi.rst (renamed from Documentation/arm/sunxi/README)98
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diff --git a/Documentation/arm/Marvell/README b/Documentation/arm/Marvell/README
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-ARM Marvell SoCs
-================
-
-This document lists all the ARM Marvell SoCs that are currently
-supported in mainline by the Linux kernel. As the Marvell families of
-SoCs are large and complex, it is hard to understand where the support
-for a particular SoC is available in the Linux kernel. This document
-tries to help in understanding where those SoCs are supported, and to
-match them with their corresponding public datasheet, when available.
-
-Orion family
-------------
-
- Flavors:
- 88F5082
- 88F5181
- 88F5181L
- 88F5182
- Datasheet : http://www.embeddedarm.com/documentation/third-party/MV88F5182-datasheet.pdf
- Programmer's User Guide : http://www.embeddedarm.com/documentation/third-party/MV88F5182-opensource-manual.pdf
- User Manual : http://www.embeddedarm.com/documentation/third-party/MV88F5182-usermanual.pdf
- 88F5281
- Datasheet : http://www.ocmodshop.com/images/reviews/networking/qnap_ts409u/marvel_88f5281_data_sheet.pdf
- 88F6183
- Core: Feroceon 88fr331 (88f51xx) or 88fr531-vd (88f52xx) ARMv5 compatible
- Linux kernel mach directory: arch/arm/mach-orion5x
- Linux kernel plat directory: arch/arm/plat-orion
-
-Kirkwood family
----------------
-
- Flavors:
- 88F6282 a.k.a Armada 300
- Product Brief : http://www.marvell.com/embedded-processors/armada-300/assets/armada_310.pdf
- 88F6283 a.k.a Armada 310
- Product Brief : http://www.marvell.com/embedded-processors/armada-300/assets/armada_310.pdf
- 88F6190
- Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6190-003_WEB.pdf
- Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F619x_OpenSource.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
- 88F6192
- Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6192-003_ver1.pdf
- Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F619x_OpenSource.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
- 88F6182
- 88F6180
- Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6180-003_ver1.pdf
- Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F6180_OpenSource.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
- 88F6281
- Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6281-004_ver1.pdf
- Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F6281_OpenSource.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
- Homepage: http://www.marvell.com/embedded-processors/kirkwood/
- Core: Feroceon 88fr131 ARMv5 compatible
- Linux kernel mach directory: arch/arm/mach-mvebu
- Linux kernel plat directory: none
-
-Discovery family
-----------------
-
- Flavors:
- MV78100
- Product Brief : http://www.marvell.com/embedded-processors/discovery-innovation/assets/MV78100-003_WEB.pdf
- Hardware Spec : http://www.marvell.com/embedded-processors/discovery-innovation/assets/HW_MV78100_OpenSource.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/discovery-innovation/assets/FS_MV76100_78100_78200_OpenSource.pdf
- MV78200
- Product Brief : http://www.marvell.com/embedded-processors/discovery-innovation/assets/MV78200-002_WEB.pdf
- Hardware Spec : http://www.marvell.com/embedded-processors/discovery-innovation/assets/HW_MV78200_OpenSource.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/discovery-innovation/assets/FS_MV76100_78100_78200_OpenSource.pdf
- MV76100
- Not supported by the Linux kernel.
-
- Core: Feroceon 88fr571-vd ARMv5 compatible
-
- Linux kernel mach directory: arch/arm/mach-mv78xx0
- Linux kernel plat directory: arch/arm/plat-orion
-
-EBU Armada family
------------------
-
- Armada 370 Flavors:
- 88F6710
- 88F6707
- 88F6W11
- Product Brief: http://www.marvell.com/embedded-processors/armada-300/assets/Marvell_ARMADA_370_SoC.pdf
- Hardware Spec: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA370-datasheet.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA370-FunctionalSpec-datasheet.pdf
- Core: Sheeva ARMv7 compatible PJ4B
-
- Armada 375 Flavors:
- 88F6720
- Product Brief: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA_375_SoC-01_product_brief.pdf
- Core: ARM Cortex-A9
-
- Armada 38x Flavors:
- 88F6810 Armada 380
- 88F6820 Armada 385
- 88F6828 Armada 388
- Product infos: http://www.marvell.com/embedded-processors/armada-38x/
- Functional Spec: https://marvellcorp.wufoo.com/forms/marvell-armada-38x-functional-specifications/
- Core: ARM Cortex-A9
-
- Armada 39x Flavors:
- 88F6920 Armada 390
- 88F6928 Armada 398
- Product infos: http://www.marvell.com/embedded-processors/armada-39x/
- Core: ARM Cortex-A9
-
- Armada XP Flavors:
- MV78230
- MV78260
- MV78460
- NOTE: not to be confused with the non-SMP 78xx0 SoCs
- Product Brief: http://www.marvell.com/embedded-processors/armada-xp/assets/Marvell-ArmadaXP-SoC-product%20brief.pdf
- Functional Spec: http://www.marvell.com/embedded-processors/armada-xp/assets/ARMADA-XP-Functional-SpecDatasheet.pdf
- Hardware Specs:
- http://www.marvell.com/embedded-processors/armada-xp/assets/HW_MV78230_OS.PDF
- http://www.marvell.com/embedded-processors/armada-xp/assets/HW_MV78260_OS.PDF
- http://www.marvell.com/embedded-processors/armada-xp/assets/HW_MV78460_OS.PDF
- Core: Sheeva ARMv7 compatible Dual-core or Quad-core PJ4B-MP
-
- Linux kernel mach directory: arch/arm/mach-mvebu
- Linux kernel plat directory: none
-
-EBU Armada family ARMv8
------------------------
-
- Armada 3710/3720 Flavors:
- 88F3710
- 88F3720
- Core: ARM Cortex A53 (ARMv8)
-
- Homepage: http://www.marvell.com/embedded-processors/armada-3700/
- Product Brief: http://www.marvell.com/embedded-processors/assets/PB-88F3700-FNL.pdf
- Device tree files: arch/arm64/boot/dts/marvell/armada-37*
-
- Armada 7K Flavors:
- 88F7020 (AP806 Dual + one CP110)
- 88F7040 (AP806 Quad + one CP110)
- Core: ARM Cortex A72
-
- Homepage: http://www.marvell.com/embedded-processors/armada-70xx/
- Product Brief: http://www.marvell.com/embedded-processors/assets/Armada7020PB-Jan2016.pdf
- http://www.marvell.com/embedded-processors/assets/Armada7040PB-Jan2016.pdf
- Device tree files: arch/arm64/boot/dts/marvell/armada-70*
-
- Armada 8K Flavors:
- 88F8020 (AP806 Dual + two CP110)
- 88F8040 (AP806 Quad + two CP110)
- Core: ARM Cortex A72
-
- Homepage: http://www.marvell.com/embedded-processors/armada-80xx/
- Product Brief: http://www.marvell.com/embedded-processors/assets/Armada8020PB-Jan2016.pdf
- http://www.marvell.com/embedded-processors/assets/Armada8040PB-Jan2016.pdf
- Device tree files: arch/arm64/boot/dts/marvell/armada-80*
-
-Avanta family
--------------
-
- Flavors:
- 88F6510
- 88F6530P
- 88F6550
- 88F6560
- Homepage : http://www.marvell.com/broadband/
- Product Brief: http://www.marvell.com/broadband/assets/Marvell_Avanta_88F6510_305_060-001_product_brief.pdf
- No public datasheet available.
-
- Core: ARMv5 compatible
-
- Linux kernel mach directory: no code in mainline yet, planned for the future
- Linux kernel plat directory: no code in mainline yet, planned for the future
-
-Storage family
---------------
-
- Armada SP:
- 88RC1580
- Product infos: http://www.marvell.com/storage/armada-sp/
- Core: Sheeva ARMv7 comatible Quad-core PJ4C
- (not supported in upstream Linux kernel)
-
-Dove family (application processor)
------------------------------------
-
- Flavors:
- 88AP510 a.k.a Armada 510
- Product Brief : http://www.marvell.com/application-processors/armada-500/assets/Marvell_Armada510_SoC.pdf
- Hardware Spec : http://www.marvell.com/application-processors/armada-500/assets/Armada-510-Hardware-Spec.pdf
- Functional Spec : http://www.marvell.com/application-processors/armada-500/assets/Armada-510-Functional-Spec.pdf
- Homepage: http://www.marvell.com/application-processors/armada-500/
- Core: ARMv7 compatible
-
- Directory: arch/arm/mach-mvebu (DT enabled platforms)
- arch/arm/mach-dove (non-DT enabled platforms)
-
-PXA 2xx/3xx/93x/95x family
---------------------------
-
- Flavors:
- PXA21x, PXA25x, PXA26x
- Application processor only
- Core: ARMv5 XScale1 core
- PXA270, PXA271, PXA272
- Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_pb.pdf
- Design guide : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_design_guide.pdf
- Developers manual : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_dev_man.pdf
- Specification : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_emts.pdf
- Specification update : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_spec_update.pdf
- Application processor only
- Core: ARMv5 XScale2 core
- PXA300, PXA310, PXA320
- PXA 300 Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/PXA300_PB_R4.pdf
- PXA 310 Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/PXA310_PB_R4.pdf
- PXA 320 Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/PXA320_PB_R4.pdf
- Design guide : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_Design_Guide.pdf
- Developers manual : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_Developers_Manual.zip
- Specifications : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_EMTS.pdf
- Specification Update : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_Spec_Update.zip
- Reference Manual : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_TavorP_BootROM_Ref_Manual.pdf
- Application processor only
- Core: ARMv5 XScale3 core
- PXA930, PXA935
- Application processor with Communication processor
- Core: ARMv5 XScale3 core
- PXA955
- Application processor with Communication processor
- Core: ARMv7 compatible Sheeva PJ4 core
-
- Comments:
-
- * This line of SoCs originates from the XScale family developed by
- Intel and acquired by Marvell in ~2006. The PXA21x, PXA25x,
- PXA26x, PXA27x, PXA3xx and PXA93x were developed by Intel, while
- the later PXA95x were developed by Marvell.
-
- * Due to their XScale origin, these SoCs have virtually nothing in
- common with the other (Kirkwood, Dove, etc.) families of Marvell
- SoCs, except with the MMP/MMP2 family of SoCs.
-
- Linux kernel mach directory: arch/arm/mach-pxa
- Linux kernel plat directory: arch/arm/plat-pxa
-
-MMP/MMP2/MMP3 family (communication processor)
------------------------------------------
-
- Flavors:
- PXA168, a.k.a Armada 168
- Homepage : http://www.marvell.com/application-processors/armada-100/armada-168.jsp
- Product brief : http://www.marvell.com/application-processors/armada-100/assets/pxa_168_pb.pdf
- Hardware manual : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_datasheet.pdf
- Software manual : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_software_manual.pdf
- Specification update : http://www.marvell.com/application-processors/armada-100/assets/ARMADA16x_Spec_update.pdf
- Boot ROM manual : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_ref_manual.pdf
- App node package : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_app_note_package.pdf
- Application processor only
- Core: ARMv5 compatible Marvell PJ1 88sv331 (Mohawk)
- PXA910/PXA920
- Homepage : http://www.marvell.com/communication-processors/pxa910/
- Product Brief : http://www.marvell.com/communication-processors/pxa910/assets/Marvell_PXA910_Platform-001_PB_final.pdf
- Application processor with Communication processor
- Core: ARMv5 compatible Marvell PJ1 88sv331 (Mohawk)
- PXA688, a.k.a. MMP2, a.k.a Armada 610
- Product Brief : http://www.marvell.com/application-processors/armada-600/assets/armada610_pb.pdf
- Application processor only
- Core: ARMv7 compatible Sheeva PJ4 88sv581x core
- PXA2128, a.k.a. MMP3 (OLPC XO4, Linux support not upstream)
- Product Brief : http://www.marvell.com/application-processors/armada/pxa2128/assets/Marvell-ARMADA-PXA2128-SoC-PB.pdf
- Application processor only
- Core: Dual-core ARMv7 compatible Sheeva PJ4C core
- PXA960/PXA968/PXA978 (Linux support not upstream)
- Application processor with Communication Processor
- Core: ARMv7 compatible Sheeva PJ4 core
- PXA986/PXA988 (Linux support not upstream)
- Application processor with Communication Processor
- Core: Dual-core ARMv7 compatible Sheeva PJ4B-MP core
- PXA1088/PXA1920 (Linux support not upstream)
- Application processor with Communication Processor
- Core: quad-core ARMv7 Cortex-A7
- PXA1908/PXA1928/PXA1936
- Application processor with Communication Processor
- Core: multi-core ARMv8 Cortex-A53
-
- Comments:
-
- * This line of SoCs originates from the XScale family developed by
- Intel and acquired by Marvell in ~2006. All the processors of
- this MMP/MMP2 family were developed by Marvell.
-
- * Due to their XScale origin, these SoCs have virtually nothing in
- common with the other (Kirkwood, Dove, etc.) families of Marvell
- SoCs, except with the PXA family of SoCs listed above.
-
- Linux kernel mach directory: arch/arm/mach-mmp
- Linux kernel plat directory: arch/arm/plat-pxa
-
-Berlin family (Multimedia Solutions)
--------------------------------------
-
- Flavors:
- 88DE3010, Armada 1000 (no Linux support)
- Core: Marvell PJ1 (ARMv5TE), Dual-core
- Product Brief: http://www.marvell.com.cn/digital-entertainment/assets/armada_1000_pb.pdf
- 88DE3005, Armada 1500 Mini
- Design name: BG2CD
- Core: ARM Cortex-A9, PL310 L2CC
- 88DE3006, Armada 1500 Mini Plus
- Design name: BG2CDP
- Core: Dual Core ARM Cortex-A7
- 88DE3100, Armada 1500
- Design name: BG2
- Core: Marvell PJ4B-MP (ARMv7), Tauros3 L2CC
- 88DE3114, Armada 1500 Pro
- Design name: BG2Q
- Core: Quad Core ARM Cortex-A9, PL310 L2CC
- 88DE3214, Armada 1500 Pro 4K
- Design name: BG3
- Core: ARM Cortex-A15, CA15 integrated L2CC
- 88DE3218, ARMADA 1500 Ultra
- Core: ARM Cortex-A53
-
- Homepage: https://www.synaptics.com/products/multimedia-solutions
- Directory: arch/arm/mach-berlin
-
- Comments:
-
- * This line of SoCs is based on Marvell Sheeva or ARM Cortex CPUs
- with Synopsys DesignWare (IRQ, GPIO, Timers, ...) and PXA IP (SDHCI, USB, ETH, ...).
-
- * The Berlin family was acquired by Synaptics from Marvell in 2017.
-
-CPU Cores
----------
-
-The XScale cores were designed by Intel, and shipped by Marvell in the older
-PXA processors. Feroceon is a Marvell designed core that developed in-house,
-and that evolved into Sheeva. The XScale and Feroceon cores were phased out
-over time and replaced with Sheeva cores in later products, which subsequently
-got replaced with licensed ARM Cortex-A cores.
-
- XScale 1
- CPUID 0x69052xxx
- ARMv5, iWMMXt
- XScale 2
- CPUID 0x69054xxx
- ARMv5, iWMMXt
- XScale 3
- CPUID 0x69056xxx or 0x69056xxx
- ARMv5, iWMMXt
- Feroceon-1850 88fr331 "Mohawk"
- CPUID 0x5615331x or 0x41xx926x
- ARMv5TE, single issue
- Feroceon-2850 88fr531-vd "Jolteon"
- CPUID 0x5605531x or 0x41xx926x
- ARMv5TE, VFP, dual-issue
- Feroceon 88fr571-vd "Jolteon"
- CPUID 0x5615571x
- ARMv5TE, VFP, dual-issue
- Feroceon 88fr131 "Mohawk-D"
- CPUID 0x5625131x
- ARMv5TE, single-issue in-order
- Sheeva PJ1 88sv331 "Mohawk"
- CPUID 0x561584xx
- ARMv5, single-issue iWMMXt v2
- Sheeva PJ4 88sv581x "Flareon"
- CPUID 0x560f581x
- ARMv7, idivt, optional iWMMXt v2
- Sheeva PJ4B 88sv581x
- CPUID 0x561f581x
- ARMv7, idivt, optional iWMMXt v2
- Sheeva PJ4B-MP / PJ4C
- CPUID 0x562f584x
- ARMv7, idivt/idiva, LPAE, optional iWMMXt v2 and/or NEON
-
-Long-term plans
----------------
-
- * Unify the mach-dove/, mach-mv78xx0/, mach-orion5x/ into the
- mach-mvebu/ to support all SoCs from the Marvell EBU (Engineering
- Business Unit) in a single mach-<foo> directory. The plat-orion/
- would therefore disappear.
-
- * Unify the mach-mmp/ and mach-pxa/ into the same mach-pxa
- directory. The plat-pxa/ would therefore disappear.
-
-Credits
--------
-
- Maen Suleiman <maen@marvell.com>
- Lior Amsalem <alior@marvell.com>
- Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
- Andrew Lunn <andrew@lunn.ch>
- Nicolas Pitre <nico@fluxnic.net>
- Eric Miao <eric.y.miao@gmail.com>
diff --git a/Documentation/arm/Netwinder b/Documentation/arm/Netwinder
deleted file mode 100644
index f1b457fbd3de..000000000000
--- a/Documentation/arm/Netwinder
+++ /dev/null
@@ -1,78 +0,0 @@
-NetWinder specific documentation
-================================
-
-The NetWinder is a small low-power computer, primarily designed
-to run Linux. It is based around the StrongARM RISC processor,
-DC21285 PCI bridge, with PC-type hardware glued around it.
-
-Port usage
-==========
-
-Min - Max Description
----------------------------
-0x0000 - 0x000f DMA1
-0x0020 - 0x0021 PIC1
-0x0060 - 0x006f Keyboard
-0x0070 - 0x007f RTC
-0x0080 - 0x0087 DMA1
-0x0088 - 0x008f DMA2
-0x00a0 - 0x00a3 PIC2
-0x00c0 - 0x00df DMA2
-0x0180 - 0x0187 IRDA
-0x01f0 - 0x01f6 ide0
-0x0201 Game port
-0x0203 RWA010 configuration read
-0x0220 - ? SoundBlaster
-0x0250 - ? WaveArtist
-0x0279 RWA010 configuration index
-0x02f8 - 0x02ff Serial ttyS1
-0x0300 - 0x031f Ether10
-0x0338 GPIO1
-0x033a GPIO2
-0x0370 - 0x0371 W83977F configuration registers
-0x0388 - ? AdLib
-0x03c0 - 0x03df VGA
-0x03f6 ide0
-0x03f8 - 0x03ff Serial ttyS0
-0x0400 - 0x0408 DC21143
-0x0480 - 0x0487 DMA1
-0x0488 - 0x048f DMA2
-0x0a79 RWA010 configuration write
-0xe800 - 0xe80f ide0/ide1 BM DMA
-
-
-Interrupt usage
-===============
-
-IRQ type Description
----------------------------
- 0 ISA 100Hz timer
- 1 ISA Keyboard
- 2 ISA cascade
- 3 ISA Serial ttyS1
- 4 ISA Serial ttyS0
- 5 ISA PS/2 mouse
- 6 ISA IRDA
- 7 ISA Printer
- 8 ISA RTC alarm
- 9 ISA
-10 ISA GP10 (Orange reset button)
-11 ISA
-12 ISA WaveArtist
-13 ISA
-14 ISA hda1
-15 ISA
-
-DMA usage
-=========
-
-DMA type Description
----------------------------
- 0 ISA IRDA
- 1 ISA
- 2 ISA cascade
- 3 ISA WaveArtist
- 4 ISA
- 5 ISA
- 6 ISA
- 7 ISA WaveArtist
diff --git a/Documentation/arm/SA1100/FreeBird b/Documentation/arm/SA1100/FreeBird
deleted file mode 100644
index ab9193663b2b..000000000000
--- a/Documentation/arm/SA1100/FreeBird
+++ /dev/null
@@ -1,21 +0,0 @@
-Freebird-1.1 is produced by Legend(C), Inc.
-http://web.archive.org/web/*/http://www.legend.com.cn
-and software/linux maintained by Coventive(C), Inc.
-(http://www.coventive.com)
-
-Based on the Nicolas's strongarm kernel tree.
-
-===============================================================
-Maintainer:
-
-Chester Kuo <chester@coventive.com>
- <chester@linux.org.tw>
-
-Author :
-Tim wu <timwu@coventive.com>
-CIH <cih@coventive.com>
-Eric Peng <ericpeng@coventive.com>
-Jeff Lee <jeff_lee@coventive.com>
-Allen Cheng
-Tony Liu <tonyliu@coventive.com>
-
diff --git a/Documentation/arm/SA1100/empeg b/Documentation/arm/SA1100/empeg
deleted file mode 100644
index 4ece4849a42c..000000000000
--- a/Documentation/arm/SA1100/empeg
+++ /dev/null
@@ -1,2 +0,0 @@
-See ../empeg/README
-
diff --git a/Documentation/arm/SA1100/serial_UART b/Documentation/arm/SA1100/serial_UART
deleted file mode 100644
index a63966f1d083..000000000000
--- a/Documentation/arm/SA1100/serial_UART
+++ /dev/null
@@ -1,47 +0,0 @@
-The SA1100 serial port had its major/minor numbers officially assigned:
-
-> Date: Sun, 24 Sep 2000 21:40:27 -0700
-> From: H. Peter Anvin <hpa@transmeta.com>
-> To: Nicolas Pitre <nico@CAM.ORG>
-> Cc: Device List Maintainer <device@lanana.org>
-> Subject: Re: device
->
-> Okay. Note that device numbers 204 and 205 are used for "low density
-> serial devices", so you will have a range of minors on those majors (the
-> tty device layer handles this just fine, so you don't have to worry about
-> doing anything special.)
->
-> So your assignments are:
->
-> 204 char Low-density serial ports
-> 5 = /dev/ttySA0 SA1100 builtin serial port 0
-> 6 = /dev/ttySA1 SA1100 builtin serial port 1
-> 7 = /dev/ttySA2 SA1100 builtin serial port 2
->
-> 205 char Low-density serial ports (alternate device)
-> 5 = /dev/cusa0 Callout device for ttySA0
-> 6 = /dev/cusa1 Callout device for ttySA1
-> 7 = /dev/cusa2 Callout device for ttySA2
->
-
-You must create those inodes in /dev on the root filesystem used
-by your SA1100-based device:
-
- mknod ttySA0 c 204 5
- mknod ttySA1 c 204 6
- mknod ttySA2 c 204 7
- mknod cusa0 c 205 5
- mknod cusa1 c 205 6
- mknod cusa2 c 205 7
-
-In addition to the creation of the appropriate device nodes above, you
-must ensure your user space applications make use of the correct device
-name. The classic example is the content of the /etc/inittab file where
-you might have a getty process started on ttyS0. In this case:
-
-- replace occurrences of ttyS0 with ttySA0, ttyS1 with ttySA1, etc.
-
-- don't forget to add 'ttySA0', 'console', or the appropriate tty name
- in /etc/securetty for root to be allowed to login as well.
-
-
diff --git a/Documentation/arm/README b/Documentation/arm/arm.rst
index 9d1e5b2c92e6..2edc509df92a 100644
--- a/Documentation/arm/README
+++ b/Documentation/arm/arm.rst
@@ -1,5 +1,6 @@
- ARM Linux 2.6
- =============
+=======================
+ARM Linux 2.6 and upper
+=======================
Please check <ftp://ftp.arm.linux.org.uk/pub/armlinux> for
updates.
@@ -18,22 +19,28 @@ Compilation of kernel
line as detailed below.
If you wish to cross-compile, then alter the following lines in the top
- level make file:
+ level make file::
ARCH = <whatever>
- with
+
+ with::
+
ARCH = arm
- and
+ and::
CROSS_COMPILE=
- to
+
+ to::
+
CROSS_COMPILE=<your-path-to-your-compiler-without-gcc>
- eg.
+
+ eg.::
+
CROSS_COMPILE=arm-linux-
- Do a 'make config', followed by 'make Image' to build the kernel
- (arch/arm/boot/Image). A compressed image can be built by doing a
+ Do a 'make config', followed by 'make Image' to build the kernel
+ (arch/arm/boot/Image). A compressed image can be built by doing a
'make zImage' instead of 'make Image'.
@@ -46,7 +53,7 @@ Bug reports etc
Bug reports should be sent to linux-arm-kernel@lists.arm.linux.org.uk,
or submitted through the web form at
- http://www.arm.linux.org.uk/developer/
+ http://www.arm.linux.org.uk/developer/
When sending bug reports, please ensure that they contain all relevant
information, eg. the kernel messages that were printed before/during
@@ -60,11 +67,13 @@ Include files
which are there to reduce the clutter in the top-level directory. These
directories, and their purpose is listed below:
- arch-* machine/platform specific header files
- hardware driver-internal ARM specific data structures/definitions
- mach descriptions of generic ARM to specific machine interfaces
- proc-* processor dependent header files (currently only two
+ ============= ==========================================================
+ `arch-*` machine/platform specific header files
+ `hardware` driver-internal ARM specific data structures/definitions
+ `mach` descriptions of generic ARM to specific machine interfaces
+ `proc-*` processor dependent header files (currently only two
categories)
+ ============= ==========================================================
Machine/Platform support
@@ -129,7 +138,7 @@ ST506 hard drives
HDC base to the source.
As of 31/3/96 it works with two drives (you should get the ADFS
- *configure harddrive set to 2). I've got an internal 20MB and a great
+ `*configure` harddrive set to 2). I've got an internal 20MB and a great
big external 5.25" FH 64MB drive (who could ever want more :-) ).
I've just got 240K/s off it (a dd with bs=128k); thats about half of what
@@ -149,13 +158,13 @@ ST506 hard drives
are welcome.
-CONFIG_MACH_ and CONFIG_ARCH_
------------------------------
+`CONFIG_MACH_` and `CONFIG_ARCH_`
+---------------------------------
A change was made in 2003 to the macro names for new machines.
- Historically, CONFIG_ARCH_ was used for the bonafide architecture,
+ Historically, `CONFIG_ARCH_` was used for the bonafide architecture,
e.g. SA1100, as well as implementations of the architecture,
e.g. Assabet. It was decided to change the implementation macros
- to read CONFIG_MACH_ for clarity. Moreover, a retroactive fixup has
+ to read `CONFIG_MACH_` for clarity. Moreover, a retroactive fixup has
not been made because it would complicate patching.
Previous registrations may be found online.
@@ -163,7 +172,7 @@ CONFIG_MACH_ and CONFIG_ARCH_
<http://www.arm.linux.org.uk/developer/machines/>
Kernel entry (head.S)
---------------------------
+---------------------
The initial entry into the kernel is via head.S, which uses machine
independent code. The machine is selected by the value of 'r1' on
entry, which must be kept unique.
@@ -201,4 +210,5 @@ Kernel entry (head.S)
platform is DT-only, you do not need a registered machine type.
---
+
Russell King (15/03/2004)
diff --git a/Documentation/arm/Booting b/Documentation/arm/booting.rst
index f1f965ce93d6..4babb6c6ae1e 100644
--- a/Documentation/arm/Booting
+++ b/Documentation/arm/booting.rst
@@ -1,7 +1,9 @@
- Booting ARM Linux
- =================
+=================
+Booting ARM Linux
+=================
Author: Russell King
+
Date : 18 May 2002
The following documentation is relevant to 2.4.18-rmk6 and beyond.
@@ -25,8 +27,10 @@ following:
1. Setup and initialise RAM
---------------------------
-Existing boot loaders: MANDATORY
-New boot loaders: MANDATORY
+Existing boot loaders:
+ MANDATORY
+New boot loaders:
+ MANDATORY
The boot loader is expected to find and initialise all RAM that the
kernel will use for volatile data storage in the system. It performs
@@ -39,8 +43,10 @@ sees fit.)
2. Initialise one serial port
-----------------------------
-Existing boot loaders: OPTIONAL, RECOMMENDED
-New boot loaders: OPTIONAL, RECOMMENDED
+Existing boot loaders:
+ OPTIONAL, RECOMMENDED
+New boot loaders:
+ OPTIONAL, RECOMMENDED
The boot loader should initialise and enable one serial port on the
target. This allows the kernel serial driver to automatically detect
@@ -57,8 +63,10 @@ serial format options as described in
3. Detect the machine type
--------------------------
-Existing boot loaders: OPTIONAL
-New boot loaders: MANDATORY except for DT-only platforms
+Existing boot loaders:
+ OPTIONAL
+New boot loaders:
+ MANDATORY except for DT-only platforms
The boot loader should detect the machine type its running on by some
method. Whether this is a hard coded value or some algorithm that
@@ -74,8 +82,10 @@ necessary, but assures that it will not match any existing types.
4. Setup boot data
------------------
-Existing boot loaders: OPTIONAL, HIGHLY RECOMMENDED
-New boot loaders: MANDATORY
+Existing boot loaders:
+ OPTIONAL, HIGHLY RECOMMENDED
+New boot loaders:
+ MANDATORY
The boot loader must provide either a tagged list or a dtb image for
passing configuration data to the kernel. The physical address of the
@@ -97,15 +107,15 @@ entirety; some tags behave as the former, others the latter.
The boot loader must pass at a minimum the size and location of
the system memory, and root filesystem location. Therefore, the
-minimum tagged list should look:
+minimum tagged list should look::
- +-----------+
-base -> | ATAG_CORE | |
- +-----------+ |
- | ATAG_MEM | | increasing address
- +-----------+ |
- | ATAG_NONE | |
- +-----------+ v
+ +-----------+
+ base -> | ATAG_CORE | |
+ +-----------+ |
+ | ATAG_MEM | | increasing address
+ +-----------+ |
+ | ATAG_NONE | |
+ +-----------+ v
The tagged list should be stored in system RAM.
@@ -134,8 +144,10 @@ A safe location is just above the 128MiB boundary from start of RAM.
5. Load initramfs.
------------------
-Existing boot loaders: OPTIONAL
-New boot loaders: OPTIONAL
+Existing boot loaders:
+ OPTIONAL
+New boot loaders:
+ OPTIONAL
If an initramfs is in use then, as with the dtb, it must be placed in
a region of memory where the kernel decompressor will not overwrite it
@@ -149,8 +161,10 @@ recommended above.
6. Calling the kernel image
---------------------------
-Existing boot loaders: MANDATORY
-New boot loaders: MANDATORY
+Existing boot loaders:
+ MANDATORY
+New boot loaders:
+ MANDATORY
There are two options for calling the kernel zImage. If the zImage
is stored in flash, and is linked correctly to be run from flash,
@@ -174,12 +188,14 @@ In any case, the following conditions must be met:
you many hours of debug.
- CPU register settings
- r0 = 0,
- r1 = machine type number discovered in (3) above.
- r2 = physical address of tagged list in system RAM, or
- physical address of device tree block (dtb) in system RAM
+
+ - r0 = 0,
+ - r1 = machine type number discovered in (3) above.
+ - r2 = physical address of tagged list in system RAM, or
+ physical address of device tree block (dtb) in system RAM
- CPU mode
+
All forms of interrupts must be disabled (IRQs and FIQs)
For CPUs which do not include the ARM virtualization extensions, the
@@ -195,8 +211,11 @@ In any case, the following conditions must be met:
entered in SVC mode.
- Caches, MMUs
+
The MMU must be off.
+
Instruction cache may be on or off.
+
Data cache must be off.
If the kernel is entered in HYP mode, the above requirements apply to
diff --git a/Documentation/arm/cluster-pm-race-avoidance.txt b/Documentation/arm/cluster-pm-race-avoidance.rst
index 750b6fc24af9..aa58603d3f28 100644
--- a/Documentation/arm/cluster-pm-race-avoidance.txt
+++ b/Documentation/arm/cluster-pm-race-avoidance.rst
@@ -1,3 +1,4 @@
+=========================================================
Cluster-wide Power-up/power-down race avoidance algorithm
=========================================================
@@ -46,10 +47,12 @@ Basic model
Each cluster and CPU is assigned a state, as follows:
- DOWN
- COMING_UP
- UP
- GOING_DOWN
+ - DOWN
+ - COMING_UP
+ - UP
+ - GOING_DOWN
+
+::
+---------> UP ----------+
| v
@@ -60,18 +63,22 @@ Each cluster and CPU is assigned a state, as follows:
+--------- DOWN <--------+
-DOWN: The CPU or cluster is not coherent, and is either powered off or
+DOWN:
+ The CPU or cluster is not coherent, and is either powered off or
suspended, or is ready to be powered off or suspended.
-COMING_UP: The CPU or cluster has committed to moving to the UP state.
+COMING_UP:
+ The CPU or cluster has committed to moving to the UP state.
It may be part way through the process of initialisation and
enabling coherency.
-UP: The CPU or cluster is active and coherent at the hardware
+UP:
+ The CPU or cluster is active and coherent at the hardware
level. A CPU in this state is not necessarily being used
actively by the kernel.
-GOING_DOWN: The CPU or cluster has committed to moving to the DOWN
+GOING_DOWN:
+ The CPU or cluster has committed to moving to the DOWN
state. It may be part way through the process of teardown and
coherency exit.
@@ -86,8 +93,8 @@ CPUs in the cluster simultaneously modifying the state. The cluster-
level states are described in the "Cluster state" section.
To help distinguish the CPU states from cluster states in this
-discussion, the state names are given a CPU_ prefix for the CPU states,
-and a CLUSTER_ or INBOUND_ prefix for the cluster states.
+discussion, the state names are given a `CPU_` prefix for the CPU states,
+and a `CLUSTER_` or `INBOUND_` prefix for the cluster states.
CPU state
@@ -101,10 +108,12 @@ This means that CPUs fit the basic model closely.
The algorithm defines the following states for each CPU in the system:
- CPU_DOWN
- CPU_COMING_UP
- CPU_UP
- CPU_GOING_DOWN
+ - CPU_DOWN
+ - CPU_COMING_UP
+ - CPU_UP
+ - CPU_GOING_DOWN
+
+::
cluster setup and
CPU setup complete policy decision
@@ -130,17 +139,17 @@ requirement for any external event to happen.
CPU_DOWN:
-
A CPU reaches the CPU_DOWN state when it is ready for
power-down. On reaching this state, the CPU will typically
power itself down or suspend itself, via a WFI instruction or a
firmware call.
- Next state: CPU_COMING_UP
- Conditions: none
+ Next state:
+ CPU_COMING_UP
+ Conditions:
+ none
Trigger events:
-
a) an explicit hardware power-up operation, resulting
from a policy decision on another CPU;
@@ -148,15 +157,17 @@ CPU_DOWN:
CPU_COMING_UP:
-
A CPU cannot start participating in hardware coherency until the
cluster is set up and coherent. If the cluster is not ready,
then the CPU will wait in the CPU_COMING_UP state until the
cluster has been set up.
- Next state: CPU_UP
- Conditions: The CPU's parent cluster must be in CLUSTER_UP.
- Trigger events: Transition of the parent cluster to CLUSTER_UP.
+ Next state:
+ CPU_UP
+ Conditions:
+ The CPU's parent cluster must be in CLUSTER_UP.
+ Trigger events:
+ Transition of the parent cluster to CLUSTER_UP.
Refer to the "Cluster state" section for a description of the
CLUSTER_UP state.
@@ -178,20 +189,25 @@ CPU_UP:
The CPU remains in this state until an explicit policy decision
is made to shut down or suspend the CPU.
- Next state: CPU_GOING_DOWN
- Conditions: none
- Trigger events: explicit policy decision
+ Next state:
+ CPU_GOING_DOWN
+ Conditions:
+ none
+ Trigger events:
+ explicit policy decision
CPU_GOING_DOWN:
-
While in this state, the CPU exits coherency, including any
operations required to achieve this (such as cleaning data
caches).
- Next state: CPU_DOWN
- Conditions: local CPU teardown complete
- Trigger events: (spontaneous)
+ Next state:
+ CPU_DOWN
+ Conditions:
+ local CPU teardown complete
+ Trigger events:
+ (spontaneous)
Cluster state
@@ -212,20 +228,20 @@ independently of the CPU which is tearing down the cluster. For this
reason, the cluster state is split into two parts:
"cluster" state: The global state of the cluster; or the state
- on the outbound side:
+ on the outbound side:
- CLUSTER_DOWN
- CLUSTER_UP
- CLUSTER_GOING_DOWN
+ - CLUSTER_DOWN
+ - CLUSTER_UP
+ - CLUSTER_GOING_DOWN
"inbound" state: The state of the cluster on the inbound side.
- INBOUND_NOT_COMING_UP
- INBOUND_COMING_UP
+ - INBOUND_NOT_COMING_UP
+ - INBOUND_COMING_UP
The different pairings of these states results in six possible
- states for the cluster as a whole:
+ states for the cluster as a whole::
CLUSTER_UP
+==========> INBOUND_NOT_COMING_UP -------------+
@@ -284,11 +300,12 @@ reason, the cluster state is split into two parts:
CLUSTER_DOWN/INBOUND_NOT_COMING_UP:
+ Next state:
+ CLUSTER_DOWN/INBOUND_COMING_UP (inbound)
+ Conditions:
+ none
- Next state: CLUSTER_DOWN/INBOUND_COMING_UP (inbound)
- Conditions: none
Trigger events:
-
a) an explicit hardware power-up operation, resulting
from a policy decision on another CPU;
@@ -306,9 +323,12 @@ CLUSTER_DOWN/INBOUND_COMING_UP:
setup to enable other CPUs in the cluster to enter coherency
safely.
- Next state: CLUSTER_UP/INBOUND_COMING_UP (inbound)
- Conditions: cluster-level setup and hardware coherency complete
- Trigger events: (spontaneous)
+ Next state:
+ CLUSTER_UP/INBOUND_COMING_UP (inbound)
+ Conditions:
+ cluster-level setup and hardware coherency complete
+ Trigger events:
+ (spontaneous)
CLUSTER_UP/INBOUND_COMING_UP:
@@ -321,9 +341,12 @@ CLUSTER_UP/INBOUND_COMING_UP:
CLUSTER_UP/INBOUND_NOT_COMING_UP. All other CPUs on the cluster
should consider treat these two states as equivalent.
- Next state: CLUSTER_UP/INBOUND_NOT_COMING_UP (inbound)
- Conditions: none
- Trigger events: (spontaneous)
+ Next state:
+ CLUSTER_UP/INBOUND_NOT_COMING_UP (inbound)
+ Conditions:
+ none
+ Trigger events:
+ (spontaneous)
CLUSTER_UP/INBOUND_NOT_COMING_UP:
@@ -335,9 +358,12 @@ CLUSTER_UP/INBOUND_NOT_COMING_UP:
The cluster will remain in this state until a policy decision is
made to power the cluster down.
- Next state: CLUSTER_GOING_DOWN/INBOUND_NOT_COMING_UP (outbound)
- Conditions: none
- Trigger events: policy decision to power down the cluster
+ Next state:
+ CLUSTER_GOING_DOWN/INBOUND_NOT_COMING_UP (outbound)
+ Conditions:
+ none
+ Trigger events:
+ policy decision to power down the cluster
CLUSTER_GOING_DOWN/INBOUND_NOT_COMING_UP:
@@ -359,13 +385,16 @@ CLUSTER_GOING_DOWN/INBOUND_NOT_COMING_UP:
Next states:
CLUSTER_DOWN/INBOUND_NOT_COMING_UP (outbound)
- Conditions: cluster torn down and ready to power off
- Trigger events: (spontaneous)
+ Conditions:
+ cluster torn down and ready to power off
+ Trigger events:
+ (spontaneous)
CLUSTER_GOING_DOWN/INBOUND_COMING_UP (inbound)
- Conditions: none
- Trigger events:
+ Conditions:
+ none
+ Trigger events:
a) an explicit hardware power-up operation,
resulting from a policy decision on another
CPU;
@@ -396,13 +425,19 @@ CLUSTER_GOING_DOWN/INBOUND_COMING_UP:
Next states:
CLUSTER_UP/INBOUND_COMING_UP (outbound)
- Conditions: cluster-level setup and hardware
+ Conditions:
+ cluster-level setup and hardware
coherency complete
- Trigger events: (spontaneous)
+
+ Trigger events:
+ (spontaneous)
CLUSTER_DOWN/INBOUND_COMING_UP (outbound)
- Conditions: cluster torn down and ready to power off
- Trigger events: (spontaneous)
+ Conditions:
+ cluster torn down and ready to power off
+
+ Trigger events:
+ (spontaneous)
Last man and First man selection
@@ -452,30 +487,30 @@ Implementation:
arch/arm/common/mcpm_entry.c (everything else):
__mcpm_cpu_going_down() signals the transition of a CPU to the
- CPU_GOING_DOWN state.
+ CPU_GOING_DOWN state.
__mcpm_cpu_down() signals the transition of a CPU to the CPU_DOWN
- state.
+ state.
A CPU transitions to CPU_COMING_UP and then to CPU_UP via the
- low-level power-up code in mcpm_head.S. This could
- involve CPU-specific setup code, but in the current
- implementation it does not.
+ low-level power-up code in mcpm_head.S. This could
+ involve CPU-specific setup code, but in the current
+ implementation it does not.
__mcpm_outbound_enter_critical() and __mcpm_outbound_leave_critical()
- handle transitions from CLUSTER_UP to CLUSTER_GOING_DOWN
- and from there to CLUSTER_DOWN or back to CLUSTER_UP (in
- the case of an aborted cluster power-down).
+ handle transitions from CLUSTER_UP to CLUSTER_GOING_DOWN
+ and from there to CLUSTER_DOWN or back to CLUSTER_UP (in
+ the case of an aborted cluster power-down).
- These functions are more complex than the __mcpm_cpu_*()
- functions due to the extra inter-CPU coordination which
- is needed for safe transitions at the cluster level.
+ These functions are more complex than the __mcpm_cpu_*()
+ functions due to the extra inter-CPU coordination which
+ is needed for safe transitions at the cluster level.
A cluster transitions from CLUSTER_DOWN back to CLUSTER_UP via
- the low-level power-up code in mcpm_head.S. This
- typically involves platform-specific setup code,
- provided by the platform-specific power_up_setup
- function registered via mcpm_sync_init.
+ the low-level power-up code in mcpm_head.S. This
+ typically involves platform-specific setup code,
+ provided by the platform-specific power_up_setup
+ function registered via mcpm_sync_init.
Deep topologies:
diff --git a/Documentation/arm/firmware.txt b/Documentation/arm/firmware.rst
index 7f175dbb427e..efd844baec1d 100644
--- a/Documentation/arm/firmware.txt
+++ b/Documentation/arm/firmware.rst
@@ -1,5 +1,7 @@
-Interface for registering and calling firmware-specific operations for ARM.
-----
+==========================================================================
+Interface for registering and calling firmware-specific operations for ARM
+==========================================================================
+
Written by Tomasz Figa <t.figa@samsung.com>
Some boards are running with secure firmware running in TrustZone secure
@@ -9,7 +11,7 @@ operations and call them when needed.
Firmware operations can be specified by filling in a struct firmware_ops
with appropriate callbacks and then registering it with register_firmware_ops()
-function.
+function::
void register_firmware_ops(const struct firmware_ops *ops)
@@ -19,7 +21,7 @@ and its members can be found in arch/arm/include/asm/firmware.h header.
There is a default, empty set of operations provided, so there is no need to
set anything if platform does not require firmware operations.
-To call a firmware operation, a helper macro is provided
+To call a firmware operation, a helper macro is provided::
#define call_firmware_op(op, ...) \
((firmware_ops->op) ? firmware_ops->op(__VA_ARGS__) : (-ENOSYS))
@@ -28,7 +30,7 @@ the macro checks if the operation is provided and calls it or otherwise returns
-ENOSYS to signal that given operation is not available (for example, to allow
fallback to legacy operation).
-Example of registering firmware operations:
+Example of registering firmware operations::
/* board file */
@@ -56,7 +58,7 @@ Example of registering firmware operations:
register_firmware_ops(&platformX_firmware_ops);
}
-Example of using a firmware operation:
+Example of using a firmware operation::
/* some platform code, e.g. SMP initialization */
diff --git a/Documentation/arm/index.rst b/Documentation/arm/index.rst
new file mode 100644
index 000000000000..bd316d1a1802
--- /dev/null
+++ b/Documentation/arm/index.rst
@@ -0,0 +1,80 @@
+:orphan:
+
+================
+ARM Architecture
+================
+
+.. toctree::
+ :maxdepth: 1
+
+ arm
+ booting
+ cluster-pm-race-avoidance
+ firmware
+ interrupts
+ kernel_mode_neon
+ kernel_user_helpers
+ memory
+ mem_alignment
+ tcm
+ setup
+ swp_emulation
+ uefi
+ vlocks
+ porting
+
+SoC-specific documents
+======================
+
+.. toctree::
+ :maxdepth: 1
+
+ ixp4xx
+
+ marvel
+ microchip
+
+ netwinder
+ nwfpe/index
+
+ keystone/overview
+ keystone/knav-qmss
+
+ omap/index
+
+ pxa/mfp
+
+
+ sa1100/index
+
+ stm32/stm32f746-overview
+ stm32/overview
+ stm32/stm32h743-overview
+ stm32/stm32f769-overview
+ stm32/stm32f429-overview
+ stm32/stm32mp157-overview
+
+ sunxi
+
+ samsung/index
+ samsung-s3c24xx/index
+
+ sunxi/clocks
+
+ spear/overview
+
+ sti/stih416-overview
+ sti/stih407-overview
+ sti/stih418-overview
+ sti/overview
+ sti/stih415-overview
+
+ vfp/release-notes
+
+
+.. only:: subproject and html
+
+ Indices
+ =======
+
+ * :ref:`genindex`
diff --git a/Documentation/arm/Interrupts b/Documentation/arm/interrupts.rst
index f09ab1b90ef1..2ae70e0e9732 100644
--- a/Documentation/arm/Interrupts
+++ b/Documentation/arm/interrupts.rst
@@ -1,8 +1,10 @@
-2.5.2-rmk5
-----------
+==========
+Interrupts
+==========
-This is the first kernel that contains a major shake up of some of the
-major architecture-specific subsystems.
+2.5.2-rmk5:
+ This is the first kernel that contains a major shake up of some of the
+ major architecture-specific subsystems.
Firstly, it contains some pretty major changes to the way we handle the
MMU TLB. Each MMU TLB variant is now handled completely separately -
@@ -18,7 +20,7 @@ Unfortunately, this means that machine types that touch the irq_desc[]
array (basically all machine types) will break, and this means every
machine type that we currently have.
-Lets take an example. On the Assabet with Neponset, we have:
+Lets take an example. On the Assabet with Neponset, we have::
GPIO25 IRR:2
SA1100 ------------> Neponset -----------> SA1111
@@ -48,42 +50,47 @@ the irqdesc array). This doesn't have to be a real "IC"; indeed the
SA11x0 IRQs are handled by two separate "chip" structures, one for
GPIO0-10, and another for all the rest. It is just a container for
the various operations (maybe this'll change to a better name).
-This structure has the following operations:
-
-struct irqchip {
- /*
- * Acknowledge the IRQ.
- * If this is a level-based IRQ, then it is expected to mask the IRQ
- * as well.
- */
- void (*ack)(unsigned int irq);
- /*
- * Mask the IRQ in hardware.
- */
- void (*mask)(unsigned int irq);
- /*
- * Unmask the IRQ in hardware.
- */
- void (*unmask)(unsigned int irq);
- /*
- * Re-run the IRQ
- */
- void (*rerun)(unsigned int irq);
- /*
- * Set the type of the IRQ.
- */
- int (*type)(unsigned int irq, unsigned int, type);
-};
-
-ack - required. May be the same function as mask for IRQs
+This structure has the following operations::
+
+ struct irqchip {
+ /*
+ * Acknowledge the IRQ.
+ * If this is a level-based IRQ, then it is expected to mask the IRQ
+ * as well.
+ */
+ void (*ack)(unsigned int irq);
+ /*
+ * Mask the IRQ in hardware.
+ */
+ void (*mask)(unsigned int irq);
+ /*
+ * Unmask the IRQ in hardware.
+ */
+ void (*unmask)(unsigned int irq);
+ /*
+ * Re-run the IRQ
+ */
+ void (*rerun)(unsigned int irq);
+ /*
+ * Set the type of the IRQ.
+ */
+ int (*type)(unsigned int irq, unsigned int, type);
+ };
+
+ack
+ - required. May be the same function as mask for IRQs
handled by do_level_IRQ.
-mask - required.
-unmask - required.
-rerun - optional. Not required if you're using do_level_IRQ for all
+mask
+ - required.
+unmask
+ - required.
+rerun
+ - optional. Not required if you're using do_level_IRQ for all
IRQs that use this 'irqchip'. Generally expected to re-trigger
the hardware IRQ if possible. If not, may call the handler
directly.
-type - optional. If you don't support changing the type of an IRQ,
+type
+ - optional. If you don't support changing the type of an IRQ,
it should be null so people can detect if they are unable to
set the IRQ type.
@@ -109,6 +116,7 @@ manipulation, nor state tracking. This is useful for things like the
SMC9196 and USAR above.
So, what's changed?
+===================
1. Machine implementations must not write to the irqdesc array.
@@ -118,24 +126,19 @@ So, what's changed?
absolutely necessary.
set_irq_chip(irq,chip)
-
Set the mask/unmask methods for handling this IRQ
set_irq_handler(irq,handler)
-
Set the handler for this IRQ (level, edge, simple)
set_irq_chained_handler(irq,handler)
-
Set a "chained" handler for this IRQ - automatically
enables this IRQ (eg, Neponset and SA1111 handlers).
set_irq_flags(irq,flags)
-
Set the valid/probe/noautoenable flags.
set_irq_type(irq,type)
-
Set active the IRQ edge(s)/level. This replaces the
SA1111 INTPOL manipulation, and the set_GPIO_IRQ_edge()
function. Type should be one of IRQ_TYPE_xxx defined in
@@ -158,10 +161,9 @@ So, what's changed?
be re-checked for pending events. (see the Neponset IRQ handler for
details).
-7. fixup_irq() is gone, as is arch/arm/mach-*/include/mach/irq.h
+7. fixup_irq() is gone, as is `arch/arm/mach-*/include/mach/irq.h`
Please note that this will not solve all problems - some of them are
hardware based. Mixing level-based and edge-based IRQs on the same
parent signal (eg neponset) is one such area where a software based
solution can't provide the full answer to low IRQ latency.
-
diff --git a/Documentation/arm/IXP4xx b/Documentation/arm/ixp4xx.rst
index e48b74de6ac0..a57235616294 100644
--- a/Documentation/arm/IXP4xx
+++ b/Documentation/arm/ixp4xx.rst
@@ -1,6 +1,6 @@
-
--------------------------------------------------------------------------
+===========================================================
Release Notes for Linux on Intel's IXP4xx Network Processor
+===========================================================
Maintained by Deepak Saxena <dsaxena@plexity.net>
-------------------------------------------------------------------------
@@ -8,7 +8,7 @@ Maintained by Deepak Saxena <dsaxena@plexity.net>
1. Overview
Intel's IXP4xx network processor is a highly integrated SOC that
-is targeted for network applications, though it has become popular
+is targeted for network applications, though it has become popular
in industrial control and other areas due to low cost and power
consumption. The IXP4xx family currently consists of several processors
that support different network offload functions such as encryption,
@@ -20,7 +20,7 @@ For more information on the various versions of the CPU, see:
http://developer.intel.com/design/network/products/npfamily/ixp4xx.htm
-Intel also made the IXCP1100 CPU for sometime which is an IXP4xx
+Intel also made the IXCP1100 CPU for sometime which is an IXP4xx
stripped of much of the network intelligence.
2. Linux Support
@@ -31,7 +31,7 @@ Linux currently supports the following features on the IXP4xx chips:
- PCI interface
- Flash access (MTD/JFFS)
- I2C through GPIO on IXP42x
-- GPIO for input/output/interrupts
+- GPIO for input/output/interrupts
See arch/arm/mach-ixp4xx/include/mach/platform.h for access functions.
- Timers (watchdog, OS)
@@ -45,7 +45,7 @@ require the use of Intel's proprietary CSR software:
If you need to use any of the above, you need to download Intel's
software from:
- http://developer.intel.com/design/network/products/npfamily/ixp425.htm
+ http://developer.intel.com/design/network/products/npfamily/ixp425.htm
DO NOT POST QUESTIONS TO THE LINUX MAILING LISTS REGARDING THE PROPRIETARY
SOFTWARE.
@@ -53,14 +53,14 @@ SOFTWARE.
There are several websites that provide directions/pointers on using
Intel's software:
- http://sourceforge.net/projects/ixp4xx-osdg/
- Open Source Developer's Guide for using uClinux and the Intel libraries
+ - http://sourceforge.net/projects/ixp4xx-osdg/
+ Open Source Developer's Guide for using uClinux and the Intel libraries
-http://gatewaymaker.sourceforge.net/
- Simple one page summary of building a gateway using an IXP425 and Linux
+ - http://gatewaymaker.sourceforge.net/
+ Simple one page summary of building a gateway using an IXP425 and Linux
-http://ixp425.sourceforge.net/
- ATM device driver for IXP425 that relies on Intel's libraries
+ - http://ixp425.sourceforge.net/
+ ATM device driver for IXP425 that relies on Intel's libraries
3. Known Issues/Limitations
@@ -70,7 +70,7 @@ The IXP4xx family allows for up to 256MB of memory but the PCI interface
can only expose 64MB of that memory to the PCI bus. This means that if
you are running with > 64MB, all PCI buffers outside of the accessible
range will be bounced using the routines in arch/arm/common/dmabounce.c.
-
+
3b. Limited outbound PCI window
IXP4xx provides two methods of accessing PCI memory space:
@@ -79,15 +79,15 @@ IXP4xx provides two methods of accessing PCI memory space:
To access PCI via this space, we simply ioremap() the BAR
into the kernel and we can use the standard read[bwl]/write[bwl]
macros. This is the preffered method due to speed but it
- limits the system to just 64MB of PCI memory. This can be
+ limits the system to just 64MB of PCI memory. This can be
problamatic if using video cards and other memory-heavy devices.
-
-2) If > 64MB of memory space is required, the IXP4xx can be
- configured to use indirect registers to access PCI This allows
- for up to 128MB (0x48000000 to 0x4fffffff) of memory on the bus.
- The disadvantage of this is that every PCI access requires
- three local register accesses plus a spinlock, but in some
- cases the performance hit is acceptable. In addition, you cannot
+
+2) If > 64MB of memory space is required, the IXP4xx can be
+ configured to use indirect registers to access PCI This allows
+ for up to 128MB (0x48000000 to 0x4fffffff) of memory on the bus.
+ The disadvantage of this is that every PCI access requires
+ three local register accesses plus a spinlock, but in some
+ cases the performance hit is acceptable. In addition, you cannot
mmap() PCI devices in this case due to the indirect nature
of the PCI window.
@@ -96,14 +96,14 @@ you need more PCI memory, enable the IXP4XX_INDIRECT_PCI config option.
3c. GPIO as Interrupts
-Currently the code only handles level-sensitive GPIO interrupts
+Currently the code only handles level-sensitive GPIO interrupts
4. Supported platforms
ADI Engineering Coyote Gateway Reference Platform
http://www.adiengineering.com/productsCoyote.html
- The ADI Coyote platform is reference design for those building
+ The ADI Coyote platform is reference design for those building
small residential/office gateways. One NPE is connected to a 10/100
interface, one to 4-port 10/100 switch, and the third to and ADSL
interface. In addition, it also supports to POTs interfaces connected
@@ -119,9 +119,9 @@ http://www.gateworks.com/support/overview.php
the expansion bus.
Intel IXDP425 Development Platform
-http://www.intel.com/design/network/products/npfamily/ixdpg425.htm
+http://www.intel.com/design/network/products/npfamily/ixdpg425.htm
- This is Intel's standard reference platform for the IXDP425 and is
+ This is Intel's standard reference platform for the IXDP425 and is
also known as the Richfield board. It contains 4 PCI slots, 16MB
of flash, two 10/100 ports and one ADSL port.
@@ -161,11 +161,12 @@ The IXP4xx work has been funded by Intel Corp. and MontaVista Software, Inc.
The following people have contributed patches/comments/etc:
-Lennerty Buytenhek
-Lutz Jaenicke
-Justin Mayfield
-Robert E. Ranslam
-[I know I've forgotten others, please email me to be added]
+- Lennerty Buytenhek
+- Lutz Jaenicke
+- Justin Mayfield
+- Robert E. Ranslam
+
+[I know I've forgotten others, please email me to be added]
-------------------------------------------------------------------------
diff --git a/Documentation/arm/kernel_mode_neon.txt b/Documentation/arm/kernel_mode_neon.rst
index b9e060c5b61e..9bfb71a2a9b9 100644
--- a/Documentation/arm/kernel_mode_neon.txt
+++ b/Documentation/arm/kernel_mode_neon.rst
@@ -1,3 +1,4 @@
+================
Kernel mode NEON
================
@@ -86,6 +87,7 @@ instructions appearing in unexpected places if no special care is taken.
Therefore, the recommended and only supported way of using NEON/VFP in the
kernel is by adhering to the following rules:
+
* isolate the NEON code in a separate compilation unit and compile it with
'-march=armv7-a -mfpu=neon -mfloat-abi=softfp';
* issue the calls to kernel_neon_begin(), kernel_neon_end() as well as the calls
@@ -115,6 +117,7 @@ NEON intrinsics
NEON intrinsics are also supported. However, as code using NEON intrinsics
relies on the GCC header <arm_neon.h>, (which #includes <stdint.h>), you should
observe the following in addition to the rules above:
+
* Compile the unit containing the NEON intrinsics with '-ffreestanding' so GCC
uses its builtin version of <stdint.h> (this is a C99 header which the kernel
does not supply);
diff --git a/Documentation/arm/kernel_user_helpers.txt b/Documentation/arm/kernel_user_helpers.rst
index 5673594717cf..eb6f3d916622 100644
--- a/Documentation/arm/kernel_user_helpers.txt
+++ b/Documentation/arm/kernel_user_helpers.rst
@@ -1,3 +1,4 @@
+============================
Kernel-provided User Helpers
============================
@@ -43,7 +44,7 @@ kuser_helper_version
Location: 0xffff0ffc
-Reference declaration:
+Reference declaration::
extern int32_t __kuser_helper_version;
@@ -53,17 +54,17 @@ Definition:
running kernel. User space may read this to determine the availability
of a particular helper.
-Usage example:
+Usage example::
-#define __kuser_helper_version (*(int32_t *)0xffff0ffc)
+ #define __kuser_helper_version (*(int32_t *)0xffff0ffc)
-void check_kuser_version(void)
-{
+ void check_kuser_version(void)
+ {
if (__kuser_helper_version < 2) {
fprintf(stderr, "can't do atomic operations, kernel too old\n");
abort();
}
-}
+ }
Notes:
@@ -77,7 +78,7 @@ kuser_get_tls
Location: 0xffff0fe0
-Reference prototype:
+Reference prototype::
void * __kuser_get_tls(void);
@@ -97,16 +98,16 @@ Definition:
Get the TLS value as previously set via the __ARM_NR_set_tls syscall.
-Usage example:
+Usage example::
-typedef void * (__kuser_get_tls_t)(void);
-#define __kuser_get_tls (*(__kuser_get_tls_t *)0xffff0fe0)
+ typedef void * (__kuser_get_tls_t)(void);
+ #define __kuser_get_tls (*(__kuser_get_tls_t *)0xffff0fe0)
-void foo()
-{
+ void foo()
+ {
void *tls = __kuser_get_tls();
printf("TLS = %p\n", tls);
-}
+ }
Notes:
@@ -117,7 +118,7 @@ kuser_cmpxchg
Location: 0xffff0fc0
-Reference prototype:
+Reference prototype::
int __kuser_cmpxchg(int32_t oldval, int32_t newval, volatile int32_t *ptr);
@@ -139,18 +140,18 @@ Clobbered registers:
Definition:
- Atomically store newval in *ptr only if *ptr is equal to oldval.
- Return zero if *ptr was changed or non-zero if no exchange happened.
- The C flag is also set if *ptr was changed to allow for assembly
+ Atomically store newval in `*ptr` only if `*ptr` is equal to oldval.
+ Return zero if `*ptr` was changed or non-zero if no exchange happened.
+ The C flag is also set if `*ptr` was changed to allow for assembly
optimization in the calling code.
-Usage example:
+Usage example::
-typedef int (__kuser_cmpxchg_t)(int oldval, int newval, volatile int *ptr);
-#define __kuser_cmpxchg (*(__kuser_cmpxchg_t *)0xffff0fc0)
+ typedef int (__kuser_cmpxchg_t)(int oldval, int newval, volatile int *ptr);
+ #define __kuser_cmpxchg (*(__kuser_cmpxchg_t *)0xffff0fc0)
-int atomic_add(volatile int *ptr, int val)
-{
+ int atomic_add(volatile int *ptr, int val)
+ {
int old, new;
do {
@@ -159,7 +160,7 @@ int atomic_add(volatile int *ptr, int val)
} while(__kuser_cmpxchg(old, new, ptr));
return new;
-}
+ }
Notes:
@@ -172,7 +173,7 @@ kuser_memory_barrier
Location: 0xffff0fa0
-Reference prototype:
+Reference prototype::
void __kuser_memory_barrier(void);
@@ -193,10 +194,10 @@ Definition:
Apply any needed memory barrier to preserve consistency with data modified
manually and __kuser_cmpxchg usage.
-Usage example:
+Usage example::
-typedef void (__kuser_dmb_t)(void);
-#define __kuser_dmb (*(__kuser_dmb_t *)0xffff0fa0)
+ typedef void (__kuser_dmb_t)(void);
+ #define __kuser_dmb (*(__kuser_dmb_t *)0xffff0fa0)
Notes:
@@ -207,7 +208,7 @@ kuser_cmpxchg64
Location: 0xffff0f60
-Reference prototype:
+Reference prototype::
int __kuser_cmpxchg64(const int64_t *oldval,
const int64_t *newval,
@@ -231,22 +232,22 @@ Clobbered registers:
Definition:
- Atomically store the 64-bit value pointed by *newval in *ptr only if *ptr
- is equal to the 64-bit value pointed by *oldval. Return zero if *ptr was
+ Atomically store the 64-bit value pointed by `*newval` in `*ptr` only if `*ptr`
+ is equal to the 64-bit value pointed by `*oldval`. Return zero if `*ptr` was
changed or non-zero if no exchange happened.
- The C flag is also set if *ptr was changed to allow for assembly
+ The C flag is also set if `*ptr` was changed to allow for assembly
optimization in the calling code.
-Usage example:
+Usage example::
-typedef int (__kuser_cmpxchg64_t)(const int64_t *oldval,
- const int64_t *newval,
- volatile int64_t *ptr);
-#define __kuser_cmpxchg64 (*(__kuser_cmpxchg64_t *)0xffff0f60)
+ typedef int (__kuser_cmpxchg64_t)(const int64_t *oldval,
+ const int64_t *newval,
+ volatile int64_t *ptr);
+ #define __kuser_cmpxchg64 (*(__kuser_cmpxchg64_t *)0xffff0f60)
-int64_t atomic_add64(volatile int64_t *ptr, int64_t val)
-{
+ int64_t atomic_add64(volatile int64_t *ptr, int64_t val)
+ {
int64_t old, new;
do {
@@ -255,7 +256,7 @@ int64_t atomic_add64(volatile int64_t *ptr, int64_t val)
} while(__kuser_cmpxchg64(&old, &new, ptr));
return new;
-}
+ }
Notes:
diff --git a/Documentation/arm/keystone/knav-qmss.txt b/Documentation/arm/keystone/knav-qmss.rst
index fcdb9fd5f53a..7f7638d80b42 100644
--- a/Documentation/arm/keystone/knav-qmss.txt
+++ b/Documentation/arm/keystone/knav-qmss.rst
@@ -1,4 +1,6 @@
-* Texas Instruments Keystone Navigator Queue Management SubSystem driver
+======================================================================
+Texas Instruments Keystone Navigator Queue Management SubSystem driver
+======================================================================
Driver source code path
drivers/soc/ti/knav_qmss.c
@@ -34,11 +36,13 @@ driver that interface with the accumulator PDSP. This configures
accumulator channels defined in DTS (example in DT documentation) to monitor
1 or 32 queues per channel. More description on the firmware is available in
CPPI/QMSS Low Level Driver document (docs/CPPI_QMSS_LLD_SDS.pdf) at
+
git://git.ti.com/keystone-rtos/qmss-lld.git
k2_qmss_pdsp_acc48_k2_le_1_0_0_9.bin firmware supports upto 48 accumulator
channels. This firmware is available under ti-keystone folder of
firmware.git at
+
git://git.kernel.org/pub/scm/linux/kernel/git/firmware/linux-firmware.git
To use copy the firmware image to lib/firmware folder of the initramfs or
diff --git a/Documentation/arm/keystone/Overview.txt b/Documentation/arm/keystone/overview.rst
index 400c0c270d2e..cd90298c493c 100644
--- a/Documentation/arm/keystone/Overview.txt
+++ b/Documentation/arm/keystone/overview.rst
@@ -1,5 +1,6 @@
- TI Keystone Linux Overview
- --------------------------
+==========================
+TI Keystone Linux Overview
+==========================
Introduction
------------
@@ -9,47 +10,65 @@ for users to run Linux on Keystone based EVMs from Texas Instruments.
Following SoCs & EVMs are currently supported:-
------------- K2HK SoC and EVM --------------------------------------------------
+K2HK SoC and EVM
+=================
a.k.a Keystone 2 Hawking/Kepler SoC
TCI6636K2H & TCI6636K2K: See documentation at
+
http://www.ti.com/product/tci6638k2k
http://www.ti.com/product/tci6638k2h
EVM:
-http://www.advantech.com/Support/TI-EVM/EVMK2HX_sd.aspx
+ http://www.advantech.com/Support/TI-EVM/EVMK2HX_sd.aspx
------------- K2E SoC and EVM ---------------------------------------------------
+K2E SoC and EVM
+===============
a.k.a Keystone 2 Edison SoC
-K2E - 66AK2E05: See documentation at
+
+K2E - 66AK2E05:
+
+See documentation at
+
http://www.ti.com/product/66AK2E05/technicaldocuments
EVM:
-https://www.einfochips.com/index.php/partnerships/texas-instruments/k2e-evm.html
+ https://www.einfochips.com/index.php/partnerships/texas-instruments/k2e-evm.html
------------- K2L SoC and EVM ---------------------------------------------------
+K2L SoC and EVM
+===============
a.k.a Keystone 2 Lamarr SoC
-K2L - TCI6630K2L: See documentation at
+
+K2L - TCI6630K2L:
+
+See documentation at
http://www.ti.com/product/TCI6630K2L/technicaldocuments
+
EVM:
-https://www.einfochips.com/index.php/partnerships/texas-instruments/k2l-evm.html
+ https://www.einfochips.com/index.php/partnerships/texas-instruments/k2l-evm.html
Configuration
-------------
All of the K2 SoCs/EVMs share a common defconfig, keystone_defconfig and same
image is used to boot on individual EVMs. The platform configuration is
-specified through DTS. Following are the DTS used:-
- K2HK EVM : k2hk-evm.dts
- K2E EVM : k2e-evm.dts
- K2L EVM : k2l-evm.dts
+specified through DTS. Following are the DTS used:
+
+ K2HK EVM:
+ k2hk-evm.dts
+ K2E EVM:
+ k2e-evm.dts
+ K2L EVM:
+ k2l-evm.dts
The device tree documentation for the keystone machines are located at
+
Documentation/devicetree/bindings/arm/keystone/keystone.txt
Document Author
---------------
Murali Karicheri <m-karicheri2@ti.com>
+
Copyright 2015 Texas Instruments
diff --git a/Documentation/arm/marvel.rst b/Documentation/arm/marvel.rst
new file mode 100644
index 000000000000..16ab2eb085b8
--- /dev/null
+++ b/Documentation/arm/marvel.rst
@@ -0,0 +1,488 @@
+================
+ARM Marvell SoCs
+================
+
+This document lists all the ARM Marvell SoCs that are currently
+supported in mainline by the Linux kernel. As the Marvell families of
+SoCs are large and complex, it is hard to understand where the support
+for a particular SoC is available in the Linux kernel. This document
+tries to help in understanding where those SoCs are supported, and to
+match them with their corresponding public datasheet, when available.
+
+Orion family
+------------
+
+ Flavors:
+ - 88F5082
+ - 88F5181
+ - 88F5181L
+ - 88F5182
+
+ - Datasheet: http://www.embeddedarm.com/documentation/third-party/MV88F5182-datasheet.pdf
+ - Programmer's User Guide: http://www.embeddedarm.com/documentation/third-party/MV88F5182-opensource-manual.pdf
+ - User Manual: http://www.embeddedarm.com/documentation/third-party/MV88F5182-usermanual.pdf
+ - 88F5281
+
+ - Datasheet: http://www.ocmodshop.com/images/reviews/networking/qnap_ts409u/marvel_88f5281_data_sheet.pdf
+ - 88F6183
+ Core:
+ Feroceon 88fr331 (88f51xx) or 88fr531-vd (88f52xx) ARMv5 compatible
+ Linux kernel mach directory:
+ arch/arm/mach-orion5x
+ Linux kernel plat directory:
+ arch/arm/plat-orion
+
+Kirkwood family
+---------------
+
+ Flavors:
+ - 88F6282 a.k.a Armada 300
+
+ - Product Brief : http://www.marvell.com/embedded-processors/armada-300/assets/armada_310.pdf
+ - 88F6283 a.k.a Armada 310
+
+ - Product Brief : http://www.marvell.com/embedded-processors/armada-300/assets/armada_310.pdf
+ - 88F6190
+
+ - Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6190-003_WEB.pdf
+ - Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F619x_OpenSource.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
+ - 88F6192
+
+ - Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6192-003_ver1.pdf
+ - Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F619x_OpenSource.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
+ - 88F6182
+ - 88F6180
+
+ - Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6180-003_ver1.pdf
+ - Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F6180_OpenSource.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
+ - 88F6281
+
+ - Product Brief : http://www.marvell.com/embedded-processors/kirkwood/assets/88F6281-004_ver1.pdf
+ - Hardware Spec : http://www.marvell.com/embedded-processors/kirkwood/assets/HW_88F6281_OpenSource.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/kirkwood/assets/FS_88F6180_9x_6281_OpenSource.pdf
+ Homepage:
+ http://www.marvell.com/embedded-processors/kirkwood/
+ Core:
+ Feroceon 88fr131 ARMv5 compatible
+ Linux kernel mach directory:
+ arch/arm/mach-mvebu
+ Linux kernel plat directory:
+ none
+
+Discovery family
+----------------
+
+ Flavors:
+ - MV78100
+
+ - Product Brief : http://www.marvell.com/embedded-processors/discovery-innovation/assets/MV78100-003_WEB.pdf
+ - Hardware Spec : http://www.marvell.com/embedded-processors/discovery-innovation/assets/HW_MV78100_OpenSource.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/discovery-innovation/assets/FS_MV76100_78100_78200_OpenSource.pdf
+ - MV78200
+
+ - Product Brief : http://www.marvell.com/embedded-processors/discovery-innovation/assets/MV78200-002_WEB.pdf
+ - Hardware Spec : http://www.marvell.com/embedded-processors/discovery-innovation/assets/HW_MV78200_OpenSource.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/discovery-innovation/assets/FS_MV76100_78100_78200_OpenSource.pdf
+ - MV76100
+
+ Not supported by the Linux kernel.
+
+ Core:
+ Feroceon 88fr571-vd ARMv5 compatible
+
+ Linux kernel mach directory:
+ arch/arm/mach-mv78xx0
+ Linux kernel plat directory:
+ arch/arm/plat-orion
+
+EBU Armada family
+-----------------
+
+ Armada 370 Flavors:
+ - 88F6710
+ - 88F6707
+ - 88F6W11
+
+ - Product Brief: http://www.marvell.com/embedded-processors/armada-300/assets/Marvell_ARMADA_370_SoC.pdf
+ - Hardware Spec: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA370-datasheet.pdf
+ - Functional Spec: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA370-FunctionalSpec-datasheet.pdf
+
+ Core:
+ Sheeva ARMv7 compatible PJ4B
+
+ Armada 375 Flavors:
+ - 88F6720
+
+ - Product Brief: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA_375_SoC-01_product_brief.pdf
+
+ Core:
+ ARM Cortex-A9
+
+ Armada 38x Flavors:
+ - 88F6810 Armada 380
+ - 88F6820 Armada 385
+ - 88F6828 Armada 388
+
+ - Product infos: http://www.marvell.com/embedded-processors/armada-38x/
+ - Functional Spec: https://marvellcorp.wufoo.com/forms/marvell-armada-38x-functional-specifications/
+
+ Core:
+ ARM Cortex-A9
+
+ Armada 39x Flavors:
+ - 88F6920 Armada 390
+ - 88F6928 Armada 398
+
+ - Product infos: http://www.marvell.com/embedded-processors/armada-39x/
+
+ Core:
+ ARM Cortex-A9
+
+ Armada XP Flavors:
+ - MV78230
+ - MV78260
+ - MV78460
+
+ NOTE:
+ not to be confused with the non-SMP 78xx0 SoCs
+
+ Product Brief:
+ http://www.marvell.com/embedded-processors/armada-xp/assets/Marvell-ArmadaXP-SoC-product%20brief.pdf
+
+ Functional Spec:
+ http://www.marvell.com/embedded-processors/armada-xp/assets/ARMADA-XP-Functional-SpecDatasheet.pdf
+
+ - Hardware Specs:
+
+ - http://www.marvell.com/embedded-processors/armada-xp/assets/HW_MV78230_OS.PDF
+ - http://www.marvell.com/embedded-processors/armada-xp/assets/HW_MV78260_OS.PDF
+ - http://www.marvell.com/embedded-processors/armada-xp/assets/HW_MV78460_OS.PDF
+
+ Core:
+ Sheeva ARMv7 compatible Dual-core or Quad-core PJ4B-MP
+
+ Linux kernel mach directory:
+ arch/arm/mach-mvebu
+ Linux kernel plat directory:
+ none
+
+EBU Armada family ARMv8
+-----------------------
+
+ Armada 3710/3720 Flavors:
+ - 88F3710
+ - 88F3720
+
+ Core:
+ ARM Cortex A53 (ARMv8)
+
+ Homepage:
+ http://www.marvell.com/embedded-processors/armada-3700/
+
+ Product Brief:
+ http://www.marvell.com/embedded-processors/assets/PB-88F3700-FNL.pdf
+
+ Device tree files:
+ arch/arm64/boot/dts/marvell/armada-37*
+
+ Armada 7K Flavors:
+ - 88F7020 (AP806 Dual + one CP110)
+ - 88F7040 (AP806 Quad + one CP110)
+
+ Core: ARM Cortex A72
+
+ Homepage:
+ http://www.marvell.com/embedded-processors/armada-70xx/
+
+ Product Brief:
+ - http://www.marvell.com/embedded-processors/assets/Armada7020PB-Jan2016.pdf
+ - http://www.marvell.com/embedded-processors/assets/Armada7040PB-Jan2016.pdf
+
+ Device tree files:
+ arch/arm64/boot/dts/marvell/armada-70*
+
+ Armada 8K Flavors:
+ - 88F8020 (AP806 Dual + two CP110)
+ - 88F8040 (AP806 Quad + two CP110)
+ Core:
+ ARM Cortex A72
+
+ Homepage:
+ http://www.marvell.com/embedded-processors/armada-80xx/
+
+ Product Brief:
+ - http://www.marvell.com/embedded-processors/assets/Armada8020PB-Jan2016.pdf
+ - http://www.marvell.com/embedded-processors/assets/Armada8040PB-Jan2016.pdf
+
+ Device tree files:
+ arch/arm64/boot/dts/marvell/armada-80*
+
+Avanta family
+-------------
+
+ Flavors:
+ - 88F6510
+ - 88F6530P
+ - 88F6550
+ - 88F6560
+
+ Homepage:
+ http://www.marvell.com/broadband/
+
+ Product Brief:
+ http://www.marvell.com/broadband/assets/Marvell_Avanta_88F6510_305_060-001_product_brief.pdf
+
+ No public datasheet available.
+
+ Core:
+ ARMv5 compatible
+
+ Linux kernel mach directory:
+ no code in mainline yet, planned for the future
+ Linux kernel plat directory:
+ no code in mainline yet, planned for the future
+
+Storage family
+--------------
+
+ Armada SP:
+ - 88RC1580
+
+ Product infos:
+ http://www.marvell.com/storage/armada-sp/
+
+ Core:
+ Sheeva ARMv7 comatible Quad-core PJ4C
+
+ (not supported in upstream Linux kernel)
+
+Dove family (application processor)
+-----------------------------------
+
+ Flavors:
+ - 88AP510 a.k.a Armada 510
+
+ Product Brief:
+ http://www.marvell.com/application-processors/armada-500/assets/Marvell_Armada510_SoC.pdf
+
+ Hardware Spec:
+ http://www.marvell.com/application-processors/armada-500/assets/Armada-510-Hardware-Spec.pdf
+
+ Functional Spec:
+ http://www.marvell.com/application-processors/armada-500/assets/Armada-510-Functional-Spec.pdf
+
+ Homepage:
+ http://www.marvell.com/application-processors/armada-500/
+
+ Core:
+ ARMv7 compatible
+
+ Directory:
+ - arch/arm/mach-mvebu (DT enabled platforms)
+ - arch/arm/mach-dove (non-DT enabled platforms)
+
+PXA 2xx/3xx/93x/95x family
+--------------------------
+
+ Flavors:
+ - PXA21x, PXA25x, PXA26x
+ - Application processor only
+ - Core: ARMv5 XScale1 core
+ - PXA270, PXA271, PXA272
+ - Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_pb.pdf
+ - Design guide : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_design_guide.pdf
+ - Developers manual : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_dev_man.pdf
+ - Specification : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_emts.pdf
+ - Specification update : http://www.marvell.com/application-processors/pxa-family/assets/pxa_27x_spec_update.pdf
+ - Application processor only
+ - Core: ARMv5 XScale2 core
+ - PXA300, PXA310, PXA320
+ - PXA 300 Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/PXA300_PB_R4.pdf
+ - PXA 310 Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/PXA310_PB_R4.pdf
+ - PXA 320 Product Brief : http://www.marvell.com/application-processors/pxa-family/assets/PXA320_PB_R4.pdf
+ - Design guide : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_Design_Guide.pdf
+ - Developers manual : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_Developers_Manual.zip
+ - Specifications : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_EMTS.pdf
+ - Specification Update : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_Spec_Update.zip
+ - Reference Manual : http://www.marvell.com/application-processors/pxa-family/assets/PXA3xx_TavorP_BootROM_Ref_Manual.pdf
+ - Application processor only
+ - Core: ARMv5 XScale3 core
+ - PXA930, PXA935
+ - Application processor with Communication processor
+ - Core: ARMv5 XScale3 core
+ - PXA955
+ - Application processor with Communication processor
+ - Core: ARMv7 compatible Sheeva PJ4 core
+
+ Comments:
+
+ * This line of SoCs originates from the XScale family developed by
+ Intel and acquired by Marvell in ~2006. The PXA21x, PXA25x,
+ PXA26x, PXA27x, PXA3xx and PXA93x were developed by Intel, while
+ the later PXA95x were developed by Marvell.
+
+ * Due to their XScale origin, these SoCs have virtually nothing in
+ common with the other (Kirkwood, Dove, etc.) families of Marvell
+ SoCs, except with the MMP/MMP2 family of SoCs.
+
+ Linux kernel mach directory:
+ arch/arm/mach-pxa
+ Linux kernel plat directory:
+ arch/arm/plat-pxa
+
+MMP/MMP2/MMP3 family (communication processor)
+----------------------------------------------
+
+ Flavors:
+ - PXA168, a.k.a Armada 168
+ - Homepage : http://www.marvell.com/application-processors/armada-100/armada-168.jsp
+ - Product brief : http://www.marvell.com/application-processors/armada-100/assets/pxa_168_pb.pdf
+ - Hardware manual : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_datasheet.pdf
+ - Software manual : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_software_manual.pdf
+ - Specification update : http://www.marvell.com/application-processors/armada-100/assets/ARMADA16x_Spec_update.pdf
+ - Boot ROM manual : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_ref_manual.pdf
+ - App node package : http://www.marvell.com/application-processors/armada-100/assets/armada_16x_app_note_package.pdf
+ - Application processor only
+ - Core: ARMv5 compatible Marvell PJ1 88sv331 (Mohawk)
+ - PXA910/PXA920
+ - Homepage : http://www.marvell.com/communication-processors/pxa910/
+ - Product Brief : http://www.marvell.com/communication-processors/pxa910/assets/Marvell_PXA910_Platform-001_PB_final.pdf
+ - Application processor with Communication processor
+ - Core: ARMv5 compatible Marvell PJ1 88sv331 (Mohawk)
+ - PXA688, a.k.a. MMP2, a.k.a Armada 610
+ - Product Brief : http://www.marvell.com/application-processors/armada-600/assets/armada610_pb.pdf
+ - Application processor only
+ - Core: ARMv7 compatible Sheeva PJ4 88sv581x core
+ - PXA2128, a.k.a. MMP3 (OLPC XO4, Linux support not upstream)
+ - Product Brief : http://www.marvell.com/application-processors/armada/pxa2128/assets/Marvell-ARMADA-PXA2128-SoC-PB.pdf
+ - Application processor only
+ - Core: Dual-core ARMv7 compatible Sheeva PJ4C core
+ - PXA960/PXA968/PXA978 (Linux support not upstream)
+ - Application processor with Communication Processor
+ - Core: ARMv7 compatible Sheeva PJ4 core
+ - PXA986/PXA988 (Linux support not upstream)
+ - Application processor with Communication Processor
+ - Core: Dual-core ARMv7 compatible Sheeva PJ4B-MP core
+ - PXA1088/PXA1920 (Linux support not upstream)
+ - Application processor with Communication Processor
+ - Core: quad-core ARMv7 Cortex-A7
+ - PXA1908/PXA1928/PXA1936
+ - Application processor with Communication Processor
+ - Core: multi-core ARMv8 Cortex-A53
+
+ Comments:
+
+ * This line of SoCs originates from the XScale family developed by
+ Intel and acquired by Marvell in ~2006. All the processors of
+ this MMP/MMP2 family were developed by Marvell.
+
+ * Due to their XScale origin, these SoCs have virtually nothing in
+ common with the other (Kirkwood, Dove, etc.) families of Marvell
+ SoCs, except with the PXA family of SoCs listed above.
+
+ Linux kernel mach directory:
+ arch/arm/mach-mmp
+ Linux kernel plat directory:
+ arch/arm/plat-pxa
+
+Berlin family (Multimedia Solutions)
+-------------------------------------
+
+ - Flavors:
+ - 88DE3010, Armada 1000 (no Linux support)
+ - Core: Marvell PJ1 (ARMv5TE), Dual-core
+ - Product Brief: http://www.marvell.com.cn/digital-entertainment/assets/armada_1000_pb.pdf
+ - 88DE3005, Armada 1500 Mini
+ - Design name: BG2CD
+ - Core: ARM Cortex-A9, PL310 L2CC
+ - 88DE3006, Armada 1500 Mini Plus
+ - Design name: BG2CDP
+ - Core: Dual Core ARM Cortex-A7
+ - 88DE3100, Armada 1500
+ - Design name: BG2
+ - Core: Marvell PJ4B-MP (ARMv7), Tauros3 L2CC
+ - 88DE3114, Armada 1500 Pro
+ - Design name: BG2Q
+ - Core: Quad Core ARM Cortex-A9, PL310 L2CC
+ - 88DE3214, Armada 1500 Pro 4K
+ - Design name: BG3
+ - Core: ARM Cortex-A15, CA15 integrated L2CC
+ - 88DE3218, ARMADA 1500 Ultra
+ - Core: ARM Cortex-A53
+
+ Homepage: https://www.synaptics.com/products/multimedia-solutions
+ Directory: arch/arm/mach-berlin
+
+ Comments:
+
+ * This line of SoCs is based on Marvell Sheeva or ARM Cortex CPUs
+ with Synopsys DesignWare (IRQ, GPIO, Timers, ...) and PXA IP (SDHCI, USB, ETH, ...).
+
+ * The Berlin family was acquired by Synaptics from Marvell in 2017.
+
+CPU Cores
+---------
+
+The XScale cores were designed by Intel, and shipped by Marvell in the older
+PXA processors. Feroceon is a Marvell designed core that developed in-house,
+and that evolved into Sheeva. The XScale and Feroceon cores were phased out
+over time and replaced with Sheeva cores in later products, which subsequently
+got replaced with licensed ARM Cortex-A cores.
+
+ XScale 1
+ CPUID 0x69052xxx
+ ARMv5, iWMMXt
+ XScale 2
+ CPUID 0x69054xxx
+ ARMv5, iWMMXt
+ XScale 3
+ CPUID 0x69056xxx or 0x69056xxx
+ ARMv5, iWMMXt
+ Feroceon-1850 88fr331 "Mohawk"
+ CPUID 0x5615331x or 0x41xx926x
+ ARMv5TE, single issue
+ Feroceon-2850 88fr531-vd "Jolteon"
+ CPUID 0x5605531x or 0x41xx926x
+ ARMv5TE, VFP, dual-issue
+ Feroceon 88fr571-vd "Jolteon"
+ CPUID 0x5615571x
+ ARMv5TE, VFP, dual-issue
+ Feroceon 88fr131 "Mohawk-D"
+ CPUID 0x5625131x
+ ARMv5TE, single-issue in-order
+ Sheeva PJ1 88sv331 "Mohawk"
+ CPUID 0x561584xx
+ ARMv5, single-issue iWMMXt v2
+ Sheeva PJ4 88sv581x "Flareon"
+ CPUID 0x560f581x
+ ARMv7, idivt, optional iWMMXt v2
+ Sheeva PJ4B 88sv581x
+ CPUID 0x561f581x
+ ARMv7, idivt, optional iWMMXt v2
+ Sheeva PJ4B-MP / PJ4C
+ CPUID 0x562f584x
+ ARMv7, idivt/idiva, LPAE, optional iWMMXt v2 and/or NEON
+
+Long-term plans
+---------------
+
+ * Unify the mach-dove/, mach-mv78xx0/, mach-orion5x/ into the
+ mach-mvebu/ to support all SoCs from the Marvell EBU (Engineering
+ Business Unit) in a single mach-<foo> directory. The plat-orion/
+ would therefore disappear.
+
+ * Unify the mach-mmp/ and mach-pxa/ into the same mach-pxa
+ directory. The plat-pxa/ would therefore disappear.
+
+Credits
+-------
+
+- Maen Suleiman <maen@marvell.com>
+- Lior Amsalem <alior@marvell.com>
+- Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
+- Andrew Lunn <andrew@lunn.ch>
+- Nicolas Pitre <nico@fluxnic.net>
+- Eric Miao <eric.y.miao@gmail.com>
diff --git a/Documentation/arm/mem_alignment b/Documentation/arm/mem_alignment.rst
index e110e2781039..aa22893b62bc 100644
--- a/Documentation/arm/mem_alignment
+++ b/Documentation/arm/mem_alignment.rst
@@ -1,3 +1,7 @@
+================
+Memory alignment
+================
+
Too many problems popped up because of unnoticed misaligned memory access in
kernel code lately. Therefore the alignment fixup is now unconditionally
configured in for SA11x0 based targets. According to Alan Cox, this is a
@@ -26,9 +30,9 @@ space, and might cause programs to fail unexpectedly.
To change the alignment trap behavior, simply echo a number into
/proc/cpu/alignment. The number is made up from various bits:
+=== ========================================================
bit behavior when set
---- -----------------
-
+=== ========================================================
0 A user process performing an unaligned memory access
will cause the kernel to print a message indicating
process name, pid, pc, instruction, address, and the
@@ -41,12 +45,13 @@ bit behavior when set
2 The kernel will send a SIGBUS signal to the user process
performing the unaligned access.
+=== ========================================================
Note that not all combinations are supported - only values 0 through 5.
(6 and 7 don't make sense).
For example, the following will turn on the warnings, but without
-fixing up or sending SIGBUS signals:
+fixing up or sending SIGBUS signals::
echo 1 > /proc/cpu/alignment
diff --git a/Documentation/arm/memory.txt b/Documentation/arm/memory.rst
index 546a39048eb0..0521b4ce5c96 100644
--- a/Documentation/arm/memory.txt
+++ b/Documentation/arm/memory.rst
@@ -1,6 +1,9 @@
- Kernel Memory Layout on ARM Linux
+=================================
+Kernel Memory Layout on ARM Linux
+=================================
Russell King <rmk@arm.linux.org.uk>
+
November 17, 2005 (2.6.15)
This document describes the virtual memory layout which the Linux
@@ -15,8 +18,9 @@ As the ARM architecture matures, it becomes necessary to reserve
certain regions of VM space for use for new facilities; therefore
this document may reserve more VM space over time.
+=============== =============== ===============================================
Start End Use
---------------------------------------------------------------------------
+=============== =============== ===============================================
ffff8000 ffffffff copy_user_page / clear_user_page use.
For SA11xx and Xscale, this is used to
setup a minicache mapping.
@@ -77,6 +81,7 @@ MODULES_VADDR MODULES_END-1 Kernel module space
place their vector page here. NULL pointer
dereferences by both the kernel and user
space are also caught via this mapping.
+=============== =============== ===============================================
Please note that mappings which collide with the above areas may result
in a non-bootable kernel, or may cause the kernel to (eventually) panic
diff --git a/Documentation/arm/Microchip/README b/Documentation/arm/microchip.rst
index a366f37d38f1..c9a44c98e868 100644
--- a/Documentation/arm/Microchip/README
+++ b/Documentation/arm/microchip.rst
@@ -1,3 +1,4 @@
+=============================
ARM Microchip SoCs (aka AT91)
=============================
@@ -22,32 +23,46 @@ the Microchip website: http://www.microchip.com.
Flavors:
* ARM 920 based SoC
- at91rm9200
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-1768-32-bit-ARM920T-Embedded-Microprocessor-AT91RM9200_Datasheet.pdf
* ARM 926 based SoCs
- at91sam9260
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-6221-32-bit-ARM926EJ-S-Embedded-Microprocessor-SAM9260_Datasheet.pdf
- at91sam9xe
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-6254-32-bit-ARM926EJ-S-Embedded-Microprocessor-SAM9XE_Datasheet.pdf
- at91sam9261
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-6062-ARM926EJ-S-Microprocessor-SAM9261_Datasheet.pdf
- at91sam9263
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-6249-32-bit-ARM926EJ-S-Embedded-Microprocessor-SAM9263_Datasheet.pdf
- at91sam9rl
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/doc6289.pdf
- at91sam9g20
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/DS60001516A.pdf
- at91sam9g45 family
@@ -55,7 +70,9 @@ the Microchip website: http://www.microchip.com.
- at91sam9g46
- at91sam9m10
- at91sam9m11 (device superset)
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-6437-32-bit-ARM926-Embedded-Microprocessor-SAM9M11_Datasheet.pdf
- at91sam9x5 family (aka "The 5 series")
@@ -64,33 +81,44 @@ the Microchip website: http://www.microchip.com.
- at91sam9g35
- at91sam9x25
- at91sam9x35
- + Datasheet (can be considered as covering the whole family)
+
+ * Datasheet (can be considered as covering the whole family)
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-11055-32-bit-ARM926EJ-S-Microcontroller-SAM9X35_Datasheet.pdf
- at91sam9n12
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/DS60001517A.pdf
* ARM Cortex-A5 based SoCs
- sama5d3 family
+
- sama5d31
- sama5d33
- sama5d34
- sama5d35
- sama5d36 (device superset)
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-11121-32-bit-Cortex-A5-Microcontroller-SAMA5D3_Datasheet.pdf
* ARM Cortex-A5 + NEON based SoCs
- sama5d4 family
+
- sama5d41
- sama5d42
- sama5d43
- sama5d44 (device superset)
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/60001525A.pdf
- sama5d2 family
+
- sama5d21
- sama5d22
- sama5d23
@@ -98,11 +126,14 @@ the Microchip website: http://www.microchip.com.
- sama5d26
- sama5d27 (device superset)
- sama5d28 (device superset + environmental monitors)
- + Datasheet
+
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/DS60001476B.pdf
* ARM Cortex-M7 MCUs
- sams70 family
+
- sams70j19
- sams70j20
- sams70j21
@@ -114,6 +145,7 @@ the Microchip website: http://www.microchip.com.
- sams70q21
- samv70 family
+
- samv70j19
- samv70j20
- samv70n19
@@ -122,6 +154,7 @@ the Microchip website: http://www.microchip.com.
- samv70q20
- samv71 family
+
- samv71j19
- samv71j20
- samv71j21
@@ -132,7 +165,8 @@ the Microchip website: http://www.microchip.com.
- samv71q20
- samv71q21
- + Datasheet
+ * Datasheet
+
http://ww1.microchip.com/downloads/en/DeviceDoc/60001527A.pdf
@@ -157,6 +191,7 @@ definition of a "Stable" binding/ABI.
This statement will be removed by AT91 MAINTAINERS when appropriate.
Naming conventions and best practice:
+
- SoCs Device Tree Source Include files are named after the official name of
the product (at91sam9g20.dtsi or sama5d33.dtsi for instance).
- Device Tree Source Include files (.dtsi) are used to collect common nodes that can be
diff --git a/Documentation/arm/netwinder.rst b/Documentation/arm/netwinder.rst
new file mode 100644
index 000000000000..8eab66caa2ac
--- /dev/null
+++ b/Documentation/arm/netwinder.rst
@@ -0,0 +1,85 @@
+================================
+NetWinder specific documentation
+================================
+
+The NetWinder is a small low-power computer, primarily designed
+to run Linux. It is based around the StrongARM RISC processor,
+DC21285 PCI bridge, with PC-type hardware glued around it.
+
+Port usage
+==========
+
+======= ====== ===============================
+Min Max Description
+======= ====== ===============================
+0x0000 0x000f DMA1
+0x0020 0x0021 PIC1
+0x0060 0x006f Keyboard
+0x0070 0x007f RTC
+0x0080 0x0087 DMA1
+0x0088 0x008f DMA2
+0x00a0 0x00a3 PIC2
+0x00c0 0x00df DMA2
+0x0180 0x0187 IRDA
+0x01f0 0x01f6 ide0
+0x0201 Game port
+0x0203 RWA010 configuration read
+0x0220 ? SoundBlaster
+0x0250 ? WaveArtist
+0x0279 RWA010 configuration index
+0x02f8 0x02ff Serial ttyS1
+0x0300 0x031f Ether10
+0x0338 GPIO1
+0x033a GPIO2
+0x0370 0x0371 W83977F configuration registers
+0x0388 ? AdLib
+0x03c0 0x03df VGA
+0x03f6 ide0
+0x03f8 0x03ff Serial ttyS0
+0x0400 0x0408 DC21143
+0x0480 0x0487 DMA1
+0x0488 0x048f DMA2
+0x0a79 RWA010 configuration write
+0xe800 0xe80f ide0/ide1 BM DMA
+======= ====== ===============================
+
+
+Interrupt usage
+===============
+
+======= ======= ========================
+IRQ type Description
+======= ======= ========================
+ 0 ISA 100Hz timer
+ 1 ISA Keyboard
+ 2 ISA cascade
+ 3 ISA Serial ttyS1
+ 4 ISA Serial ttyS0
+ 5 ISA PS/2 mouse
+ 6 ISA IRDA
+ 7 ISA Printer
+ 8 ISA RTC alarm
+ 9 ISA
+10 ISA GP10 (Orange reset button)
+11 ISA
+12 ISA WaveArtist
+13 ISA
+14 ISA hda1
+15 ISA
+======= ======= ========================
+
+DMA usage
+=========
+
+======= ======= ===========
+DMA type Description
+======= ======= ===========
+ 0 ISA IRDA
+ 1 ISA
+ 2 ISA cascade
+ 3 ISA WaveArtist
+ 4 ISA
+ 5 ISA
+ 6 ISA
+ 7 ISA WaveArtist
+======= ======= ===========
diff --git a/Documentation/arm/nwfpe/index.rst b/Documentation/arm/nwfpe/index.rst
new file mode 100644
index 000000000000..21fa8ce192ae
--- /dev/null
+++ b/Documentation/arm/nwfpe/index.rst
@@ -0,0 +1,11 @@
+===================================
+NetWinder's floating point emulator
+===================================
+
+.. toctree::
+ :maxdepth: 1
+
+ nwfpe
+ netwinder-fpe
+ notes
+ todo
diff --git a/Documentation/arm/nwfpe/README.FPE b/Documentation/arm/nwfpe/netwinder-fpe.rst
index 26f5d7bb9a41..cbb320960fc4 100644
--- a/Documentation/arm/nwfpe/README.FPE
+++ b/Documentation/arm/nwfpe/netwinder-fpe.rst
@@ -1,12 +1,18 @@
+=============
+Current State
+=============
+
The following describes the current state of the NetWinder's floating point
emulator.
In the following nomenclature is used to describe the floating point
instructions. It follows the conventions in the ARM manual.
-<S|D|E> = <single|double|extended>, no default
-{P|M|Z} = {round to +infinity,round to -infinity,round to zero},
- default = round to nearest
+::
+
+ <S|D|E> = <single|double|extended>, no default
+ {P|M|Z} = {round to +infinity,round to -infinity,round to zero},
+ default = round to nearest
Note: items enclosed in {} are optional.
@@ -32,10 +38,10 @@ Form 2 syntax:
<LFM|SFM>{cond}<FD,EA> Fd, <count>, [Rn]{!}
These instructions are fully implemented. They store/load three words
-for each floating point register into the memory location given in the
+for each floating point register into the memory location given in the
instruction. The format in memory is unlikely to be compatible with
other implementations, in particular the actual hardware. Specific
-mention of this is made in the ARM manuals.
+mention of this is made in the ARM manuals.
Floating Point Coprocessor Register Transfer Instructions (CPRT)
----------------------------------------------------------------
@@ -123,7 +129,7 @@ RPW{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - reverse power
POL{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - polar angle (arctan2)
LOG{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base 10
-LGN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base e
+LGN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base e
EXP{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - exponent
SIN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - sine
COS{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - cosine
@@ -134,7 +140,7 @@ ATN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arctangent
These are not implemented. They are not currently issued by the compiler,
and are handled by routines in libc. These are not implemented by the FPA11
-hardware, but are handled by the floating point support code. They should
+hardware, but are handled by the floating point support code. They should
be implemented in future versions.
Signalling:
@@ -147,10 +153,10 @@ current_set[0] correctly.
The kernel provided with this distribution (vmlinux-nwfpe-0.93) contains
a fix for this problem and also incorporates the current version of the
emulator directly. It is possible to run with no floating point module
-loaded with this kernel. It is provided as a demonstration of the
+loaded with this kernel. It is provided as a demonstration of the
technology and for those who want to do floating point work that depends
on signals. It is not strictly necessary to use the module.
-A module (either the one provided by Russell King, or the one in this
+A module (either the one provided by Russell King, or the one in this
distribution) can be loaded to replace the functionality of the emulator
built into the kernel.
diff --git a/Documentation/arm/nwfpe/NOTES b/Documentation/arm/nwfpe/notes.rst
index 40577b5a49d3..102e55af8439 100644
--- a/Documentation/arm/nwfpe/NOTES
+++ b/Documentation/arm/nwfpe/notes.rst
@@ -1,3 +1,6 @@
+Notes
+=====
+
There seems to be a problem with exp(double) and our emulator. I haven't
been able to track it down yet. This does not occur with the emulator
supplied by Russell King.
diff --git a/Documentation/arm/nwfpe/README b/Documentation/arm/nwfpe/nwfpe.rst
index 771871de0c8b..35cd90dacbff 100644
--- a/Documentation/arm/nwfpe/README
+++ b/Documentation/arm/nwfpe/nwfpe.rst
@@ -1,4 +1,7 @@
-This directory contains the version 0.92 test release of the NetWinder
+Introduction
+============
+
+This directory contains the version 0.92 test release of the NetWinder
Floating Point Emulator.
The majority of the code was written by me, Scott Bambrough It is
@@ -31,7 +34,7 @@ SoftFloat to the ARM was done by Phil Blundell, based on an earlier
port of SoftFloat version 1 by Neil Carson for NetBSD/arm32.
The file README.FPE contains a description of what has been implemented
-so far in the emulator. The file TODO contains a information on what
+so far in the emulator. The file TODO contains a information on what
remains to be done, and other ideas for the emulator.
Bug reports, comments, suggestions should be directed to me at
@@ -48,10 +51,11 @@ Legal Notices
The NetWinder Floating Point Emulator is free software. Everything Rebel.com
has written is provided under the GNU GPL. See the file COPYING for copying
-conditions. Excluded from the above is the SoftFloat code. John Hauser's
+conditions. Excluded from the above is the SoftFloat code. John Hauser's
legal notice for SoftFloat is included below.
-------------------------------------------------------------------------------
+
SoftFloat Legal Notice
SoftFloat was written by John R. Hauser. This work was made possible in
diff --git a/Documentation/arm/nwfpe/TODO b/Documentation/arm/nwfpe/todo.rst
index 8027061b60eb..393f11b14540 100644
--- a/Documentation/arm/nwfpe/TODO
+++ b/Documentation/arm/nwfpe/todo.rst
@@ -1,39 +1,42 @@
TODO LIST
----------
+=========
-POW{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - power
-RPW{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - reverse power
-POL{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - polar angle (arctan2)
+::
-LOG{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base 10
-LGN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base e
-EXP{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - exponent
-SIN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - sine
-COS{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - cosine
-TAN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - tangent
-ASN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arcsine
-ACS{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arccosine
-ATN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arctangent
+ POW{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - power
+ RPW{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - reverse power
+ POL{cond}<S|D|E>{P,M,Z} Fd, Fn, <Fm,#value> - polar angle (arctan2)
+
+ LOG{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base 10
+ LGN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - logarithm to base e
+ EXP{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - exponent
+ SIN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - sine
+ COS{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - cosine
+ TAN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - tangent
+ ASN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arcsine
+ ACS{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arccosine
+ ATN{cond}<S|D|E>{P,M,Z} Fd, <Fm,#value> - arctangent
These are not implemented. They are not currently issued by the compiler,
and are handled by routines in libc. These are not implemented by the FPA11
-hardware, but are handled by the floating point support code. They should
+hardware, but are handled by the floating point support code. They should
be implemented in future versions.
There are a couple of ways to approach the implementation of these. One
-method would be to use accurate table methods for these routines. I have
+method would be to use accurate table methods for these routines. I have
a couple of papers by S. Gal from IBM's research labs in Haifa, Israel that
seem to promise extreme accuracy (in the order of 99.8%) and reasonable speed.
These methods are used in GLIBC for some of the transcendental functions.
Another approach, which I know little about is CORDIC. This stands for
-Coordinate Rotation Digital Computer, and is a method of computing
+Coordinate Rotation Digital Computer, and is a method of computing
transcendental functions using mostly shifts and adds and a few
multiplications and divisions. The ARM excels at shifts and adds,
-so such a method could be promising, but requires more research to
+so such a method could be promising, but requires more research to
determine if it is feasible.
Rounding Methods
+----------------
The IEEE standard defines 4 rounding modes. Round to nearest is the
default, but rounding to + or - infinity or round to zero are also allowed.
@@ -42,8 +45,8 @@ in a control register. Not so with the ARM FPA11 architecture. To change
the rounding mode one must specify it with each instruction.
This has made porting some benchmarks difficult. It is possible to
-introduce such a capability into the emulator. The FPCR contains
-bits describing the rounding mode. The emulator could be altered to
+introduce such a capability into the emulator. The FPCR contains
+bits describing the rounding mode. The emulator could be altered to
examine a flag, which if set forced it to ignore the rounding mode in
the instruction, and use the mode specified in the bits in the FPCR.
@@ -52,7 +55,8 @@ in the FPCR. This requires a kernel call in ArmLinux, as WFC/RFC are
supervisor only instructions. If anyone has any ideas or comments I
would like to hear them.
-[NOTE: pulled out from some docs on ARM floating point, specifically
+NOTE:
+ pulled out from some docs on ARM floating point, specifically
for the Acorn FPE, but not limited to it:
The floating point control register (FPCR) may only be present in some
@@ -64,4 +68,5 @@ would like to hear them.
Hence, the answer is yes, you could do this, but then you will run a high
risk of becoming isolated if and when hardware FP emulation comes out
- -- Russell].
+
+ -- Russell.
diff --git a/Documentation/arm/OMAP/DSS b/Documentation/arm/omap/dss.rst
index 4484e021290e..a40c4d9c717a 100644
--- a/Documentation/arm/OMAP/DSS
+++ b/Documentation/arm/omap/dss.rst
@@ -1,5 +1,6 @@
+=========================
OMAP2/3 Display Subsystem
--------------------------
+=========================
This is an almost total rewrite of the OMAP FB driver in drivers/video/omap
(let's call it DSS1). The main differences between DSS1 and DSS2 are DSI,
@@ -190,6 +191,8 @@ trans_key_value transparency color key (RGB24)
default_color default background color (RGB24)
/sys/devices/platform/omapdss/display? directory:
+
+=============== =============================================================
ctrl_name Controller name
mirror 0=off, 1=on
update_mode 0=off, 1=auto, 2=manual
@@ -202,6 +205,7 @@ timings Display timings (pixclock,xres/hfp/hbp/hsw,yres/vfp/vbp/vsw)
panel_name
tear_elim Tearing elimination 0=off, 1=on
output_type Output type (video encoder only): "composite" or "svideo"
+=============== =============================================================
There are also some debugfs files at <debugfs>/omapdss/ which show information
about clocks and registers.
@@ -209,22 +213,22 @@ about clocks and registers.
Examples
--------
-The following definitions have been made for the examples below:
+The following definitions have been made for the examples below::
-ovl0=/sys/devices/platform/omapdss/overlay0
-ovl1=/sys/devices/platform/omapdss/overlay1
-ovl2=/sys/devices/platform/omapdss/overlay2
+ ovl0=/sys/devices/platform/omapdss/overlay0
+ ovl1=/sys/devices/platform/omapdss/overlay1
+ ovl2=/sys/devices/platform/omapdss/overlay2
-mgr0=/sys/devices/platform/omapdss/manager0
-mgr1=/sys/devices/platform/omapdss/manager1
+ mgr0=/sys/devices/platform/omapdss/manager0
+ mgr1=/sys/devices/platform/omapdss/manager1
-lcd=/sys/devices/platform/omapdss/display0
-dvi=/sys/devices/platform/omapdss/display1
-tv=/sys/devices/platform/omapdss/display2
+ lcd=/sys/devices/platform/omapdss/display0
+ dvi=/sys/devices/platform/omapdss/display1
+ tv=/sys/devices/platform/omapdss/display2
-fb0=/sys/class/graphics/fb0
-fb1=/sys/class/graphics/fb1
-fb2=/sys/class/graphics/fb2
+ fb0=/sys/class/graphics/fb0
+ fb1=/sys/class/graphics/fb1
+ fb2=/sys/class/graphics/fb2
Default setup on OMAP3 SDP
--------------------------
@@ -232,55 +236,59 @@ Default setup on OMAP3 SDP
Here's the default setup on OMAP3 SDP board. All planes go to LCD. DVI
and TV-out are not in use. The columns from left to right are:
framebuffers, overlays, overlay managers, displays. Framebuffers are
-handled by omapfb, and the rest by the DSS.
+handled by omapfb, and the rest by the DSS::
-FB0 --- GFX -\ DVI
-FB1 --- VID1 --+- LCD ---- LCD
-FB2 --- VID2 -/ TV ----- TV
+ FB0 --- GFX -\ DVI
+ FB1 --- VID1 --+- LCD ---- LCD
+ FB2 --- VID2 -/ TV ----- TV
Example: Switch from LCD to DVI
-----------------------
+-------------------------------
+
+::
-w=`cat $dvi/timings | cut -d "," -f 2 | cut -d "/" -f 1`
-h=`cat $dvi/timings | cut -d "," -f 3 | cut -d "/" -f 1`
+ w=`cat $dvi/timings | cut -d "," -f 2 | cut -d "/" -f 1`
+ h=`cat $dvi/timings | cut -d "," -f 3 | cut -d "/" -f 1`
-echo "0" > $lcd/enabled
-echo "" > $mgr0/display
-fbset -fb /dev/fb0 -xres $w -yres $h -vxres $w -vyres $h
-# at this point you have to switch the dvi/lcd dip-switch from the omap board
-echo "dvi" > $mgr0/display
-echo "1" > $dvi/enabled
+ echo "0" > $lcd/enabled
+ echo "" > $mgr0/display
+ fbset -fb /dev/fb0 -xres $w -yres $h -vxres $w -vyres $h
+ # at this point you have to switch the dvi/lcd dip-switch from the omap board
+ echo "dvi" > $mgr0/display
+ echo "1" > $dvi/enabled
-After this the configuration looks like:
+After this the configuration looks like:::
-FB0 --- GFX -\ -- DVI
-FB1 --- VID1 --+- LCD -/ LCD
-FB2 --- VID2 -/ TV ----- TV
+ FB0 --- GFX -\ -- DVI
+ FB1 --- VID1 --+- LCD -/ LCD
+ FB2 --- VID2 -/ TV ----- TV
Example: Clone GFX overlay to LCD and TV
--------------------------------
+----------------------------------------
+
+::
-w=`cat $tv/timings | cut -d "," -f 2 | cut -d "/" -f 1`
-h=`cat $tv/timings | cut -d "," -f 3 | cut -d "/" -f 1`
+ w=`cat $tv/timings | cut -d "," -f 2 | cut -d "/" -f 1`
+ h=`cat $tv/timings | cut -d "," -f 3 | cut -d "/" -f 1`
-echo "0" > $ovl0/enabled
-echo "0" > $ovl1/enabled
+ echo "0" > $ovl0/enabled
+ echo "0" > $ovl1/enabled
-echo "" > $fb1/overlays
-echo "0,1" > $fb0/overlays
+ echo "" > $fb1/overlays
+ echo "0,1" > $fb0/overlays
-echo "$w,$h" > $ovl1/output_size
-echo "tv" > $ovl1/manager
+ echo "$w,$h" > $ovl1/output_size
+ echo "tv" > $ovl1/manager
-echo "1" > $ovl0/enabled
-echo "1" > $ovl1/enabled
+ echo "1" > $ovl0/enabled
+ echo "1" > $ovl1/enabled
-echo "1" > $tv/enabled
+ echo "1" > $tv/enabled
-After this the configuration looks like (only relevant parts shown):
+After this the configuration looks like (only relevant parts shown)::
-FB0 +-- GFX ---- LCD ---- LCD
- \- VID1 ---- TV ---- TV
+ FB0 +-- GFX ---- LCD ---- LCD
+ \- VID1 ---- TV ---- TV
Misc notes
----------
@@ -351,12 +359,14 @@ TODO
DSS locking
Error checking
+
- Lots of checks are missing or implemented just as BUG()
System DMA update for DSI
+
- Can be used for RGB16 and RGB24P modes. Probably not for RGB24U (how
to skip the empty byte?)
OMAP1 support
-- Not sure if needed
+- Not sure if needed
diff --git a/Documentation/arm/omap/index.rst b/Documentation/arm/omap/index.rst
new file mode 100644
index 000000000000..f1e9c11d9f9b
--- /dev/null
+++ b/Documentation/arm/omap/index.rst
@@ -0,0 +1,10 @@
+=======
+TI OMAP
+=======
+
+.. toctree::
+ :maxdepth: 1
+
+ omap
+ omap_pm
+ dss
diff --git a/Documentation/arm/OMAP/README b/Documentation/arm/omap/omap.rst
index 90c6c57d61e8..f440c0f4613f 100644
--- a/Documentation/arm/OMAP/README
+++ b/Documentation/arm/omap/omap.rst
@@ -1,7 +1,13 @@
+============
+OMAP history
+============
+
This file contains documentation for running mainline
kernel on omaps.
+====== ======================================================
KERNEL NEW DEPENDENCIES
+====== ======================================================
v4.3+ Update is needed for custom .config files to make sure
CONFIG_REGULATOR_PBIAS is enabled for MMC1 to work
properly.
@@ -9,3 +15,4 @@ v4.3+ Update is needed for custom .config files to make sure
v4.18+ Update is needed for custom .config files to make sure
CONFIG_MMC_SDHCI_OMAP is enabled for all MMC instances
to work in DRA7 and K2G based boards.
+====== ======================================================
diff --git a/Documentation/arm/OMAP/omap_pm b/Documentation/arm/omap/omap_pm.rst
index 4ae915a9f899..a335e4c8ce2c 100644
--- a/Documentation/arm/OMAP/omap_pm
+++ b/Documentation/arm/omap/omap_pm.rst
@@ -1,4 +1,4 @@
-
+=====================
The OMAP PM interface
=====================
@@ -31,19 +31,24 @@ Drivers need to express PM parameters which:
This document proposes the OMAP PM interface, including the following
five power management functions for driver code:
-1. Set the maximum MPU wakeup latency:
+1. Set the maximum MPU wakeup latency::
+
(*pdata->set_max_mpu_wakeup_lat)(struct device *dev, unsigned long t)
-2. Set the maximum device wakeup latency:
+2. Set the maximum device wakeup latency::
+
(*pdata->set_max_dev_wakeup_lat)(struct device *dev, unsigned long t)
-3. Set the maximum system DMA transfer start latency (CORE pwrdm):
+3. Set the maximum system DMA transfer start latency (CORE pwrdm)::
+
(*pdata->set_max_sdma_lat)(struct device *dev, long t)
-4. Set the minimum bus throughput needed by a device:
+4. Set the minimum bus throughput needed by a device::
+
(*pdata->set_min_bus_tput)(struct device *dev, u8 agent_id, unsigned long r)
-5. Return the number of times the device has lost context
+5. Return the number of times the device has lost context::
+
(*pdata->get_dev_context_loss_count)(struct device *dev)
@@ -65,12 +70,13 @@ Driver usage of the OMAP PM functions
As the 'pdata' in the above examples indicates, these functions are
exposed to drivers through function pointers in driver .platform_data
-structures. The function pointers are initialized by the board-*.c
+structures. The function pointers are initialized by the `board-*.c`
files to point to the corresponding OMAP PM functions:
-.set_max_dev_wakeup_lat will point to
-omap_pm_set_max_dev_wakeup_lat(), etc. Other architectures which do
-not support these functions should leave these function pointers set
-to NULL. Drivers should use the following idiom:
+
+- set_max_dev_wakeup_lat will point to
+ omap_pm_set_max_dev_wakeup_lat(), etc. Other architectures which do
+ not support these functions should leave these function pointers set
+ to NULL. Drivers should use the following idiom::
if (pdata->set_max_dev_wakeup_lat)
(*pdata->set_max_dev_wakeup_lat)(dev, t);
@@ -81,7 +87,7 @@ becomes accessible. To accomplish this, driver writers should use the
set_max_mpu_wakeup_lat() function to constrain the MPU wakeup
latency, and the set_max_dev_wakeup_lat() function to constrain the
device wakeup latency (from clk_enable() to accessibility). For
-example,
+example::
/* Limit MPU wakeup latency */
if (pdata->set_max_mpu_wakeup_lat)
@@ -116,17 +122,17 @@ specialized cases to convert that input information (OPPs/MPU
frequency) into the form that the underlying power management
implementation needs:
-6. (*pdata->dsp_get_opp_table)(void)
+6. `(*pdata->dsp_get_opp_table)(void)`
-7. (*pdata->dsp_set_min_opp)(u8 opp_id)
+7. `(*pdata->dsp_set_min_opp)(u8 opp_id)`
-8. (*pdata->dsp_get_opp)(void)
+8. `(*pdata->dsp_get_opp)(void)`
-9. (*pdata->cpu_get_freq_table)(void)
+9. `(*pdata->cpu_get_freq_table)(void)`
-10. (*pdata->cpu_set_freq)(unsigned long f)
+10. `(*pdata->cpu_set_freq)(unsigned long f)`
-11. (*pdata->cpu_get_freq)(void)
+11. `(*pdata->cpu_get_freq)(void)`
Customizing OPP for platform
============================
@@ -134,12 +140,15 @@ Defining CONFIG_PM should enable OPP layer for the silicon
and the registration of OPP table should take place automatically.
However, in special cases, the default OPP table may need to be
tweaked, for e.g.:
+
* enable default OPPs which are disabled by default, but which
could be enabled on a platform
* Disable an unsupported OPP on the platform
* Define and add a custom opp table entry
-in these cases, the board file needs to do additional steps as follows:
-arch/arm/mach-omapx/board-xyz.c
+ in these cases, the board file needs to do additional steps as follows:
+
+arch/arm/mach-omapx/board-xyz.c::
+
#include "pm.h"
....
static void __init omap_xyz_init_irq(void)
@@ -150,5 +159,7 @@ arch/arm/mach-omapx/board-xyz.c
/* Do customization to the defaults */
....
}
-NOTE: omapx_opp_init will be omap3_opp_init or as required
-based on the omap family.
+
+NOTE:
+ omapx_opp_init will be omap3_opp_init or as required
+ based on the omap family.
diff --git a/Documentation/arm/Porting b/Documentation/arm/porting.rst
index a492233931b9..bd21958bdb2d 100644
--- a/Documentation/arm/Porting
+++ b/Documentation/arm/porting.rst
@@ -1,3 +1,7 @@
+=======
+Porting
+=======
+
Taken from list archive at http://lists.arm.linux.org.uk/pipermail/linux-arm-kernel/2001-July/004064.html
Initial definitions
@@ -89,8 +93,7 @@ DATAADDR
Virtual address for the kernel data segment. Must not be defined
when using the decompressor.
-VMALLOC_START
-VMALLOC_END
+VMALLOC_START / VMALLOC_END
Virtual addresses bounding the vmalloc() area. There must not be
any static mappings in this area; vmalloc will overwrite them.
The addresses must also be in the kernel segment (see above).
@@ -107,13 +110,13 @@ Architecture Specific Macros
----------------------------
BOOT_MEM(pram,pio,vio)
- `pram' specifies the physical start address of RAM. Must always
+ `pram` specifies the physical start address of RAM. Must always
be present, and should be the same as PHYS_OFFSET.
- `pio' is the physical address of an 8MB region containing IO for
+ `pio` is the physical address of an 8MB region containing IO for
use with the debugging macros in arch/arm/kernel/debug-armv.S.
- `vio' is the virtual address of the 8MB debugging region.
+ `vio` is the virtual address of the 8MB debugging region.
It is expected that the debugging region will be re-initialised
by the architecture specific code later in the code (via the
@@ -132,4 +135,3 @@ MAPIO(func)
INITIRQ(func)
Machine specific function to initialise interrupts.
-
diff --git a/Documentation/arm/pxa/mfp.txt b/Documentation/arm/pxa/mfp.rst
index 0b7cab978c02..ac34e5d7ee44 100644
--- a/Documentation/arm/pxa/mfp.txt
+++ b/Documentation/arm/pxa/mfp.rst
@@ -1,4 +1,6 @@
- MFP Configuration for PXA2xx/PXA3xx Processors
+==============================================
+MFP Configuration for PXA2xx/PXA3xx Processors
+==============================================
Eric Miao <eric.miao@marvell.com>
@@ -6,15 +8,15 @@ MFP stands for Multi-Function Pin, which is the pin-mux logic on PXA3xx and
later PXA series processors. This document describes the existing MFP API,
and how board/platform driver authors could make use of it.
- Basic Concept
-===============
+Basic Concept
+=============
Unlike the GPIO alternate function settings on PXA25x and PXA27x, a new MFP
mechanism is introduced from PXA3xx to completely move the pin-mux functions
out of the GPIO controller. In addition to pin-mux configurations, the MFP
also controls the low power state, driving strength, pull-up/down and event
detection of each pin. Below is a diagram of internal connections between
-the MFP logic and the remaining SoC peripherals:
+the MFP logic and the remaining SoC peripherals::
+--------+
| |--(GPIO19)--+
@@ -69,8 +71,8 @@ NOTE: with such a clear separation of MFP and GPIO, by GPIO<xx> we normally
mean it is a GPIO signal, and by MFP<xxx> or pin xxx, we mean a physical
pad (or ball).
- MFP API Usage
-===============
+MFP API Usage
+=============
For board code writers, here are some guidelines:
@@ -94,9 +96,9 @@ For board code writers, here are some guidelines:
PXA310 supporting some additional ones), thus the difference is actually
covered in a single mfp-pxa300.h.
-2. prepare an array for the initial pin configurations, e.g.:
+2. prepare an array for the initial pin configurations, e.g.::
- static unsigned long mainstone_pin_config[] __initdata = {
+ static unsigned long mainstone_pin_config[] __initdata = {
/* Chip Select */
GPIO15_nCS_1,
@@ -116,7 +118,7 @@ For board code writers, here are some guidelines:
/* GPIO */
GPIO1_GPIO | WAKEUP_ON_EDGE_BOTH,
- };
+ };
a) once the pin configurations are passed to pxa{2xx,3xx}_mfp_config(),
and written to the actual registers, they are useless and may discard,
@@ -143,17 +145,17 @@ For board code writers, here are some guidelines:
d) although PXA3xx MFP supports edge detection on each pin, the
internal logic will only wakeup the system when those specific bits
in ADxER registers are set, which can be well mapped to the
- corresponding peripheral, thus set_irq_wake() can be called with
+ corresponding peripheral, thus set_irq_wake() can be called with
the peripheral IRQ to enable the wakeup.
- MFP on PXA3xx
-===============
+MFP on PXA3xx
+=============
Every external I/O pad on PXA3xx (excluding those for special purpose) has
one MFP logic associated, and is controlled by one MFP register (MFPR).
-The MFPR has the following bit definitions (for PXA300/PXA310/PXA320):
+The MFPR has the following bit definitions (for PXA300/PXA310/PXA320)::
31 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
+-------------------------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
@@ -183,8 +185,8 @@ The MFPR has the following bit definitions (for PXA300/PXA310/PXA320):
0b006 - slow 10mA
0b007 - fast 10mA
- MFP Design for PXA2xx/PXA3xx
-==============================
+MFP Design for PXA2xx/PXA3xx
+============================
Due to the difference of pin-mux handling between PXA2xx and PXA3xx, a unified
MFP API is introduced to cover both series of processors.
@@ -194,11 +196,11 @@ configurations, these definitions are processor and platform independent, and
the actual API invoked to convert these definitions into register settings and
make them effective there-after.
- Files Involved
- --------------
+Files Involved
+--------------
- arch/arm/mach-pxa/include/mach/mfp.h
-
+
for
1. Unified pin definitions - enum constants for all configurable pins
2. processor-neutral bit definitions for a possible MFP configuration
@@ -226,42 +228,42 @@ make them effective there-after.
for implementation of the pin configuration to take effect for the actual
processor.
- Pin Configuration
- -----------------
+Pin Configuration
+-----------------
The following comments are copied from mfp.h (see the actual source code
- for most updated info)
-
- /*
- * a possible MFP configuration is represented by a 32-bit integer
- *
- * bit 0.. 9 - MFP Pin Number (1024 Pins Maximum)
- * bit 10..12 - Alternate Function Selection
- * bit 13..15 - Drive Strength
- * bit 16..18 - Low Power Mode State
- * bit 19..20 - Low Power Mode Edge Detection
- * bit 21..22 - Run Mode Pull State
- *
- * to facilitate the definition, the following macros are provided
- *
- * MFP_CFG_DEFAULT - default MFP configuration value, with
- * alternate function = 0,
- * drive strength = fast 3mA (MFP_DS03X)
- * low power mode = default
- * edge detection = none
- *
- * MFP_CFG - default MFPR value with alternate function
- * MFP_CFG_DRV - default MFPR value with alternate function and
- * pin drive strength
- * MFP_CFG_LPM - default MFPR value with alternate function and
- * low power mode
- * MFP_CFG_X - default MFPR value with alternate function,
- * pin drive strength and low power mode
- */
-
- Examples of pin configurations are:
-
- #define GPIO94_SSP3_RXD MFP_CFG_X(GPIO94, AF1, DS08X, FLOAT)
+ for most updated info)::
+
+ /*
+ * a possible MFP configuration is represented by a 32-bit integer
+ *
+ * bit 0.. 9 - MFP Pin Number (1024 Pins Maximum)
+ * bit 10..12 - Alternate Function Selection
+ * bit 13..15 - Drive Strength
+ * bit 16..18 - Low Power Mode State
+ * bit 19..20 - Low Power Mode Edge Detection
+ * bit 21..22 - Run Mode Pull State
+ *
+ * to facilitate the definition, the following macros are provided
+ *
+ * MFP_CFG_DEFAULT - default MFP configuration value, with
+ * alternate function = 0,
+ * drive strength = fast 3mA (MFP_DS03X)
+ * low power mode = default
+ * edge detection = none
+ *
+ * MFP_CFG - default MFPR value with alternate function
+ * MFP_CFG_DRV - default MFPR value with alternate function and
+ * pin drive strength
+ * MFP_CFG_LPM - default MFPR value with alternate function and
+ * low power mode
+ * MFP_CFG_X - default MFPR value with alternate function,
+ * pin drive strength and low power mode
+ */
+
+ Examples of pin configurations are::
+
+ #define GPIO94_SSP3_RXD MFP_CFG_X(GPIO94, AF1, DS08X, FLOAT)
which reads GPIO94 can be configured as SSP3_RXD, with alternate function
selection of 1, driving strength of 0b101, and a float state in low power
@@ -272,8 +274,8 @@ make them effective there-after.
do so, simply because this default setting is usually carefully encoded,
and is supposed to work in most cases.
- Register Settings
- -----------------
+Register Settings
+-----------------
Register settings on PXA3xx for a pin configuration is actually very
straight-forward, most bits can be converted directly into MFPR value
diff --git a/Documentation/arm/SA1100/ADSBitsy b/Documentation/arm/sa1100/adsbitsy.rst
index f9f62e8c0719..c179cb26b682 100644
--- a/Documentation/arm/SA1100/ADSBitsy
+++ b/Documentation/arm/sa1100/adsbitsy.rst
@@ -1,4 +1,7 @@
+===============================
ADS Bitsy Single Board Computer
+===============================
+
(It is different from Bitsy(iPAQ) of Compaq)
For more details, contact Applied Data Systems or see
@@ -15,7 +18,9 @@ The kernel zImage is linked to be loaded and executed at 0xc0400000.
Linux can be used with the ADS BootLoader that ships with the
newer rev boards. See their documentation on how to load Linux.
-Supported peripherals:
+Supported peripherals
+=====================
+
- SA1100 LCD frame buffer (8/16bpp...sort of)
- SA1111 USB Master
- SA1100 serial port
@@ -25,10 +30,13 @@ Supported peripherals:
- serial ports (ttyS[0-2])
- ttyS0 is default for serial console
-To do:
+To do
+=====
+
- everything else! :-)
-Notes:
+Notes
+=====
- The flash on board is divided into 3 partitions.
You should be careful to use flash on board.
diff --git a/Documentation/arm/SA1100/Assabet b/Documentation/arm/sa1100/assabet.rst
index e08a6739e72c..3e704831c311 100644
--- a/Documentation/arm/SA1100/Assabet
+++ b/Documentation/arm/sa1100/assabet.rst
@@ -1,3 +1,4 @@
+============================================
The Intel Assabet (SA-1110 evaluation) board
============================================
@@ -11,7 +12,7 @@ http://www.cs.cmu.edu/~wearable/software/assabet.html
Building the kernel
-------------------
-To build the kernel with current defaults:
+To build the kernel with current defaults::
make assabet_config
make oldconfig
@@ -51,9 +52,9 @@ Brief examples on how to boot Linux with RedBoot are shown below. But first
you need to have RedBoot installed in your flash memory. A known to work
precompiled RedBoot binary is available from the following location:
-ftp://ftp.netwinder.org/users/n/nico/
-ftp://ftp.arm.linux.org.uk/pub/linux/arm/people/nico/
-ftp://ftp.handhelds.org/pub/linux/arm/sa-1100-patches/
+- ftp://ftp.netwinder.org/users/n/nico/
+- ftp://ftp.arm.linux.org.uk/pub/linux/arm/people/nico/
+- ftp://ftp.handhelds.org/pub/linux/arm/sa-1100-patches/
Look for redboot-assabet*.tgz. Some installation infos are provided in
redboot-assabet*.txt.
@@ -71,12 +72,12 @@ Socket Communications Inc.), you should strongly consider using it for TFTP
file transfers. You must insert it before RedBoot runs since it can't detect
it dynamically.
-To initialize the flash directory:
+To initialize the flash directory::
fis init -f
To initialize the non-volatile settings, like whether you want to use BOOTP or
-a static IP address, etc, use this command:
+a static IP address, etc, use this command::
fconfig -i
@@ -85,15 +86,15 @@ Writing a kernel image into flash
---------------------------------
First, the kernel image must be loaded into RAM. If you have the zImage file
-available on a TFTP server:
+available on a TFTP server::
load zImage -r -b 0x100000
-If you rather want to use Y-Modem upload over the serial port:
+If you rather want to use Y-Modem upload over the serial port::
load -m ymodem -r -b 0x100000
-To write it to flash:
+To write it to flash::
fis create "Linux kernel" -b 0x100000 -l 0xc0000
@@ -102,18 +103,18 @@ Booting the kernel
------------------
The kernel still requires a filesystem to boot. A ramdisk image can be loaded
-as follows:
+as follows::
load ramdisk_image.gz -r -b 0x800000
Again, Y-Modem upload can be used instead of TFTP by replacing the file name
by '-y ymodem'.
-Now the kernel can be retrieved from flash like this:
+Now the kernel can be retrieved from flash like this::
fis load "Linux kernel"
-or loaded as described previously. To boot the kernel:
+or loaded as described previously. To boot the kernel::
exec -b 0x100000 -l 0xc0000
@@ -134,35 +135,35 @@ creating JFFS/JFFS2 images is available from the same site.
For instance, a sample JFFS2 image can be retrieved from the same FTP sites
mentioned below for the precompiled RedBoot image.
-To load this file:
+To load this file::
load sample_img.jffs2 -r -b 0x100000
-The result should look like:
+The result should look like::
-RedBoot> load sample_img.jffs2 -r -b 0x100000
-Raw file loaded 0x00100000-0x00377424
+ RedBoot> load sample_img.jffs2 -r -b 0x100000
+ Raw file loaded 0x00100000-0x00377424
-Now we must know the size of the unallocated flash:
+Now we must know the size of the unallocated flash::
fis free
-Result:
+Result::
-RedBoot> fis free
- 0x500E0000 .. 0x503C0000
+ RedBoot> fis free
+ 0x500E0000 .. 0x503C0000
The values above may be different depending on the size of the filesystem and
the type of flash. See their usage below as an example and take care of
substituting yours appropriately.
-We must determine some values:
+We must determine some values::
-size of unallocated flash: 0x503c0000 - 0x500e0000 = 0x2e0000
-size of the filesystem image: 0x00377424 - 0x00100000 = 0x277424
+ size of unallocated flash: 0x503c0000 - 0x500e0000 = 0x2e0000
+ size of the filesystem image: 0x00377424 - 0x00100000 = 0x277424
We want to fit the filesystem image of course, but we also want to give it all
-the remaining flash space as well. To write it:
+the remaining flash space as well. To write it::
fis unlock -f 0x500E0000 -l 0x2e0000
fis erase -f 0x500E0000 -l 0x2e0000
@@ -171,32 +172,32 @@ the remaining flash space as well. To write it:
Now the filesystem is associated to a MTD "partition" once Linux has discovered
what they are in the boot process. From Redboot, the 'fis list' command
-displays them:
-
-RedBoot> fis list
-Name FLASH addr Mem addr Length Entry point
-RedBoot 0x50000000 0x50000000 0x00020000 0x00000000
-RedBoot config 0x503C0000 0x503C0000 0x00020000 0x00000000
-FIS directory 0x503E0000 0x503E0000 0x00020000 0x00000000
-Linux kernel 0x50020000 0x00100000 0x000C0000 0x00000000
-JFFS2 0x500E0000 0x500E0000 0x002E0000 0x00000000
-
-However Linux should display something like:
-
-SA1100 flash: probing 32-bit flash bus
-SA1100 flash: Found 2 x16 devices at 0x0 in 32-bit mode
-Using RedBoot partition definition
-Creating 5 MTD partitions on "SA1100 flash":
-0x00000000-0x00020000 : "RedBoot"
-0x00020000-0x000e0000 : "Linux kernel"
-0x000e0000-0x003c0000 : "JFFS2"
-0x003c0000-0x003e0000 : "RedBoot config"
-0x003e0000-0x00400000 : "FIS directory"
+displays them::
+
+ RedBoot> fis list
+ Name FLASH addr Mem addr Length Entry point
+ RedBoot 0x50000000 0x50000000 0x00020000 0x00000000
+ RedBoot config 0x503C0000 0x503C0000 0x00020000 0x00000000
+ FIS directory 0x503E0000 0x503E0000 0x00020000 0x00000000
+ Linux kernel 0x50020000 0x00100000 0x000C0000 0x00000000
+ JFFS2 0x500E0000 0x500E0000 0x002E0000 0x00000000
+
+However Linux should display something like::
+
+ SA1100 flash: probing 32-bit flash bus
+ SA1100 flash: Found 2 x16 devices at 0x0 in 32-bit mode
+ Using RedBoot partition definition
+ Creating 5 MTD partitions on "SA1100 flash":
+ 0x00000000-0x00020000 : "RedBoot"
+ 0x00020000-0x000e0000 : "Linux kernel"
+ 0x000e0000-0x003c0000 : "JFFS2"
+ 0x003c0000-0x003e0000 : "RedBoot config"
+ 0x003e0000-0x00400000 : "FIS directory"
What's important here is the position of the partition we are interested in,
which is the third one. Within Linux, this correspond to /dev/mtdblock2.
Therefore to boot Linux with the kernel and its root filesystem in flash, we
-need this RedBoot command:
+need this RedBoot command::
fis load "Linux kernel"
exec -b 0x100000 -l 0xc0000 -c "root=/dev/mtdblock2"
@@ -218,21 +219,21 @@ time the Assabet is rebooted. Therefore it's possible to automate the boot
process using RedBoot's scripting capability.
For example, I use this to boot Linux with both the kernel and the ramdisk
-images retrieved from a TFTP server on the network:
-
-RedBoot> fconfig
-Run script at boot: false true
-Boot script:
-Enter script, terminate with empty line
->> load zImage -r -b 0x100000
->> load ramdisk_ks.gz -r -b 0x800000
->> exec -b 0x100000 -l 0xc0000
->>
-Boot script timeout (1000ms resolution): 3
-Use BOOTP for network configuration: true
-GDB connection port: 9000
-Network debug at boot time: false
-Update RedBoot non-volatile configuration - are you sure (y/n)? y
+images retrieved from a TFTP server on the network::
+
+ RedBoot> fconfig
+ Run script at boot: false true
+ Boot script:
+ Enter script, terminate with empty line
+ >> load zImage -r -b 0x100000
+ >> load ramdisk_ks.gz -r -b 0x800000
+ >> exec -b 0x100000 -l 0xc0000
+ >>
+ Boot script timeout (1000ms resolution): 3
+ Use BOOTP for network configuration: true
+ GDB connection port: 9000
+ Network debug at boot time: false
+ Update RedBoot non-volatile configuration - are you sure (y/n)? y
Then, rebooting the Assabet is just a matter of waiting for the login prompt.
@@ -240,6 +241,7 @@ Then, rebooting the Assabet is just a matter of waiting for the login prompt.
Nicolas Pitre
nico@fluxnic.net
+
June 12, 2001
@@ -249,52 +251,51 @@ Status of peripherals in -rmk tree (updated 14/10/2001)
Assabet:
Serial ports:
Radio: TX, RX, CTS, DSR, DCD, RI
- PM: Not tested.
- COM: TX, RX, CTS, DSR, DCD, RTS, DTR, PM
- PM: Not tested.
- I2C: Implemented, not fully tested.
- L3: Fully tested, pass.
- PM: Not tested.
+ - PM: Not tested.
+ - COM: TX, RX, CTS, DSR, DCD, RTS, DTR, PM
+ - PM: Not tested.
+ - I2C: Implemented, not fully tested.
+ - L3: Fully tested, pass.
+ - PM: Not tested.
Video:
- LCD: Fully tested. PM
- (LCD doesn't like being blanked with
- neponset connected)
- Video out: Not fully
+ - LCD: Fully tested. PM
+
+ (LCD doesn't like being blanked with neponset connected)
+
+ - Video out: Not fully
Audio:
UDA1341:
- Playback: Fully tested, pass.
- Record: Implemented, not tested.
- PM: Not tested.
+ - Playback: Fully tested, pass.
+ - Record: Implemented, not tested.
+ - PM: Not tested.
UCB1200:
- Audio play: Implemented, not heavily tested.
- Audio rec: Implemented, not heavily tested.
- Telco audio play: Implemented, not heavily tested.
- Telco audio rec: Implemented, not heavily tested.
- POTS control: No
- Touchscreen: Yes
- PM: Not tested.
+ - Audio play: Implemented, not heavily tested.
+ - Audio rec: Implemented, not heavily tested.
+ - Telco audio play: Implemented, not heavily tested.
+ - Telco audio rec: Implemented, not heavily tested.
+ - POTS control: No
+ - Touchscreen: Yes
+ - PM: Not tested.
Other:
- PCMCIA:
- LPE: Fully tested, pass.
- USB: No
- IRDA:
- SIR: Fully tested, pass.
- FIR: Fully tested, pass.
- PM: Not tested.
+ - PCMCIA:
+ - LPE: Fully tested, pass.
+ - USB: No
+ - IRDA:
+ - SIR: Fully tested, pass.
+ - FIR: Fully tested, pass.
+ - PM: Not tested.
Neponset:
Serial ports:
- COM1,2: TX, RX, CTS, DSR, DCD, RTS, DTR
- PM: Not tested.
- USB: Implemented, not heavily tested.
- PCMCIA: Implemented, not heavily tested.
- PM: Not tested.
- CF: Implemented, not heavily tested.
- PM: Not tested.
+ - COM1,2: TX, RX, CTS, DSR, DCD, RTS, DTR
+ - PM: Not tested.
+ - USB: Implemented, not heavily tested.
+ - PCMCIA: Implemented, not heavily tested.
+ - CF: Implemented, not heavily tested.
+ - PM: Not tested.
More stuff can be found in the -np (Nicolas Pitre's) tree.
-
diff --git a/Documentation/arm/SA1100/Brutus b/Documentation/arm/sa1100/brutus.rst
index 6a3aa95e9bfd..e1a23bee6d44 100644
--- a/Documentation/arm/SA1100/Brutus
+++ b/Documentation/arm/sa1100/brutus.rst
@@ -1,9 +1,13 @@
-Brutus is an evaluation platform for the SA1100 manufactured by Intel.
+======
+Brutus
+======
+
+Brutus is an evaluation platform for the SA1100 manufactured by Intel.
For more details, see:
http://developer.intel.com
-To compile for Brutus, you must issue the following commands:
+To compile for Brutus, you must issue the following commands::
make brutus_config
make config
@@ -16,25 +20,23 @@ must be loaded at 0xc0008000 in Brutus's memory and execution started at
entry.
But prior to execute the kernel, a ramdisk image must also be loaded in
-memory. Use memory address 0xd8000000 for this. Note that the file
+memory. Use memory address 0xd8000000 for this. Note that the file
containing the (compressed) ramdisk image must not exceed 4 MB.
Typically, you'll need angelboot to load the kernel.
-The following angelboot.opt file should be used:
-
------ begin angelboot.opt -----
-base 0xc0008000
-entry 0xc0008000
-r0 0x00000000
-r1 0x00000010
-device /dev/ttyS0
-options "9600 8N1"
-baud 115200
-otherfile ramdisk_img.gz
-otherbase 0xd8000000
------ end angelboot.opt -----
-
-Then load the kernel and ramdisk with:
+The following angelboot.opt file should be used::
+
+ base 0xc0008000
+ entry 0xc0008000
+ r0 0x00000000
+ r1 0x00000010
+ device /dev/ttyS0
+ options "9600 8N1"
+ baud 115200
+ otherfile ramdisk_img.gz
+ otherbase 0xd8000000
+
+Then load the kernel and ramdisk with::
angelboot -f angelboot.opt zImage
@@ -44,14 +46,16 @@ console is provided through the second Brutus serial port. To access it,
you may use minicom configured with /dev/ttyS1, 9600 baud, 8N1, no flow
control.
-Currently supported:
+Currently supported
+===================
+
- RS232 serial ports
- audio output
- LCD screen
- keyboard
-
-The actual Brutus support may not be complete without extra patches.
-If such patches exist, they should be found from
+
+The actual Brutus support may not be complete without extra patches.
+If such patches exist, they should be found from
ftp.netwinder.org/users/n/nico.
A full PCMCIA support is still missing, although it's possible to hack
@@ -63,4 +67,3 @@ Any contribution is welcome.
Please send patches to nico@fluxnic.net
Have Fun !
-
diff --git a/Documentation/arm/SA1100/CERF b/Documentation/arm/sa1100/cerf.rst
index b3d845301ef1..7fa71b609bf9 100644
--- a/Documentation/arm/SA1100/CERF
+++ b/Documentation/arm/sa1100/cerf.rst
@@ -1,3 +1,7 @@
+==============
+CerfBoard/Cube
+==============
+
*** The StrongARM version of the CerfBoard/Cube has been discontinued ***
The Intrinsyc CerfBoard is a StrongARM 1110-based computer on a board
@@ -9,7 +13,9 @@ Intrinsyc website, http://www.intrinsyc.com.
This document describes the support in the Linux kernel for the
Intrinsyc CerfBoard.
-Supported in this version:
+Supported in this version
+=========================
+
- CompactFlash+ slot (select PCMCIA in General Setup and any options
that may be required)
- Onboard Crystal CS8900 Ethernet controller (Cerf CS8900A support in
@@ -19,7 +25,7 @@ Supported in this version:
In order to get this kernel onto your Cerf, you need a server that runs
both BOOTP and TFTP. Detailed instructions should have come with your
evaluation kit on how to use the bootloader. This series of commands
-will suffice:
+will suffice::
make ARCH=arm CROSS_COMPILE=arm-linux- cerfcube_defconfig
make ARCH=arm CROSS_COMPILE=arm-linux- zImage
diff --git a/Documentation/arm/sa1100/freebird.rst b/Documentation/arm/sa1100/freebird.rst
new file mode 100644
index 000000000000..81043d0c6d64
--- /dev/null
+++ b/Documentation/arm/sa1100/freebird.rst
@@ -0,0 +1,25 @@
+========
+Freebird
+========
+
+Freebird-1.1 is produced by Legend(C), Inc.
+`http://web.archive.org/web/*/http://www.legend.com.cn`
+and software/linux maintained by Coventive(C), Inc.
+(http://www.coventive.com)
+
+Based on the Nicolas's strongarm kernel tree.
+
+Maintainer:
+
+Chester Kuo
+ - <chester@coventive.com>
+ - <chester@linux.org.tw>
+
+Author:
+
+- Tim wu <timwu@coventive.com>
+- CIH <cih@coventive.com>
+- Eric Peng <ericpeng@coventive.com>
+- Jeff Lee <jeff_lee@coventive.com>
+- Allen Cheng
+- Tony Liu <tonyliu@coventive.com>
diff --git a/Documentation/arm/SA1100/GraphicsClient b/Documentation/arm/sa1100/graphicsclient.rst
index 867bb35943af..a73d61c3ce91 100644
--- a/Documentation/arm/SA1100/GraphicsClient
+++ b/Documentation/arm/sa1100/graphicsclient.rst
@@ -1,9 +1,11 @@
+=============================================
ADS GraphicsClient Plus Single Board Computer
+=============================================
For more details, contact Applied Data Systems or see
http://www.applieddata.net/products.html
-The original Linux support for this product has been provided by
+The original Linux support for this product has been provided by
Nicolas Pitre <nico@fluxnic.net>. Continued development work by
Woojung Huh <whuh@applieddata.net>
@@ -14,8 +16,8 @@ board supports MTD/JFFS, so you could also mount something on there.
Use 'make graphicsclient_config' before any 'make config'. This will set up
defaults for GraphicsClient Plus support.
-The kernel zImage is linked to be loaded and executed at 0xc0200000.
-Also the following registers should have the specified values upon entry:
+The kernel zImage is linked to be loaded and executed at 0xc0200000.
+Also the following registers should have the specified values upon entry::
r0 = 0
r1 = 29 (this is the GraphicsClient architecture number)
@@ -31,23 +33,21 @@ as outlined below. In any case, if you're planning on deploying
something en masse, you should probably get the newer board.
If using Angel on the older boards, here is a typical angel.opt option file
-if the kernel is loaded through the Angel Debug Monitor:
-
------ begin angelboot.opt -----
-base 0xc0200000
-entry 0xc0200000
-r0 0x00000000
-r1 0x0000001d
-device /dev/ttyS1
-options "38400 8N1"
-baud 115200
-#otherfile ramdisk.gz
-#otherbase 0xc0800000
-exec minicom
------ end angelboot.opt -----
+if the kernel is loaded through the Angel Debug Monitor::
+
+ base 0xc0200000
+ entry 0xc0200000
+ r0 0x00000000
+ r1 0x0000001d
+ device /dev/ttyS1
+ options "38400 8N1"
+ baud 115200
+ #otherfile ramdisk.gz
+ #otherbase 0xc0800000
+ exec minicom
Then the kernel (and ramdisk if otherfile/otherbase lines above are
-uncommented) would be loaded with:
+uncommented) would be loaded with::
angelboot -f angelboot.opt zImage
@@ -59,7 +59,9 @@ If any other bootloader is used, ensure it accomplish the same, especially
for r0/r1 register values before jumping into the kernel.
-Supported peripherals:
+Supported peripherals
+=====================
+
- SA1100 LCD frame buffer (8/16bpp...sort of)
- on-board SMC 92C96 ethernet NIC
- SA1100 serial port
@@ -74,11 +76,14 @@ Supported peripherals:
See http://www.eurotech-inc.com/linux-sbc.asp for IOCTL documentation
and example user space code. ps/2 keybd is multiplexed through this driver
-To do:
+To do
+=====
+
- UCB1200 audio with new ucb_generic layer
- everything else! :-)
-Notes:
+Notes
+=====
- The flash on board is divided into 3 partitions. mtd0 is where
the ADS boot ROM and zImage is stored. It's been marked as
@@ -95,4 +100,3 @@ Notes:
fixed soon.
Any contribution can be sent to nico@fluxnic.net and will be greatly welcome!
-
diff --git a/Documentation/arm/SA1100/GraphicsMaster b/Documentation/arm/sa1100/graphicsmaster.rst
index 9145088a0ba2..e39892514f0c 100644
--- a/Documentation/arm/SA1100/GraphicsMaster
+++ b/Documentation/arm/sa1100/graphicsmaster.rst
@@ -1,4 +1,6 @@
+========================================
ADS GraphicsMaster Single Board Computer
+========================================
For more details, contact Applied Data Systems or see
http://www.applieddata.net/products.html
@@ -15,7 +17,9 @@ The kernel zImage is linked to be loaded and executed at 0xc0400000.
Linux can be used with the ADS BootLoader that ships with the
newer rev boards. See their documentation on how to load Linux.
-Supported peripherals:
+Supported peripherals
+=====================
+
- SA1100 LCD frame buffer (8/16bpp...sort of)
- SA1111 USB Master
- on-board SMC 92C96 ethernet NIC
@@ -31,10 +35,13 @@ Supported peripherals:
See http://www.eurotech-inc.com/linux-sbc.asp for IOCTL documentation
and example user space code. ps/2 keybd is multiplexed through this driver
-To do:
+To do
+=====
+
- everything else! :-)
-Notes:
+Notes
+=====
- The flash on board is divided into 3 partitions. mtd0 is where
the zImage is stored. It's been marked as read-only to keep you
diff --git a/Documentation/arm/SA1100/HUW_WEBPANEL b/Documentation/arm/sa1100/huw_webpanel.rst
index fd56b48d4833..1dc7ccb165f0 100644
--- a/Documentation/arm/SA1100/HUW_WEBPANEL
+++ b/Documentation/arm/sa1100/huw_webpanel.rst
@@ -1,9 +1,14 @@
+=======================
+Hoeft & Wessel Webpanel
+=======================
+
The HUW_WEBPANEL is a product of the german company Hoeft & Wessel AG
If you want more information, please visit
http://www.hoeft-wessel.de
-To build the kernel:
+To build the kernel::
+
make huw_webpanel_config
make oldconfig
[accept all defaults]
@@ -14,4 +19,3 @@ Roman Jordan jor@hoeft-wessel.de
Christoph Schulz schu@hoeft-wessel.de
2000/12/18/
-
diff --git a/Documentation/arm/sa1100/index.rst b/Documentation/arm/sa1100/index.rst
new file mode 100644
index 000000000000..fb2385b3accf
--- /dev/null
+++ b/Documentation/arm/sa1100/index.rst
@@ -0,0 +1,23 @@
+====================
+Intel StrongARM 1100
+====================
+
+.. toctree::
+ :maxdepth: 1
+
+ adsbitsy
+ assabet
+ brutus
+ cerf
+ freebird
+ graphicsclient
+ graphicsmaster
+ huw_webpanel
+ itsy
+ lart
+ nanoengine
+ pangolin
+ pleb
+ serial_uart
+ tifon
+ yopy
diff --git a/Documentation/arm/SA1100/Itsy b/Documentation/arm/sa1100/itsy.rst
index 44b94997fa0d..f49896ba3ef1 100644
--- a/Documentation/arm/SA1100/Itsy
+++ b/Documentation/arm/sa1100/itsy.rst
@@ -1,3 +1,7 @@
+====
+Itsy
+====
+
Itsy is a research project done by the Western Research Lab, and Systems
Research Center in Palo Alto, CA. The Itsy project is one of several
research projects at Compaq that are related to pocket computing.
@@ -7,6 +11,7 @@ For more information, see:
http://www.hpl.hp.com/downloads/crl/itsy/
Notes on initial 2.4 Itsy support (8/27/2000) :
+
The port was done on an Itsy version 1.5 machine with a daughtercard with
64 Meg of DRAM and 32 Meg of Flash. The initial work includes support for
serial console (to see what you're doing). No other devices have been
@@ -18,8 +23,10 @@ Finally, you will need to cd to arch/arm/boot/tools and execute a make there
to build the params-itsy program used to boot the kernel.
In order to install the port of 2.4 to the itsy, You will need to set the
-configuration parameters in the monitor as follows:
-Arg 1:0x08340000, Arg2: 0xC0000000, Arg3:18 (0x12), Arg4:0
+configuration parameters in the monitor as follows::
+
+ Arg 1:0x08340000, Arg2: 0xC0000000, Arg3:18 (0x12), Arg4:0
+
Make sure the start-routine address is set to 0x00060000.
Next, flash the params-itsy program to 0x00060000 ("p 1 0x00060000" in the
@@ -29,7 +36,8 @@ flash menu) Flash the kernel in arch/arm/boot/zImage into 0x08340000
handhelds.org.
The serial connection we established was at:
- 8-bit data, no parity, 1 stop bit(s), 115200.00 b/s. in the monitor, in the
+
+8-bit data, no parity, 1 stop bit(s), 115200.00 b/s. in the monitor, in the
params-itsy program, and in the kernel itself. This can be changed, but
not easily. The monitor parameters are easily changed, the params program
setup is assembly outl's, and the kernel is a configuration item specific to
diff --git a/Documentation/arm/SA1100/LART b/Documentation/arm/sa1100/lart.rst
index 6d412b685598..94c0568d1095 100644
--- a/Documentation/arm/SA1100/LART
+++ b/Documentation/arm/sa1100/lart.rst
@@ -1,5 +1,6 @@
+====================================
Linux Advanced Radio Terminal (LART)
-------------------------------------
+====================================
The LART is a small (7.5 x 10cm) SA-1100 board, designed for embedded
applications. It has 32 MB DRAM, 4MB Flash ROM, double RS232 and all
diff --git a/Documentation/arm/SA1100/nanoEngine b/Documentation/arm/sa1100/nanoengine.rst
index 48a7934f95f6..47f1a14cf98a 100644
--- a/Documentation/arm/SA1100/nanoEngine
+++ b/Documentation/arm/sa1100/nanoengine.rst
@@ -1,11 +1,11 @@
+==========
nanoEngine
-----------
+==========
-"nanoEngine" is a SA1110 based single board computer from
+"nanoEngine" is a SA1110 based single board computer from
Bright Star Engineering Inc. See www.brightstareng.com/arm
for more info.
(Ref: Stuart Adams <sja@brightstareng.com>)
Also visit Larry Doolittle's "Linux for the nanoEngine" site:
http://www.brightstareng.com/arm/nanoeng.htm
-
diff --git a/Documentation/arm/SA1100/Pangolin b/Documentation/arm/sa1100/pangolin.rst
index 077a6120e129..f0c5c1618553 100644
--- a/Documentation/arm/SA1100/Pangolin
+++ b/Documentation/arm/sa1100/pangolin.rst
@@ -1,16 +1,22 @@
+========
+Pangolin
+========
+
Pangolin is a StrongARM 1110-based evaluation platform produced
by Dialogue Technology (http://www.dialogue.com.tw/).
It has EISA slots for ease of configuration with SDRAM/Flash
memory card, USB/Serial/Audio card, Compact Flash card,
PCMCIA/IDE card and TFT-LCD card.
-To compile for Pangolin, you must issue the following commands:
+To compile for Pangolin, you must issue the following commands::
make pangolin_config
make oldconfig
make zImage
-Supported peripherals:
+Supported peripherals
+=====================
+
- SA1110 serial port (UART1/UART2/UART3)
- flash memory access
- compact flash driver
diff --git a/Documentation/arm/SA1100/PLEB b/Documentation/arm/sa1100/pleb.rst
index b9c8a631a351..d5b732967aa3 100644
--- a/Documentation/arm/SA1100/PLEB
+++ b/Documentation/arm/sa1100/pleb.rst
@@ -1,3 +1,7 @@
+====
+PLEB
+====
+
The PLEB project was started as a student initiative at the School of
Computer Science and Engineering, University of New South Wales to make a
pocket computer capable of running the Linux Kernel.
@@ -7,5 +11,3 @@ PLEB support has yet to be fully integrated.
For more information, see:
http://www.cse.unsw.edu.au
-
-
diff --git a/Documentation/arm/sa1100/serial_uart.rst b/Documentation/arm/sa1100/serial_uart.rst
new file mode 100644
index 000000000000..ea983642b9be
--- /dev/null
+++ b/Documentation/arm/sa1100/serial_uart.rst
@@ -0,0 +1,51 @@
+==================
+SA1100 serial port
+==================
+
+The SA1100 serial port had its major/minor numbers officially assigned::
+
+ > Date: Sun, 24 Sep 2000 21:40:27 -0700
+ > From: H. Peter Anvin <hpa@transmeta.com>
+ > To: Nicolas Pitre <nico@CAM.ORG>
+ > Cc: Device List Maintainer <device@lanana.org>
+ > Subject: Re: device
+ >
+ > Okay. Note that device numbers 204 and 205 are used for "low density
+ > serial devices", so you will have a range of minors on those majors (the
+ > tty device layer handles this just fine, so you don't have to worry about
+ > doing anything special.)
+ >
+ > So your assignments are:
+ >
+ > 204 char Low-density serial ports
+ > 5 = /dev/ttySA0 SA1100 builtin serial port 0
+ > 6 = /dev/ttySA1 SA1100 builtin serial port 1
+ > 7 = /dev/ttySA2 SA1100 builtin serial port 2
+ >
+ > 205 char Low-density serial ports (alternate device)
+ > 5 = /dev/cusa0 Callout device for ttySA0
+ > 6 = /dev/cusa1 Callout device for ttySA1
+ > 7 = /dev/cusa2 Callout device for ttySA2
+ >
+
+You must create those inodes in /dev on the root filesystem used
+by your SA1100-based device::
+
+ mknod ttySA0 c 204 5
+ mknod ttySA1 c 204 6
+ mknod ttySA2 c 204 7
+ mknod cusa0 c 205 5
+ mknod cusa1 c 205 6
+ mknod cusa2 c 205 7
+
+In addition to the creation of the appropriate device nodes above, you
+must ensure your user space applications make use of the correct device
+name. The classic example is the content of the /etc/inittab file where
+you might have a getty process started on ttyS0.
+
+In this case:
+
+- replace occurrences of ttyS0 with ttySA0, ttyS1 with ttySA1, etc.
+
+- don't forget to add 'ttySA0', 'console', or the appropriate tty name
+ in /etc/securetty for root to be allowed to login as well.
diff --git a/Documentation/arm/SA1100/Tifon b/Documentation/arm/sa1100/tifon.rst
index dd1934d9c851..c26e910b9ea7 100644
--- a/Documentation/arm/SA1100/Tifon
+++ b/Documentation/arm/sa1100/tifon.rst
@@ -1,7 +1,7 @@
+=====
Tifon
------
+=====
More info has to come...
Contact: Peter Danielsson <peter.danielsson@era-t.ericsson.se>
-
diff --git a/Documentation/arm/SA1100/Yopy b/Documentation/arm/sa1100/yopy.rst
index e14f16d836ac..5b35a5f61a44 100644
--- a/Documentation/arm/SA1100/Yopy
+++ b/Documentation/arm/sa1100/yopy.rst
@@ -1,2 +1,5 @@
-See http://www.yopydeveloper.org for more.
+====
+Yopy
+====
+See http://www.yopydeveloper.org for more.
diff --git a/Documentation/arm/Samsung-S3C24XX/CPUfreq.txt b/Documentation/arm/samsung-s3c24xx/cpufreq.rst
index fa968aa99d67..2ddc26c03b1f 100644
--- a/Documentation/arm/Samsung-S3C24XX/CPUfreq.txt
+++ b/Documentation/arm/samsung-s3c24xx/cpufreq.rst
@@ -1,5 +1,6 @@
- S3C24XX CPUfreq support
- =======================
+=======================
+S3C24XX CPUfreq support
+=======================
Introduction
------------
diff --git a/Documentation/arm/Samsung-S3C24XX/EB2410ITX.txt b/Documentation/arm/samsung-s3c24xx/eb2410itx.rst
index b87292e05f2f..7863c93652f8 100644
--- a/Documentation/arm/Samsung-S3C24XX/EB2410ITX.txt
+++ b/Documentation/arm/samsung-s3c24xx/eb2410itx.rst
@@ -1,5 +1,6 @@
- Simtec Electronics EB2410ITX (BAST)
- ===================================
+===================================
+Simtec Electronics EB2410ITX (BAST)
+===================================
http://www.simtec.co.uk/products/EB2410ITX/
diff --git a/Documentation/arm/Samsung-S3C24XX/GPIO.txt b/Documentation/arm/samsung-s3c24xx/gpio.rst
index e8f918b96123..f7c3d7d011a2 100644
--- a/Documentation/arm/Samsung-S3C24XX/GPIO.txt
+++ b/Documentation/arm/samsung-s3c24xx/gpio.rst
@@ -1,5 +1,6 @@
- S3C24XX GPIO Control
- ====================
+====================
+S3C24XX GPIO Control
+====================
Introduction
------------
@@ -12,7 +13,7 @@ Introduction
of the s3c2410 GPIO system, please read the Samsung provided
data-sheet/users manual to find out the complete list.
- See Documentation/arm/Samsung/GPIO.txt for the core implementation.
+ See Documentation/arm/samsung/gpio.rst for the core implementation.
GPIOLIB
@@ -26,16 +27,16 @@ GPIOLIB
listed below will be removed (they may be marked as __deprecated
in the near future).
- The following functions now either have a s3c_ specific variant
+ The following functions now either have a `s3c_` specific variant
or are merged into gpiolib. See the definitions in
arch/arm/plat-samsung/include/plat/gpio-cfg.h:
- s3c2410_gpio_setpin() gpio_set_value() or gpio_direction_output()
- s3c2410_gpio_getpin() gpio_get_value() or gpio_direction_input()
- s3c2410_gpio_getirq() gpio_to_irq()
- s3c2410_gpio_cfgpin() s3c_gpio_cfgpin()
- s3c2410_gpio_getcfg() s3c_gpio_getcfg()
- s3c2410_gpio_pullup() s3c_gpio_setpull()
+ - s3c2410_gpio_setpin() gpio_set_value() or gpio_direction_output()
+ - s3c2410_gpio_getpin() gpio_get_value() or gpio_direction_input()
+ - s3c2410_gpio_getirq() gpio_to_irq()
+ - s3c2410_gpio_cfgpin() s3c_gpio_cfgpin()
+ - s3c2410_gpio_getcfg() s3c_gpio_getcfg()
+ - s3c2410_gpio_pullup() s3c_gpio_setpull()
GPIOLIB conversion
@@ -77,7 +78,7 @@ out s3c2410 API, then here are some notes on the process.
6) s3c2410_gpio_getirq() should be directly replaceable with the
gpio_to_irq() call.
-The s3c2410_gpio and gpio_ calls have always operated on the same gpio
+The s3c2410_gpio and `gpio_` calls have always operated on the same gpio
numberspace, so there is no problem with converting the gpio numbering
between the calls.
diff --git a/Documentation/arm/Samsung-S3C24XX/H1940.txt b/Documentation/arm/samsung-s3c24xx/h1940.rst
index b738859b1fc0..62a562c178e3 100644
--- a/Documentation/arm/Samsung-S3C24XX/H1940.txt
+++ b/Documentation/arm/samsung-s3c24xx/h1940.rst
@@ -1,5 +1,6 @@
- HP IPAQ H1940
- =============
+=============
+HP IPAQ H1940
+=============
http://www.handhelds.org/projects/h1940.html
diff --git a/Documentation/arm/samsung-s3c24xx/index.rst b/Documentation/arm/samsung-s3c24xx/index.rst
new file mode 100644
index 000000000000..6c7b241cbf37
--- /dev/null
+++ b/Documentation/arm/samsung-s3c24xx/index.rst
@@ -0,0 +1,18 @@
+==========================
+Samsung S3C24XX SoC Family
+==========================
+
+.. toctree::
+ :maxdepth: 1
+
+ h1940
+ gpio
+ cpufreq
+ suspend
+ usb-host
+ s3c2412
+ eb2410itx
+ nand
+ smdk2440
+ s3c2413
+ overview
diff --git a/Documentation/arm/Samsung-S3C24XX/NAND.txt b/Documentation/arm/samsung-s3c24xx/nand.rst
index bc478a3409b8..938995694ee7 100644
--- a/Documentation/arm/Samsung-S3C24XX/NAND.txt
+++ b/Documentation/arm/samsung-s3c24xx/nand.rst
@@ -1,5 +1,6 @@
- S3C24XX NAND Support
- ====================
+====================
+S3C24XX NAND Support
+====================
Introduction
------------
@@ -27,4 +28,3 @@ Document Author
---------------
Ben Dooks, Copyright 2007 Simtec Electronics
-
diff --git a/Documentation/arm/Samsung-S3C24XX/Overview.txt b/Documentation/arm/samsung-s3c24xx/overview.rst
index 00d3c3141e21..e9a1dc7276b5 100644
--- a/Documentation/arm/Samsung-S3C24XX/Overview.txt
+++ b/Documentation/arm/samsung-s3c24xx/overview.rst
@@ -1,5 +1,6 @@
- S3C24XX ARM Linux Overview
- ==========================
+==========================
+S3C24XX ARM Linux Overview
+==========================
@@ -182,7 +183,7 @@ NAND
controller. If there are any problems the latest linux-mtd
code can be found from http://www.linux-mtd.infradead.org/
- For more information see Documentation/arm/Samsung-S3C24XX/NAND.txt
+ For more information see Documentation/arm/samsung-s3c24xx/nand.rst
SD/MMC
@@ -221,8 +222,8 @@ GPIO
As of v2.6.34, the move towards using gpiolib support is almost
complete, and very little of the old calls are left.
- See Documentation/arm/Samsung-S3C24XX/GPIO.txt for the S3C24XX specific
- support and Documentation/arm/Samsung/GPIO.txt for the core Samsung
+ See Documentation/arm/samsung-s3c24xx/gpio.rst for the S3C24XX specific
+ support and Documentation/arm/samsung/gpio.rst for the core Samsung
implementation.
@@ -276,18 +277,18 @@ Platform Data
kmalloc()s an area of memory, and copies the __initdata
and then sets the relevant device's platform data. Making
the function `__init` takes care of ensuring it is discarded
- with the rest of the initialisation code
+ with the rest of the initialisation code::
- static __init void s3c24xx_xxx_set_platdata(struct xxx_data *pd)
- {
- struct s3c2410_xxx_mach_info *npd;
+ static __init void s3c24xx_xxx_set_platdata(struct xxx_data *pd)
+ {
+ struct s3c2410_xxx_mach_info *npd;
npd = kmalloc(sizeof(struct s3c2410_xxx_mach_info), GFP_KERNEL);
if (npd) {
memcpy(npd, pd, sizeof(struct s3c2410_xxx_mach_info));
s3c_device_xxx.dev.platform_data = npd;
} else {
- printk(KERN_ERR "no memory for xxx platform data\n");
+ printk(KERN_ERR "no memory for xxx platform data\n");
}
}
diff --git a/Documentation/arm/Samsung-S3C24XX/S3C2412.txt b/Documentation/arm/samsung-s3c24xx/s3c2412.rst
index dc1fd362d3c1..68b985fc6bf4 100644
--- a/Documentation/arm/Samsung-S3C24XX/S3C2412.txt
+++ b/Documentation/arm/samsung-s3c24xx/s3c2412.rst
@@ -1,5 +1,6 @@
- S3C2412 ARM Linux Overview
- ==========================
+==========================
+S3C2412 ARM Linux Overview
+==========================
Introduction
------------
diff --git a/Documentation/arm/Samsung-S3C24XX/S3C2413.txt b/Documentation/arm/samsung-s3c24xx/s3c2413.rst
index 909bdc7dd7b5..1f51e207fc46 100644
--- a/Documentation/arm/Samsung-S3C24XX/S3C2413.txt
+++ b/Documentation/arm/samsung-s3c24xx/s3c2413.rst
@@ -1,5 +1,6 @@
- S3C2413 ARM Linux Overview
- ==========================
+==========================
+S3C2413 ARM Linux Overview
+==========================
Introduction
------------
@@ -10,7 +11,7 @@ Introduction
Camera Interface
----------------
+----------------
This block is currently not supported.
diff --git a/Documentation/arm/Samsung-S3C24XX/SMDK2440.txt b/Documentation/arm/samsung-s3c24xx/smdk2440.rst
index 429390bd4684..524fd0b4afaf 100644
--- a/Documentation/arm/Samsung-S3C24XX/SMDK2440.txt
+++ b/Documentation/arm/samsung-s3c24xx/smdk2440.rst
@@ -1,5 +1,6 @@
- Samsung/Meritech SMDK2440
- =========================
+=========================
+Samsung/Meritech SMDK2440
+=========================
Introduction
------------
diff --git a/Documentation/arm/Samsung-S3C24XX/Suspend.txt b/Documentation/arm/samsung-s3c24xx/suspend.rst
index cb4f0c0cdf9d..b4f3ae9fe76e 100644
--- a/Documentation/arm/Samsung-S3C24XX/Suspend.txt
+++ b/Documentation/arm/samsung-s3c24xx/suspend.rst
@@ -1,5 +1,6 @@
- S3C24XX Suspend Support
- =======================
+=======================
+S3C24XX Suspend Support
+=======================
Introduction
@@ -57,16 +58,16 @@ Machine Support
and will end up initialising all compiled machines' pm init!
The following is an example of code used for testing wakeup from
- an falling edge on IRQ_EINT0:
+ an falling edge on IRQ_EINT0::
-static irqreturn_t button_irq(int irq, void *pw)
-{
+ static irqreturn_t button_irq(int irq, void *pw)
+ {
return IRQ_HANDLED;
-}
+ }
-statuc void __init machine_init(void)
-{
+ statuc void __init machine_init(void)
+ {
...
request_irq(IRQ_EINT0, button_irq, IRQF_TRIGGER_FALLING,
@@ -75,7 +76,7 @@ statuc void __init machine_init(void)
enable_irq_wake(IRQ_EINT0);
s3c_pm_init();
-}
+ }
Debugging
@@ -134,4 +135,3 @@ Document Author
---------------
Ben Dooks, Copyright 2004 Simtec Electronics
-
diff --git a/Documentation/arm/Samsung-S3C24XX/USB-Host.txt b/Documentation/arm/samsung-s3c24xx/usb-host.rst
index f82b1faefad5..c84268bd1884 100644
--- a/Documentation/arm/Samsung-S3C24XX/USB-Host.txt
+++ b/Documentation/arm/samsung-s3c24xx/usb-host.rst
@@ -1,5 +1,6 @@
- S3C24XX USB Host support
- ========================
+========================
+S3C24XX USB Host support
+========================
@@ -13,7 +14,7 @@ Configuration
Enable at least the following kernel options:
- menuconfig:
+ menuconfig::
Device Drivers --->
USB support --->
@@ -22,8 +23,9 @@ Configuration
.config:
- CONFIG_USB
- CONFIG_USB_OHCI_HCD
+
+ - CONFIG_USB
+ - CONFIG_USB_OHCI_HCD
Once these options are configured, the standard set of USB device
@@ -60,17 +62,14 @@ Platform Data
The ports are numbered 0 and 1.
power_control:
-
Called to enable or disable the power on the port.
enable_oc:
-
Called to enable or disable the over-current monitoring.
This should claim or release the resources being used to
check the power condition on the port, such as an IRQ.
report_oc:
-
The OHCI driver fills this field in for the over-current code
to call when there is a change to the over-current state on
an port. The ports argument is a bitmask of 1 bit per port,
@@ -80,7 +79,6 @@ Platform Data
ensure this is called correctly.
port[x]:
-
This is struct describes each port, 0 or 1. The platform driver
should set the flags field of each port to S3C_HCDFLG_USED if
the port is enabled.
diff --git a/Documentation/arm/Samsung/Bootloader-interface.txt b/Documentation/arm/samsung/bootloader-interface.rst
index d17ed518a7ea..a56f325dae78 100644
--- a/Documentation/arm/Samsung/Bootloader-interface.txt
+++ b/Documentation/arm/samsung/bootloader-interface.rst
@@ -1,7 +1,9 @@
- Interface between kernel and boot loaders on Exynos boards
- ==========================================================
+==========================================================
+Interface between kernel and boot loaders on Exynos boards
+==========================================================
Author: Krzysztof Kozlowski
+
Date : 6 June 2015
The document tries to describe currently used interface between Linux kernel
@@ -17,8 +19,10 @@ executing kernel.
1. Non-Secure mode
Address: sysram_ns_base_addr
+
+============= ============================================ ==================
Offset Value Purpose
-=============================================================================
+============= ============================================ ==================
0x08 exynos_cpu_resume_ns, mcpm_entry_point System suspend
0x0c 0x00000bad (Magic cookie) System suspend
0x1c exynos4_secondary_startup Secondary CPU boot
@@ -27,22 +31,28 @@ Offset Value Purpose
0x24 exynos_cpu_resume_ns AFTR
0x28 + 4*cpu 0x8 (Magic cookie, Exynos3250) AFTR
0x28 0x0 or last value during resume (Exynos542x) System suspend
+============= ============================================ ==================
2. Secure mode
Address: sysram_base_addr
+
+============= ============================================ ==================
Offset Value Purpose
-=============================================================================
+============= ============================================ ==================
0x00 exynos4_secondary_startup Secondary CPU boot
0x04 exynos4_secondary_startup (Exynos542x) Secondary CPU boot
4*cpu exynos4_secondary_startup (Exynos4412) Secondary CPU boot
0x20 exynos_cpu_resume (Exynos4210 r1.0) AFTR
0x24 0xfcba0d10 (Magic cookie, Exynos4210 r1.0) AFTR
+============= ============================================ ==================
Address: pmu_base_addr
+
+============= ============================================ ==================
Offset Value Purpose
-=============================================================================
+============= ============================================ ==================
0x0800 exynos_cpu_resume AFTR, suspend
0x0800 mcpm_entry_point (Exynos542x with MCPM) AFTR, suspend
0x0804 0xfcba0d10 (Magic cookie) AFTR
@@ -50,15 +60,18 @@ Offset Value Purpose
0x0814 exynos4_secondary_startup (Exynos4210 r1.1) Secondary CPU boot
0x0818 0xfcba0d10 (Magic cookie, Exynos4210 r1.1) AFTR
0x081C exynos_cpu_resume (Exynos4210 r1.1) AFTR
-
+============= ============================================ ==================
3. Other (regardless of secure/non-secure mode)
Address: pmu_base_addr
+
+============= =============================== ===============================
Offset Value Purpose
-=============================================================================
+============= =============================== ===============================
0x0908 Non-zero Secondary CPU boot up indicator
on Exynos3250 and Exynos542x
+============= =============================== ===============================
4. Glossary
diff --git a/Documentation/arm/Samsung/clksrc-change-registers.awk b/Documentation/arm/samsung/clksrc-change-registers.awk
index 7be1b8aa7cd9..7be1b8aa7cd9 100755
--- a/Documentation/arm/Samsung/clksrc-change-registers.awk
+++ b/Documentation/arm/samsung/clksrc-change-registers.awk
diff --git a/Documentation/arm/Samsung/GPIO.txt b/Documentation/arm/samsung/gpio.rst
index 795adfd88081..5f7cadd7159e 100644
--- a/Documentation/arm/Samsung/GPIO.txt
+++ b/Documentation/arm/samsung/gpio.rst
@@ -1,5 +1,6 @@
- Samsung GPIO implementation
- ===========================
+===========================
+Samsung GPIO implementation
+===========================
Introduction
------------
@@ -11,7 +12,7 @@ specific calls provided alongside the drivers/gpio core.
S3C24XX (Legacy)
----------------
-See Documentation/arm/Samsung-S3C24XX/GPIO.txt for more information
+See Documentation/arm/samsung-s3c24xx/gpio.rst for more information
about these devices. Their implementation has been brought into line
with the core samsung implementation described in this document.
diff --git a/Documentation/arm/samsung/index.rst b/Documentation/arm/samsung/index.rst
new file mode 100644
index 000000000000..f54d95734362
--- /dev/null
+++ b/Documentation/arm/samsung/index.rst
@@ -0,0 +1,10 @@
+===========
+Samsung SoC
+===========
+
+.. toctree::
+ :maxdepth: 1
+
+ gpio
+ bootloader-interface
+ overview
diff --git a/Documentation/arm/Samsung/Overview.txt b/Documentation/arm/samsung/overview.rst
index 8f7309bad460..e74307897416 100644
--- a/Documentation/arm/Samsung/Overview.txt
+++ b/Documentation/arm/samsung/overview.rst
@@ -1,5 +1,6 @@
- Samsung ARM Linux Overview
- ==========================
+==========================
+Samsung ARM Linux Overview
+==========================
Introduction
------------
@@ -11,7 +12,7 @@ Introduction
The currently supported SoCs are:
- - S3C24XX: See Documentation/arm/Samsung-S3C24XX/Overview.txt for full list
+ - S3C24XX: See Documentation/arm/samsung-s3c24xx/overview.rst for full list
- S3C64XX: S3C6400 and S3C6410
- S5PC110 / S5PV210
@@ -22,7 +23,7 @@ S3C24XX Systems
There is still documentation in Documnetation/arm/Samsung-S3C24XX/ which
deals with the architecture and drivers specific to these devices.
- See Documentation/arm/Samsung-S3C24XX/Overview.txt for more information
+ See Documentation/arm/samsung-s3c24xx/overview.rst for more information
on the implementation details and specific support.
@@ -32,8 +33,10 @@ Configuration
A number of configurations are supplied, as there is no current way of
unifying all the SoCs into one kernel.
- s5pc110_defconfig - S5PC110 specific default configuration
- s5pv210_defconfig - S5PV210 specific default configuration
+ s5pc110_defconfig
+ - S5PC110 specific default configuration
+ s5pv210_defconfig
+ - S5PV210 specific default configuration
Layout
diff --git a/Documentation/arm/Setup b/Documentation/arm/setup.rst
index 0cb1e64bde80..8e12ef3fb9a7 100644
--- a/Documentation/arm/Setup
+++ b/Documentation/arm/setup.rst
@@ -1,5 +1,6 @@
+=============================================
Kernel initialisation parameters on ARM Linux
----------------------------------------------
+=============================================
The following document describes the kernel initialisation parameter
structure, otherwise known as 'struct param_struct' which is used
@@ -14,12 +15,10 @@ There are a lot of parameters listed in there, and they are described
below:
page_size
-
This parameter must be set to the page size of the machine, and
will be checked by the kernel.
nr_pages
-
This is the total number of pages of memory in the system. If
the memory is banked, then this should contain the total number
of pages in the system.
@@ -28,24 +27,22 @@ below:
include this information.
ramdisk_size
-
This is now obsolete, and should not be used.
flags
-
Various kernel flags, including:
- bit 0 - 1 = mount root read only
- bit 1 - unused
- bit 2 - 0 = load ramdisk
- bit 3 - 0 = prompt for ramdisk
- rootdev
+ ===== ========================
+ bit 0 1 = mount root read only
+ bit 1 unused
+ bit 2 0 = load ramdisk
+ bit 3 0 = prompt for ramdisk
+ ===== ========================
+ rootdev
major/minor number pair of device to mount as the root filesystem.
- video_num_cols
- video_num_rows
-
+ video_num_cols / video_num_rows
These two together describe the character size of the dummy console,
or VGA console character size. They should not be used for any other
purpose.
@@ -54,66 +51,50 @@ below:
the equivalent character size of your fbcon display. This then allows
all the bootup messages to be displayed correctly.
- video_x
- video_y
-
+ video_x / video_y
This describes the character position of cursor on VGA console, and
is otherwise unused. (should not be used for other console types, and
should not be used for other purposes).
memc_control_reg
-
MEMC chip control register for Acorn Archimedes and Acorn A5000
based machines. May be used differently by different architectures.
sounddefault
-
Default sound setting on Acorn machines. May be used differently by
different architectures.
adfsdrives
-
Number of ADFS/MFM disks. May be used differently by different
architectures.
- bytes_per_char_h
- bytes_per_char_v
-
+ bytes_per_char_h / bytes_per_char_v
These are now obsolete, and should not be used.
pages_in_bank[4]
-
Number of pages in each bank of the systems memory (used for RiscPC).
This is intended to be used on systems where the physical memory
is non-contiguous from the processors point of view.
pages_in_vram
-
Number of pages in VRAM (used on Acorn RiscPC). This value may also
be used by loaders if the size of the video RAM can't be obtained
from the hardware.
- initrd_start
- initrd_size
-
+ initrd_start / initrd_size
This describes the kernel virtual start address and size of the
initial ramdisk.
rd_start
-
Start address in sectors of the ramdisk image on a floppy disk.
system_rev
-
system revision number.
- system_serial_low
- system_serial_high
-
+ system_serial_low / system_serial_high
system 64-bit serial number
mem_fclk_21285
-
The speed of the external oscillator to the 21285 (footbridge),
which control's the speed of the memory bus, timer & serial port.
Depending upon the speed of the cpu its value can be between
@@ -121,9 +102,7 @@ below:
then a value of 50 Mhz is the default on 21285 architectures.
paths[8][128]
-
These are now obsolete, and should not be used.
commandline
-
Kernel command line parameters. Details can be found elsewhere.
diff --git a/Documentation/arm/SH-Mobile/.gitignore b/Documentation/arm/sh-mobile/.gitignore
index c928dbf3cc88..c928dbf3cc88 100644
--- a/Documentation/arm/SH-Mobile/.gitignore
+++ b/Documentation/arm/sh-mobile/.gitignore
diff --git a/Documentation/arm/SPEAr/overview.txt b/Documentation/arm/spear/overview.rst
index 1b049be6c84f..8a1a87aca427 100644
--- a/Documentation/arm/SPEAr/overview.txt
+++ b/Documentation/arm/spear/overview.rst
@@ -1,5 +1,6 @@
- SPEAr ARM Linux Overview
- ==========================
+========================
+SPEAr ARM Linux Overview
+========================
Introduction
------------
@@ -30,17 +31,18 @@ Introduction
- SPEAr1340 (SOC)
- SPEAr1340 Evaluation Board
- Configuration
- -------------
+Configuration
+-------------
A generic configuration is provided for each machine, and can be used as the
- default by
+ default by::
+
make spear13xx_defconfig
make spear3xx_defconfig
make spear6xx_defconfig
- Layout
- ------
+Layout
+------
The common files for multiple machine families (SPEAr3xx, SPEAr6xx and
SPEAr13xx) are located in the platform code contained in arch/arm/plat-spear
@@ -57,7 +59,7 @@ Introduction
support Flattened Device Tree.
- Document Author
- ---------------
+Document Author
+---------------
Viresh Kumar <vireshk@kernel.org>, (c) 2010-2012 ST Microelectronics
diff --git a/Documentation/arm/sti/overview.txt b/Documentation/arm/sti/overview.rst
index 1a4e93d6027f..70743617a74f 100644
--- a/Documentation/arm/sti/overview.txt
+++ b/Documentation/arm/sti/overview.rst
@@ -1,5 +1,6 @@
- STi ARM Linux Overview
- ==========================
+======================
+STi ARM Linux Overview
+======================
Introduction
------------
@@ -10,15 +11,17 @@ Introduction
B2000 and B2020 Reference boards.
- configuration
- -------------
+configuration
+-------------
A generic configuration is provided for both STiH415/416, and can be used as the
- default by
+ default by::
+
make stih41x_defconfig
- Layout
- ------
+Layout
+------
+
All the files for multiple machine families (STiH415, STiH416, and STiG125)
are located in the platform code contained in arch/arm/mach-sti
@@ -27,7 +30,7 @@ Introduction
Device Trees.
- Document Author
- ---------------
+Document Author
+---------------
Srinivas Kandagatla <srinivas.kandagatla@st.com>, (c) 2013 ST Microelectronics
diff --git a/Documentation/arm/sti/stih407-overview.txt b/Documentation/arm/sti/stih407-overview.rst
index 3343f32f58bc..027e75bc7b7c 100644
--- a/Documentation/arm/sti/stih407-overview.txt
+++ b/Documentation/arm/sti/stih407-overview.rst
@@ -1,5 +1,6 @@
- STiH407 Overview
- ================
+================
+STiH407 Overview
+================
Introduction
------------
@@ -12,7 +13,7 @@ Introduction
- ARM Cortex-A9 1.5 GHz dual core CPU (28nm)
- SATA2, USB 3.0, PCIe, Gbit Ethernet
- Document Author
- ---------------
+Document Author
+---------------
Maxime Coquelin <maxime.coquelin@st.com>, (c) 2014 ST Microelectronics
diff --git a/Documentation/arm/sti/stih415-overview.txt b/Documentation/arm/sti/stih415-overview.rst
index 1383e33f265d..b67452d610c4 100644
--- a/Documentation/arm/sti/stih415-overview.txt
+++ b/Documentation/arm/sti/stih415-overview.rst
@@ -1,5 +1,6 @@
- STiH415 Overview
- ================
+================
+STiH415 Overview
+================
Introduction
------------
@@ -7,6 +8,7 @@ Introduction
The STiH415 is the next generation of HD, AVC set-top box processors
for satellite, cable, terrestrial and IP-STB markets.
- Features
+ Features:
+
- ARM Cortex-A9 1.0 GHz, dual-core CPU
- SATA2x2,USB 2.0x3, PCIe, Gbit Ethernet MACx2
diff --git a/Documentation/arm/sti/stih416-overview.txt b/Documentation/arm/sti/stih416-overview.rst
index 558444c201c6..93f17d74d8db 100644
--- a/Documentation/arm/sti/stih416-overview.txt
+++ b/Documentation/arm/sti/stih416-overview.rst
@@ -1,5 +1,6 @@
- STiH416 Overview
- ================
+================
+STiH416 Overview
+================
Introduction
------------
diff --git a/Documentation/arm/sti/stih418-overview.txt b/Documentation/arm/sti/stih418-overview.rst
index 1cd8fc80646d..b563c1f4fe5a 100644
--- a/Documentation/arm/sti/stih418-overview.txt
+++ b/Documentation/arm/sti/stih418-overview.rst
@@ -1,5 +1,6 @@
- STiH418 Overview
- ================
+================
+STiH418 Overview
+================
Introduction
------------
@@ -14,7 +15,7 @@ Introduction
- HEVC L5.1 Main 10
- VP9
- Document Author
- ---------------
+Document Author
+---------------
Maxime Coquelin <maxime.coquelin@st.com>, (c) 2015 ST Microelectronics
diff --git a/Documentation/arm/stm32/overview.rst b/Documentation/arm/stm32/overview.rst
index f7e734153860..85cfc8410798 100644
--- a/Documentation/arm/stm32/overview.rst
+++ b/Documentation/arm/stm32/overview.rst
@@ -1,5 +1,3 @@
-:orphan:
-
========================
STM32 ARM Linux Overview
========================
diff --git a/Documentation/arm/stm32/stm32f429-overview.rst b/Documentation/arm/stm32/stm32f429-overview.rst
index 65bbb1c3b423..a7ebe8ea6697 100644
--- a/Documentation/arm/stm32/stm32f429-overview.rst
+++ b/Documentation/arm/stm32/stm32f429-overview.rst
@@ -1,5 +1,4 @@
-:orphan:
-
+==================
STM32F429 Overview
==================
@@ -23,6 +22,4 @@ Datasheet and reference manual are publicly available on ST website (STM32F429_)
.. _STM32F429: http://www.st.com/web/en/catalog/mmc/FM141/SC1169/SS1577/LN1806?ecmp=stm32f429-439_pron_pr-ces2014_nov2013
-:Authors:
-
-Maxime Coquelin <mcoquelin.stm32@gmail.com>
+:Authors: Maxime Coquelin <mcoquelin.stm32@gmail.com>
diff --git a/Documentation/arm/stm32/stm32f746-overview.rst b/Documentation/arm/stm32/stm32f746-overview.rst
index 42d593085015..78befddc7740 100644
--- a/Documentation/arm/stm32/stm32f746-overview.rst
+++ b/Documentation/arm/stm32/stm32f746-overview.rst
@@ -1,5 +1,4 @@
-:orphan:
-
+==================
STM32F746 Overview
==================
@@ -30,6 +29,4 @@ Datasheet and reference manual are publicly available on ST website (STM32F746_)
.. _STM32F746: http://www.st.com/content/st_com/en/products/microcontrollers/stm32-32-bit-arm-cortex-mcus/stm32f7-series/stm32f7x6/stm32f746ng.html
-:Authors:
-
-Alexandre Torgue <alexandre.torgue@st.com>
+:Authors: Alexandre Torgue <alexandre.torgue@st.com>
diff --git a/Documentation/arm/stm32/stm32f769-overview.rst b/Documentation/arm/stm32/stm32f769-overview.rst
index f6adac862b17..e482980ddf21 100644
--- a/Documentation/arm/stm32/stm32f769-overview.rst
+++ b/Documentation/arm/stm32/stm32f769-overview.rst
@@ -1,5 +1,4 @@
-:orphan:
-
+==================
STM32F769 Overview
==================
@@ -32,6 +31,4 @@ Datasheet and reference manual are publicly available on ST website (STM32F769_)
.. _STM32F769: http://www.st.com/content/st_com/en/products/microcontrollers/stm32-32-bit-arm-cortex-mcus/stm32-high-performance-mcus/stm32f7-series/stm32f7x9/stm32f769ni.html
-:Authors:
-
-Alexandre Torgue <alexandre.torgue@st.com>
+:Authors: Alexandre Torgue <alexandre.torgue@st.com>
diff --git a/Documentation/arm/stm32/stm32h743-overview.rst b/Documentation/arm/stm32/stm32h743-overview.rst
index c525835e7473..4e15f1a42730 100644
--- a/Documentation/arm/stm32/stm32h743-overview.rst
+++ b/Documentation/arm/stm32/stm32h743-overview.rst
@@ -1,5 +1,4 @@
-:orphan:
-
+==================
STM32H743 Overview
==================
@@ -31,6 +30,4 @@ Datasheet and reference manual are publicly available on ST website (STM32H743_)
.. _STM32H743: http://www.st.com/en/microcontrollers/stm32h7x3.html?querycriteria=productId=LN2033
-:Authors:
-
-Alexandre Torgue <alexandre.torgue@st.com>
+:Authors: Alexandre Torgue <alexandre.torgue@st.com>
diff --git a/Documentation/arm/stm32/stm32mp157-overview.rst b/Documentation/arm/stm32/stm32mp157-overview.rst
index 2c52cd020601..f62fdc8e7d8d 100644
--- a/Documentation/arm/stm32/stm32mp157-overview.rst
+++ b/Documentation/arm/stm32/stm32mp157-overview.rst
@@ -1,5 +1,4 @@
-:orphan:
-
+===================
STM32MP157 Overview
===================
diff --git a/Documentation/arm/sunxi/README b/Documentation/arm/sunxi.rst
index f8efc21998bf..b037428aee98 100644
--- a/Documentation/arm/sunxi/README
+++ b/Documentation/arm/sunxi.rst
@@ -1,3 +1,4 @@
+==================
ARM Allwinner SoCs
==================
@@ -10,93 +11,140 @@ SunXi family
Linux kernel mach directory: arch/arm/mach-sunxi
Flavors:
+
* ARM926 based SoCs
- Allwinner F20 (sun3i)
- + Not Supported
+
+ * Not Supported
* ARM Cortex-A8 based SoCs
- Allwinner A10 (sun4i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A10/A10%20Datasheet%20-%20v1.21%20%282012-04-06%29.pdf
- + User Manual
+ * User Manual
+
http://dl.linux-sunxi.org/A10/A10%20User%20Manual%20-%20v1.20%20%282012-04-09%2c%20DECRYPTED%29.pdf
- Allwinner A10s (sun5i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A10s/A10s%20Datasheet%20-%20v1.20%20%282012-03-27%29.pdf
- Allwinner A13 / R8 (sun5i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A13/A13%20Datasheet%20-%20v1.12%20%282012-03-29%29.pdf
- + User Manual
+ * User Manual
+
http://dl.linux-sunxi.org/A13/A13%20User%20Manual%20-%20v1.2%20%282013-01-08%29.pdf
- Next Thing Co GR8 (sun5i)
* Single ARM Cortex-A7 based SoCs
- Allwinner V3s (sun8i)
- + Datasheet
+
+ * Datasheet
+
http://linux-sunxi.org/File:Allwinner_V3s_Datasheet_V1.0.pdf
* Dual ARM Cortex-A7 based SoCs
- Allwinner A20 (sun7i)
- + User Manual
+
+ * User Manual
+
http://dl.linux-sunxi.org/A20/A20%20User%20Manual%202013-03-22.pdf
- Allwinner A23 (sun8i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A23/A23%20Datasheet%20V1.0%2020130830.pdf
- + User Manual
+
+ * User Manual
+
http://dl.linux-sunxi.org/A23/A23%20User%20Manual%20V1.0%2020130830.pdf
* Quad ARM Cortex-A7 based SoCs
- Allwinner A31 (sun6i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A31/A3x_release_document/A31/IC/A31%20datasheet%20V1.3%2020131106.pdf
- + User Manual
+
+ * User Manual
+
http://dl.linux-sunxi.org/A31/A3x_release_document/A31/IC/A31%20user%20manual%20V1.1%2020130630.pdf
- Allwinner A31s (sun6i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A31/A3x_release_document/A31s/IC/A31s%20datasheet%20V1.3%2020131106.pdf
- + User Manual
+
+ * User Manual
+
http://dl.linux-sunxi.org/A31/A3x_release_document/A31s/IC/A31s%20User%20Manual%20%20V1.0%2020130322.pdf
- Allwinner A33 (sun8i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A33/A33%20Datasheet%20release%201.1.pdf
- + User Manual
+
+ * User Manual
+
http://dl.linux-sunxi.org/A33/A33%20user%20manual%20release%201.1.pdf
- Allwinner H2+ (sun8i)
- + No document available now, but is known to be working properly with
+
+ * No document available now, but is known to be working properly with
H3 drivers and memory map.
- Allwinner H3 (sun8i)
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/H3/Allwinner_H3_Datasheet_V1.0.pdf
- Allwinner R40 (sun8i)
- + Datasheet
+
+ * Datasheet
+
https://github.com/tinalinux/docs/raw/r40-v1.y/R40_Datasheet_V1.0.pdf
- + User Manual
+
+ * User Manual
+
https://github.com/tinalinux/docs/raw/r40-v1.y/Allwinner_R40_User_Manual_V1.0.pdf
* Quad ARM Cortex-A15, Quad ARM Cortex-A7 based SoCs
- Allwinner A80
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A80/A80_Datasheet_Revision_1.0_0404.pdf
* Octa ARM Cortex-A7 based SoCs
- Allwinner A83T
- + Datasheet
+
+ * Datasheet
+
https://github.com/allwinner-zh/documents/raw/master/A83T/A83T_Datasheet_v1.3_20150510.pdf
- + User Manual
+
+ * User Manual
+
https://github.com/allwinner-zh/documents/raw/master/A83T/A83T_User_Manual_v1.5.1_20150513.pdf
* Quad ARM Cortex-A53 based SoCs
- Allwinner A64
- + Datasheet
+
+ * Datasheet
+
http://dl.linux-sunxi.org/A64/A64_Datasheet_V1.1.pdf
- + User Manual
+
+ * User Manual
+
http://dl.linux-sunxi.org/A64/Allwinner%20A64%20User%20Manual%20v1.0.pdf
diff --git a/Documentation/arm/sunxi/clocks.txt b/Documentation/arm/sunxi/clocks.rst
index e09a88aa3136..23bd03f3e21f 100644
--- a/Documentation/arm/sunxi/clocks.txt
+++ b/Documentation/arm/sunxi/clocks.rst
@@ -1,3 +1,4 @@
+=======================================================
Frequently asked questions about the sunxi clock system
=======================================================
@@ -12,7 +13,7 @@ A: The 24MHz oscillator allows gating to save power. Indeed, if gated
steps, one can gate it and keep the system running. Consider this
simplified suspend example:
- While the system is operational, you would see something like
+ While the system is operational, you would see something like::
24MHz 32kHz
|
@@ -23,7 +24,7 @@ A: The 24MHz oscillator allows gating to save power. Indeed, if gated
[CPU]
When you are about to suspend, you switch the CPU Mux to the 32kHz
- oscillator:
+ oscillator::
24Mhz 32kHz
| |
@@ -33,7 +34,7 @@ A: The 24MHz oscillator allows gating to save power. Indeed, if gated
|
[CPU]
- Finally you can gate the main oscillator
+ Finally you can gate the main oscillator::
32kHz
|
diff --git a/Documentation/arm/swp_emulation b/Documentation/arm/swp_emulation.rst
index af903d22fd93..6a608a9c3715 100644
--- a/Documentation/arm/swp_emulation
+++ b/Documentation/arm/swp_emulation.rst
@@ -11,17 +11,17 @@ sequence. If a memory access fault (an abort) occurs, a segmentation fault is
signalled to the triggering process.
/proc/cpu/swp_emulation holds some statistics/information, including the PID of
-the last process to trigger the emulation to be invocated. For example:
----
-Emulated SWP: 12
-Emulated SWPB: 0
-Aborted SWP{B}: 1
-Last process: 314
----
+the last process to trigger the emulation to be invocated. For example::
-NOTE: when accessing uncached shared regions, LDREX/STREX rely on an external
-transaction monitoring block called a global monitor to maintain update
-atomicity. If your system does not implement a global monitor, this option can
-cause programs that perform SWP operations to uncached memory to deadlock, as
-the STREX operation will always fail.
+ Emulated SWP: 12
+ Emulated SWPB: 0
+ Aborted SWP{B}: 1
+ Last process: 314
+
+NOTE:
+ when accessing uncached shared regions, LDREX/STREX rely on an external
+ transaction monitoring block called a global monitor to maintain update
+ atomicity. If your system does not implement a global monitor, this option can
+ cause programs that perform SWP operations to uncached memory to deadlock, as
+ the STREX operation will always fail.
diff --git a/Documentation/arm/tcm.txt b/Documentation/arm/tcm.rst
index 7c15871c1885..effd9c7bc968 100644
--- a/Documentation/arm/tcm.txt
+++ b/Documentation/arm/tcm.rst
@@ -1,5 +1,7 @@
+==================================================
ARM TCM (Tightly-Coupled Memory) handling in Linux
-----
+==================================================
+
Written by Linus Walleij <linus.walleij@stericsson.com>
Some ARM SoC:s have a so-called TCM (Tightly-Coupled Memory).
@@ -85,46 +87,50 @@ to have functions called locally inside the TCM without
wasting space, there is also the __tcmlocalfunc prefix that
will make the call relative.
-Variables to go into dtcm can be tagged like this:
-int __tcmdata foo;
+Variables to go into dtcm can be tagged like this::
+
+ int __tcmdata foo;
+
+Constants can be tagged like this::
-Constants can be tagged like this:
-int __tcmconst foo;
+ int __tcmconst foo;
+
+To put assembler into TCM just use::
+
+ .section ".tcm.text" or .section ".tcm.data"
-To put assembler into TCM just use
-.section ".tcm.text" or .section ".tcm.data"
respectively.
-Example code:
+Example code::
-#include <asm/tcm.h>
+ #include <asm/tcm.h>
-/* Uninitialized data */
-static u32 __tcmdata tcmvar;
-/* Initialized data */
-static u32 __tcmdata tcmassigned = 0x2BADBABEU;
-/* Constant */
-static const u32 __tcmconst tcmconst = 0xCAFEBABEU;
+ /* Uninitialized data */
+ static u32 __tcmdata tcmvar;
+ /* Initialized data */
+ static u32 __tcmdata tcmassigned = 0x2BADBABEU;
+ /* Constant */
+ static const u32 __tcmconst tcmconst = 0xCAFEBABEU;
-static void __tcmlocalfunc tcm_to_tcm(void)
-{
+ static void __tcmlocalfunc tcm_to_tcm(void)
+ {
int i;
for (i = 0; i < 100; i++)
tcmvar ++;
-}
+ }
-static void __tcmfunc hello_tcm(void)
-{
+ static void __tcmfunc hello_tcm(void)
+ {
/* Some abstract code that runs in ITCM */
int i;
for (i = 0; i < 100; i++) {
tcmvar ++;
}
tcm_to_tcm();
-}
+ }
-static void __init test_tcm(void)
-{
+ static void __init test_tcm(void)
+ {
u32 *tcmem;
int i;
@@ -152,4 +158,4 @@ static void __init test_tcm(void)
printk("TCM tcmem[%d] = %08x\n", i, tcmem[i]);
tcm_free(tcmem, 20);
}
-}
+ }
diff --git a/Documentation/arm/uefi.txt b/Documentation/arm/uefi.rst
index 6543a0adea8a..f868330df6be 100644
--- a/Documentation/arm/uefi.txt
+++ b/Documentation/arm/uefi.rst
@@ -1,3 +1,7 @@
+================================================
+The Unified Extensible Firmware Interface (UEFI)
+================================================
+
UEFI, the Unified Extensible Firmware Interface, is a specification
governing the behaviours of compatible firmware interfaces. It is
maintained by the UEFI Forum - http://www.uefi.org/.
@@ -11,11 +15,13 @@ UEFI support in Linux
=====================
Booting on a platform with firmware compliant with the UEFI specification
makes it possible for the kernel to support additional features:
+
- UEFI Runtime Services
- Retrieving various configuration information through the standardised
interface of UEFI configuration tables. (ACPI, SMBIOS, ...)
For actually enabling [U]EFI support, enable:
+
- CONFIG_EFI=y
- CONFIG_EFI_VARS=y or m
@@ -42,19 +48,20 @@ Instead, the kernel reads the UEFI memory map.
The stub populates the FDT /chosen node with (and the kernel scans for) the
following parameters:
-________________________________________________________________________________
-Name | Size | Description
-================================================================================
-linux,uefi-system-table | 64-bit | Physical address of the UEFI System Table.
---------------------------------------------------------------------------------
-linux,uefi-mmap-start | 64-bit | Physical address of the UEFI memory map,
- | | populated by the UEFI GetMemoryMap() call.
---------------------------------------------------------------------------------
-linux,uefi-mmap-size | 32-bit | Size in bytes of the UEFI memory map
- | | pointed to in previous entry.
---------------------------------------------------------------------------------
-linux,uefi-mmap-desc-size | 32-bit | Size in bytes of each entry in the UEFI
- | | memory map.
---------------------------------------------------------------------------------
-linux,uefi-mmap-desc-ver | 32-bit | Version of the mmap descriptor format.
---------------------------------------------------------------------------------
+
+========================== ====== ===========================================
+Name Size Description
+========================== ====== ===========================================
+linux,uefi-system-table 64-bit Physical address of the UEFI System Table.
+
+linux,uefi-mmap-start 64-bit Physical address of the UEFI memory map,
+ populated by the UEFI GetMemoryMap() call.
+
+linux,uefi-mmap-size 32-bit Size in bytes of the UEFI memory map
+ pointed to in previous entry.
+
+linux,uefi-mmap-desc-size 32-bit Size in bytes of each entry in the UEFI
+ memory map.
+
+linux,uefi-mmap-desc-ver 32-bit Version of the mmap descriptor format.
+========================== ====== ===========================================
diff --git a/Documentation/arm/VFP/release-notes.txt b/Documentation/arm/vfp/release-notes.rst
index 28a2795705ca..c6b04937cee3 100644
--- a/Documentation/arm/VFP/release-notes.txt
+++ b/Documentation/arm/vfp/release-notes.rst
@@ -1,7 +1,9 @@
+===============================================
Release notes for Linux Kernel VFP support code
------------------------------------------------
+===============================================
Date: 20 May 2004
+
Author: Russell King
This is the first release of the Linux Kernel VFP support code. It
diff --git a/Documentation/arm/vlocks.txt b/Documentation/arm/vlocks.rst
index 45731672c564..a40a1742110b 100644
--- a/Documentation/arm/vlocks.txt
+++ b/Documentation/arm/vlocks.rst
@@ -1,3 +1,4 @@
+======================================
vlocks for Bare-Metal Mutual Exclusion
======================================
@@ -26,7 +27,7 @@ started yet.
Algorithm
---------
-The easiest way to explain the vlocks algorithm is with some pseudo-code:
+The easiest way to explain the vlocks algorithm is with some pseudo-code::
int currently_voting[NR_CPUS] = { 0, };
@@ -93,7 +94,7 @@ Features and limitations
number of CPUs.
vlocks can be cascaded in a voting hierarchy to permit better scaling
- if necessary, as in the following hypothetical example for 4096 CPUs:
+ if necessary, as in the following hypothetical example for 4096 CPUs::
/* first level: local election */
my_town = towns[(this_cpu >> 4) & 0xf];
@@ -127,12 +128,12 @@ the basic algorithm:
reduces the number of round-trips required to external memory.
In the ARM implementation, this means that we can use a single load
- and comparison:
+ and comparison::
LDR Rt, [Rn]
CMP Rt, #0
- ...in place of code equivalent to:
+ ...in place of code equivalent to::
LDRB Rt, [Rn]
CMP Rt, #0