GitLab

Detail:
  This set of changes:
  * Refactors page table entry encoding/decoding so that it's (mostly) performed via functions in the MMU files (s.ARM600, s.VMSAv6) rather than on an ad-hoc basis as was the case previously
  * Page table entry encoding/decoding performed during ROM init is also handled via the MMU functions, which resolves some cases where the wrong cache policy was in use on ARMv6+
  * Adds basic support for shareable pages - on non-uniprocessor systems all pages will be marked as shareable (however, we are currently lacking ARMops which broadcast cache maintenance operations to other cores, so safe sharing of cacheable regions isn't possible yet)
  * Adds support for the VMSA XN flag and the "privileged ROM" access permission. These are exposed via RISC OS access privileges 4 and above, taking advantage of the fact that 4 bits have always been reserved for AP values but only 4 values were defined
  * Adds OS_Memory 17 and 18 to convert RWX-style access flags to and from RISC OS access privelege numbers; this allows us to make arbitrary changes to the mappings of AP values 4+ between different OS/hardware versions, and allows software to more easily cope with cases where the most precise AP isn't available (e.g. no XN on <=ARMv5)
  * Extends OS_Memory 24 (CheckMemoryAccess) to return executability information
  * Adds exported OSMem header containing definitions for OS_Memory and OS_DynamicArea
  File changes:
  - Makefile - export C and assembler versions of hdr/OSMem
  - Resources/UK/Messages - Add more text for OS_Memory errors
  - hdr/KernelWS - Correct comment regarding DCacheCleanAddress. Allocate workspace for MMU_PPLTrans and MMU_PPLAccess.
  - hdr/OSMem - New file containing exported OS_Memory and OS_DynamicArea constants, and public page flags
  - hdr/Options - Reduce scope of ARM6support to only cover builds which require ARMv3 support
  - s/AMBControl/Workspace - Clarify AMBNode_PPL usage
  - s/AMBControl/growp, mapslot, mapsome, memmap - Use AreaFlags_ instead of AP_
  - s/AMBControl/main, memmap - Use GetPTE instead of generating page table entry manually
  - s/ARM600 - Remove old coments relating to lack of stack. Update BangCam to use GetPTE. Update PPL tables, removing PPLTransL1 (L1 entries are now derived from L2 table on demand) and adding a separate table for ARM6. Implement the ARM600 versions of the Get*PTE ('get page table entry') and Decode*Entry functions
  - s/ARMops - Add Init_PCBTrans function to allow relevant MMU_PPLTrans/MMU_PCBTrans pointers to be set up during the pre-MMU stage of ROM init. Update ARM_Analyse to set up the pointers that are used post MMU init.
  - s/ChangeDyn - Move a bunch of flags to hdr/OSMem. Rename the AP_ dynamic area flags to AreaFlags_ to avoid name clashes and confusion with the page table AP_ values exported by Hdr:MEMM.ARM600/Hdr:MEMM.VMSAv6. Also generate the relevant flags for OS_Memory 24 so that it can refer to the fixed areas by their name instead of hardcoding the permissions.
  - s/GetAll - GET Hdr:OSMem
  - s/HAL - Change initial page table setup to use DA/page flags and GetPTE instead of building page table entries manually. Simplify AllocateL2PT by removing the requirement for the user to supply the access perimssions that will be used for the area; instead for ARM6 we just assume that cacheable memory is the norm and set L1_U for any L1 entry we create here.
  - s/Kernel - Add GetPTE macro (for easier integration of Get*PTE functions) and GenPPLAccess macro (for easy generation of OS_Memory 24 flags)
  - s/MemInfo - Fixup OS_Memory 0 to not fail on seeing non-executable pages. Implement OS_Memory 17 & 18. Tidy up some error generation. Make OS_Memory 13 use GetPTE. Extend OS_Memory 24 to return (non-) executability information, to use the named CMA_ constants generated by s/ChangeDyn, and to use the Decode*Entry functions when it's necessary to decode page table entries.
  - s/NewReset - Use AreaFlags_ instead of AP_
  - s/VMSAv6 - Remove old comments relating to lack of stack. Update BangCam to use GetPTE. Update PPL tables, removing PPLTransL1 (L1 entries are now derived from L2 table on demand) and adding a separate table for shareable pages. Implement the VMSAv6 versions of the Get*PTE and Decode*Entry functions.
Admin:
  Tested on Raspberry Pi 1, Raspberry Pi 3, Iyonix, RPCEmu (ARM6 & ARM7), comparing before and after CAM and page table dumps to check for any unexpected differences


Version 5.55. Tagged as 'Kernel-5_55'

Detail:
  This change gets rid of the following switches from the source (picking appropriate code paths for a 32bit HAL build):
  * HAL
  * HAL26
  * HAL32
  * No26bitCode
  * No32bitCode
  * IncludeTestSrc
  * FixR9CorruptionInExtensionSWI
  Various old files have also been removed (POST code, Arc/STB keyboard drivers, etc.)
Admin:
  Identical binary to previous revision for IOMD & Raspberry Pi builds


Version 5.49. Tagged as 'Kernel-5_49'

Detail:
  s/ChangeDyn - When DynArea_PMP_PhysOp generates an error during the initial page list scan, make sure r12 is initialised to the (new) PMP size, as expected by PMPMemoryMoved.
  s/AMBControl/allocate, s/AMBControl/growshrink - Document some extra exit conditions for the AMB allocate & grow/shrink routines
Admin:
  Tested on BB-xM
  Fixes RAM disc PMP becoming corrupt when attempting to grow it (e.g. via *ChangeDynamicArea) by an amount larger than the amount of free memory in the system


Version 5.35, 4.79.2.324. Tagged as 'Kernel-5_35-4_79_2_324'

Detail:
  This set of changes tackles two main issues:
  * Before mapping out a cacheable page or making it uncacheable, the OS performs a cache clean+invalidate op. However this leaves a small window where data may be fetched back into the cache, either accidentally (dodgy interrupt handler) or via agressive prefetch (as allowed for by the architecture). This rogue data can then result in coherency issues once the pages are mapped out or made uncacheable a short time later.
    The fix for this is to make the page uncacheable before performing the cache maintenance (although this isn't ideal, as prior to ARMv7 it's implementation defined whether address-based cache maintenance ops affect uncacheable pages or not - and on ARM11 it seems that they don't, so for that CPU we currently force a full cache clean instead)
  * Modern ARMs generally ignore unexpected cache hits, so there's an interrupt hole in the current OS_Memory 0 "make temporarily uncacheable" implementation where the cache is being flushed after the page has been made uncacheable (consider the case of a page that's being used by an interrupt handler, but the page is being made uncacheable so it can also be used by DMA). As well as affecting ARMv7+ devices this was found to affect XScale (and ARM11, although untested for this issue, would have presumably suffered from the "can't clean uncacheable pages" limitation)
    The fix for this is to disable IRQs around the uncache sequence - however FIQs are currently not being dealt with, so there's still a potential issue there.
  File changes:
  - Docs/HAL/ARMop_API, hdr/KernelWS, hdr/OSMisc - Add new Cache_CleanInvalidateRange ARMop
  - s/ARM600, s/VMSAv6 - BangCam updated to make the page uncacheable prior to flushing the cache. Add GetTempUncache macro to help with calculating the page flags required for making pages uncacheable. Fix abort in OS_MMUControl on Raspberry Pi - MCR-based ISB was resetting ZeroPage pointer to 0
  - s/ARMops - Cache_CleanInvalidateRange implementations. PL310 MMU_ChangingEntry/MMU_ChangingEntries refactored to rely on Cache_CleanInvalidateRange_PL310, which should be a more optimal implementation of the cache cleaning code that was previously in MMU_ChangingEntry_PL310.
  - s/ChangeDyn - Rename FastCDA_UpFront to FastCDA_Bulk, since the cache maintenance is no longer performed upfront. CheckCacheabilityR0ByMinusR2 now becomes RemoveCacheabilityR0ByMinusR2. PMP LogOp implementation refactored quite a bit to perform cache/TLB maintenance after making page table changes instead of before. One flaw with this new implementation is that mapping out large areas of cacheable pages will result in multiple full cache cleans while the old implementation would have (generally) only performed one - a two-pass approach over the page list would be needed to solve this.
  - s/GetAll - Change file ordering so GetTempUncache macro is available earlier
  - s/HAL - ROM decompression changed to do full MMU_Changing instead of MMU_ChangingEntries, to make sure earlier cached data is truly gone from the cache. ClearPhysRAM changed to make page uncacheable before flushing cache.
  - s/MemInfo - OS_Memory 0 interrupt hole fix
  - s/AMBControl/memmap - AMB_movepagesout_L2PT now split into cacheable+non-cacheable variants. Sparse map out operation now does two passes through the page list so that they can all be made uncacheable prior to the cache flush + map out.
Admin:
  Tested on StrongARM, XScale, ARM11, Cortex-A7, Cortex-A9, Cortex-A15, Cortex-A53
  Appears to fix the major issues plaguing SATA on IGEPv5


Version 5.35, 4.79.2.306. Tagged as 'Kernel-5_35-4_79_2_306'

Detail:
  s/ChangeDyn - Fix OS_DynamicArea 20 to work properly with sparse & PMP DAs. It now checks against the max extent of the area rather than the current size; this matches the logic used for checking fixed system workspace areas. The call only determines the ownership of a logical address, and it's considered the caller's responsibility to check if there's actually a page at the given address.
  s/ChangeDyn - Revise OS_DynamicArea 25 to remove the redundant 'PMP page flags' entry, and to allow pages to be looked up by either PMP page index, phys page number, or DA page index
  s/ChangeDyn - Tidy up InitDynamicAreas by adding the NextFreePage routine to help determine the next page to be added to the free pool.
  s/AMBControl/Workspace, s/AMBControl/main, s/AMBControl/memmap - Fix lazy mapping in of pages to use the correct L2PT flags for the default CB cache policy
  s/AMBControl/allocate - Get rid of magic constant when extracting page flags from DA flags, and make note of the fact that assorted bits of code ignore the flags
  s/AMBControl/growp, s/AMBControl/shrinkp - Reverse the page order when growing/shrinking areas, to match OS_ChangeDynamicArea. This helps both DAs and application space to have pages allocated to them in contiguous physical order - which in turn helps produce shorter, more optimal scatter lists for DMA
Admin:
  Tested on Pandaboard


Version 5.35, 4.79.2.287. Tagged as 'Kernel-5_35-4_79_2_287'

Detail:
  This set of changes adds support for "physical memory pools" (aka PMPs), a new type of dynamic area which allow physical pages to be claimed/allocated without mapping them in to the logical address space. PMPs have full control over which physical pages they use (similar to DAs which request specific physical pages), and also have full control over the logical mapping of their pages (which pages go where, and per-page access/cacheability control).
  Currently the OS makes use of two PMPs: one for the free pool (which now has a logical size of zero - freeing up gigabytes of logical space), and one for the RAM disc (logical size of 1MB, allowing for a physical size limited only by the amount of free memory)
  Implementing these changes has required a number of other changes to be made:
  * The CAM has been expanded from 8 bytes per entry to 16 bytes per entry, in order to allow each RAM page to store information about its PMP association
  * The system heap has been expanded to 32MB in size (from just under 4MB), in order to allow it to be used to store PMP page lists (1 word needed per page, but PMP pages may not always have physical pages assigned to them - so to allow multiple large PMPs to exist we need more than just 1 word per RAM page)
  * The &FA000000-&FBFFFFFF area of fixed kernel workspace has been shuffled around to accomodate the larger CAM, and the system heap is now located just above the RMA.
  * SoftResets code stripped out (unlikely we'll ever want to fix and re-enable it)
  * A couple of FastCDA options are now permanently on
  * Internal page flags shuffled around a bit. PageFlags_Unavailable now publicly exposed so that PMP clients can lock/unlock pages at will.
  * When OS_ChangeDynamicArea is asked to grow or shrink the free pool, it now implicitly converts it into a shrink or grow of application space (which is what would happen anyway). This simplifies the implementation; during a grow, pages (or replacement pages) are always sourced from the free pool, and during a shrink pages are always sent to the free pool.
  File changes:
  - hdr/KernelWS - Extend DANode structure. Describe CAM format. Adjust kernel workspace.
  - hdr/OSRSI6, s/Middle - Add new item to expose the CAM format
  - hdr/Options - Remove SoftResets switch. Add some PMP switches.
  - s/ARM600, s/VMSAv6 - Updated for new CAM format. Note that although the CAM stores PMP information, BangCamUpdate currently doesn't deal with updating that data - it's the caller's responsibility to do so where appropriate.
  - s/ChangeDyn - Lots of changes to implement PMP support, and to cope with the new CAM format.
  - s/HAL - Updated to cope with new CAM format, and lack of logical mapping of free pool.
  - s/MemInfo - Updated to cope with new CAM format. OS_Memory 0 updated to cope with converting PPN to PA for pages which are mapped out. OS_Memory 24 updated to decode the access permissions on a per-page basis for PMPs, and fixed its HWM usage for sparse DAs.
  - s/NewReset - Soft reset code and unused AddCamEntries function removed. Updated to cope with new CAM format, PMP free pool, PMP RAMFS
  - s/AMBControl/allocate - Update comment (RMA hasn't been used for AMBControl nodes for a long time)
  - s/AMBControl/growp, s/AMBControl/memmap, s/AMBControl/shrinkp - Update for new CAM format + PMP free pool
  - s/vdu/vdudriver - Strip out soft reset code.
Admin:
  Tested on Pandaboard
  This is just a first iteration of the PMP feature, with any luck future changes will improve functionality. This means APIs are subject to change as well.


Version 5.35, 4.79.2.284. Tagged as 'Kernel-5_35-4_79_2_284'

Improve support for VMSAv6 cache policies & memory types. Expose raw ARMops via OS_MMUControl & cache information via OS_PlatformFeatures.

Detail:
  Docs/HAL/ARMop_API - Document two new ARMops: Cache_Examine and IMB_List
  hdr/KernelWS - Shuffle workspace round a bit to allow space for the two new ARMops. IOSystemType now deleted (has been deprecated and fixed at 0 for some time)
  s/ARM600 - Cosmetic changes to BangCam to make it clearer what's going on. Add OS_MMUControl 2 (get ARMop) implementation.
  s/ARMops - Switch out different ARMop implementations and XCB tables depending on MMU model - helps reduce assembler warnings and make it clearer what code paths are and aren't possible. Add implementations of the two new ARMops. Simplify ARM_Analyse_Fancy by removing some tests which we know will have certain results. Use CCSIDR constants in ARMv7 ARMops instead of magic numbers. Update XCB table comments, and add a new table for VMSAv6
  s/ChangeDyn - Define constant for the new NCB 'idempotent' cache policy (VMSAv6 normal, non-cacheable memory)
  s/HAL - Use CCSIDR constants instead of magic numbers. Extend RISCOS_MapInIO to allow the TEX bits to be specified.
  s/Kernel - OS_PlatformFeatures 33 (read cache information) implementation (actually, just calls through to an ARMop)
  s/MemInfo - Modify VMSAv6 OS_Memory 0 cache/uncache implementation to use the XCB table instead of modifying L2_C directly. This allows the cacheability to be changed without affecting the memory type - important for e.g. unaligned accesses to work correctly. Implement cache policy support for OS_Memory 13.
  s/Middle - Remove IOSystemType from OS_ReadSysInfo 6.
  s/VMSAv6 - Make sure BangCam uses the XCB table for working out the attributes of temp-uncacheable pages instead of manipulating L2_C directly. Add OS_MMUControl 2 implementation.
  s/AMBControl/memmap - Update VMSAv6 page table pokeing to use XCB table
  s/PMF/osinit - Remove IOSystemType reference, and switch out some pre-HAL code that was trying to use IOSystemType.
Admin:
  Tested on Iyonix, ARM11, Cortex-A7, -A8, -A9, -A15
  Note that contrary to the comments in the source the default NCB policy currently maps to VMSAv6 Device memory type (as per previous kernel versions). This is just a temporary measure, and it will be switched over to Normal, non-cacheable once appropriate memory barriers have been added to the affected IO code.


Version 5.35, 4.79.2.273. Tagged as 'Kernel-5_35-4_79_2_273'

Detail:
  s/ARMops - Implement Cache_RangeThreshold for PL310 (helps AMBControl to decide what type of TLB maintenance is best). Fix MMU_ChangingEntry_PL310 doing more work than is necessary; was attempting to flush all ways for a given address tag, when really it should have only been flushing all the lines within a page and letting the cache worry about the tags/indices they correspond to.
  s/ChangeDyn, s/VMSAv6, s/AMBControl/memmap - Do extra TLB maintenance following writes to the page tables, as mandated by the ARMv6+ memory order model. Fixes frequent crashes on Cortex-A9 when running with lazy task swapping disabled (and presumably fixes other crashes too)
  s/MemInfo - Fix OS_Memory cache/uncache so that it does cache/TLB maintenance on a per-page basis instead of a global basis. Vastly improves performance when you have a large cache, but may need tweaking again in future to do a global op if large numbers of pages are being modified.
Admin:
  Tested on Pandaboard


Version 5.35, 4.79.2.255. Tagged as 'Kernel-5_35-4_79_2_255'

Detail:
Recent kernal changes appear to have enabled lazy task swapping, which brought
up a data alignment abort whilst compiling the source tree using a rom compiled
from this tree. Simple change added
to AMB_MakeHonestLA and PN routines to avoid this.

Admin:
  (highlight level of testing that has taken place)
  (bugfix number if appropriate)


Version 5.35, 4.79.2.240. Tagged as 'Kernel-5_35-4_79_2_240'

Add OS_Memory 24 implementation. Change OS_ValidateAddress to use it. Fix kernel leaving the physical access MB in a messy state. Try and protect against infinite abort loops caused by bad environment handlers.

Detail:
  s/MemInfo - Added an implementation of ROL's OS_Memory 24 call. Unlike the old OS_ValidateAddress call, this call should successfully report the presence of all memory areas known to the kernel. It should also correctly indicate which parts of a sparse DA are mapped in, unlike the old OS_ValidateAddress implementation.
  s/ChangeDyn - Update dynamic area handling to construct a lookup table for mapping logical addresses to dynamic areas; this is used by OS_Memory 24 to quickly locate which DA(s) hit a given region
  s/AMBControl/main - Make sure lazy task swapping is marked as disabled when AMB_LazyMapIn is {FALSE} - required so that OS_Memory 24 will give application space the correct flags
  s/ArthurSWIs - Switch OS_ValidateAddress over to using OS_Memory 24, as per ROL. For compatibili...

Detail:
  Briefly, this set of changes:
  * Adjusts PhysRamTable so that it retains the flags passed in by the HAL from OS_AddRAM (by storing them in the lower 12 bits of the size field)
  * Sorts the non-VRAM entries of PhysRamTable by speed and DMA capability, to ensure optimal memory allocation during OS startup.
  * Adjust the initial memory allocation logic to allow the cursor/sound chunk and HAL noncacheable workspace to come from DMA capable memory
  * Extends OS_Memory 12 to accept a 'must be DMA capable' flag in bit 8 of R0. This is the same as available in ROL's OS.
  * Extends OS_DynamicArea 0 to allow the creation of dynamic areas that automatically allocate from DMA capable memory. In ROL's OS this was done by setting bit 12 of R4, but we're using bits 12-14 for specifying the cache policy, so instead bit 15 is used.
  * Fixes OS_ReadSysInfo 6 to return the correct DevicesEnd value now that the IRQ/device limit is computed at runtime
  File changes:
  * hdr/OSEntries - Add definitions of the various flags passed to OS_AddRAM by the HAL. Add a new flag, NoDMA, for memory which can't be used for DMA.
  * hdr/KernelWS - Tidy PhysRamTable definition a bit by removing all the DRAM bank definitions except the first - this makes it easier to search for code which is interacting with the table. Remove VRAMFlags, it's redundant now that the flags are kept in the table. Add DMA allocation info to InitWs.
  * s/AMBControl/memmap - Updated to mask out the flags from PhysRamTable when reading RAM block sizes.
  * s/ARM600 - Strip out a lot of IOMD specific pre-HAL code.
  * s/ChangeDyn - Updated to cope with the flags stored in PhysRamTable. Implement support for DMA-capable dynamic areas. Rewrite InitDynamicAreas to insert pages into the free pool in the right order so that the fastest memory will be taken from it first.
  * s/GetAll, s/Middle - Fix OS_ReadSysInfo 6 to return the correct HAL-specific DevicesEnd value
  * s/HAL - Significant rework of initial RAM allocation code to allow the kernel workspace to come from the fastest DMA incapable RAM, while also allowing allocation of DMA capable memory for HAL NCNB workspace & kernel cursor/sound chunks. ClearPhysRAM rewritten as part of this.
  * s/MemInfo - Updated to cope with the flags stored in PhysRamTable. Add support for the new OS_Memory 12 flag. Update OS_Memory 7 to not assume PhysRamTable entries are sorted in address order, and rip out the old pre-HAL IOMD implementation.
  * s/NewReset - Remove GetPagesFromFreePool option, assume TRUE (as this has been the case for the past 10+ years). Revise a few comments and strip dead code. Update to cope with PhysRamTable flags.
  * s/VMSAv6 - Remove a couple of unused definitions
  * s/vdu/vdudriver - Update to cope with PhysRamTable flags
Admin:
  Tested in Kinetic RiscPC ROM softload, Iyonix softload, & OMAP3


Version 5.35, 4.79.2.186. Tagged as 'Kernel-5_35-4_79_2_186'

Detail:
  s/ChangeDyn:
    - Apply various optimisations to OS_ChangeDynamicArea to reduce the execution time when performing large grows/shrinks.
    - Optimisations can be toggled on/off with FastCDA_* flags for debugging.
    - On a 1GHz 512MB BB-xM, the initial *FreePool call now takes 0.15s instead of 13.46s. On a 512MB Iyonix the time has dropped from 1.18s to 0.23s.
    - Growing screen memory (on BB-xM) has also seen significant gains - between 2x and 4x speedup, depending on what state the source pages are in.
    - Added/updated documentation for a few functions and made more use of ROUTs for safety
  s/ARM600, s/VMSAv6:
    - Update BangCamUpdate, etc. to add support for the PageFlags_Unsafe flag that OS_ChangeDynamicArea uses to bypass cache/TLB maintenance in some situations
    - Avoid BangCamUpdate calling BangL2PT to map out the page if the page isn't mapped in (avoids unnecessary cache/TLB flush)
  s/ArthurSWIs:
    - Add extra ASSERT for safety
  s/AMBcontrol/memory
    - Fix incorrect assumption that the usable size of a heap block is always 8 less than the value stored in the header. Even with the old 8 byte aligned allocations the usable size will always be 4 bytes less than the value in the header. This code would have resulted in some slight memory wasteage, as AMBcontrol will have always tried growing the block four bytes bigger than needed.
Admin:
  Tested on Iyonix & BB-xM


Version 5.35, 4.79.2.146. Tagged as 'Kernel-5_35-4_79_2_146'

Detail:
  s/AMBControl/service - Fix missing colon on end of :OR: operator
Admin:
  Identical binary under objasm


Version 5.35, 4.79.2.142. Tagged as 'Kernel-5_35-4_79_2_142'

Detail:
  A whole mass of changes to add high processor vectors + zero page relocation support to the Cortex branch of the kernel
  At the moment the code can only cope with two ZeroPage locations, &0 and &FFFF0000. But with a bit more tweaking those restrictions can probably be lifted, allowing ZeroPage to be hidden at almost any address (assuming it's fixed at compile time). If I've done my job right, these restrictions should all be enforced by asserts.
  There's a new option, HiProcVecs, in hdr/Options to control whether high processor vectors are used. When enabling it and building a ROM, remember:
  * FPEmulator needs to be built with the FPEAnchor=High option specified in the components file (not FPEAnchorType=High as my FPEmulator commit comments suggested)
  * ShareFS needs unplugging/removing since it can't cope with it yet
  * Iyonix users will need to use the latest ROOL boot sequence, to ensure the softloaded modules are compatible (OMAP, etc. don't really softload much so they're OK with older sequences)
  * However VProtect also needs patching to fix a nasty bug there - http://www.riscosopen.org/tracker/tickets/294
  The only other notable thing I can think of is that the ProcessTransfer code in s/ARM600 & s/VMSAv6 is disabled if high processor vectors are in use (it's fairly safe to say that code is obsolete in HAL builds anyway?)
  Fun challenge for my successor: Try setting ZeroPage to &FFFF00FF (or similar) so its value can be loaded with MVN instead of LDR. Then use positive/negative address offsets to access the contents.
  File changes:
  - hdr/ARMops - Modified ARMop macro to take the ZeroPage pointer as a parameter instead of 'zero'
  - hdr/Copro15ops - Corrected $quick handling in myISB macro
  - hdr/Options - Added ideal setting for us to use for HiProcVecs
  - s/AMBControl/allocate, s/AMBControl/growp, s/AMBControl/mapslot, s/AMBControl/memmap, s/AMBControl/service, s/AMBControl/shrinkp, s/Arthur2, s/Arthur3, s/ArthurSWIs, s/ChangeDyn, s/ExtraSWIs, s/HAL, s/HeapMan, s/Kernel, s/MemInfo, s/Middle, s/ModHand, s/MoreSWIs, s/MsgCode, s/NewIRQs, s/NewReset, s/Oscli, s/PMF/buffer, s/PMF/IIC, s/PMF/i2cutils, s/PMF/key, s/PMF/mouse, s/PMF/osbyte, s/PMF/oseven, s/PMF/osinit, s/PMF/osword, s/PMF/oswrch, s/SWINaming, s/Super1, s/SysComms, s/TickEvents, s/Utility, s/vdu/vdu23, s/vdu/vdudriver, s/vdu/vdugrafl, s/vdu/vdugrafv, s/vdu/vdupalxx, s/vdu/vdupointer, s/vdu/vduswis, s/vdu/vduwrch - Lots of updates to deal with zero page relocation
  - s/ARM600 - UseProcessTransfer option. Zero page relocation support. Deleted pre-HAL ClearPhysRAM code to tidy the file up a bit.
  - s/ARMops - Zero page relocation support. Set CPUFlag_HiProcVecs when high vectors are in use.
  - s/KbdResPC - Disable compilation of dead code
  - s/VMSAv6 - UseProcessTransfer option. Zero page relocation support.
Admin:
  Tested with OMAP & Iyonix ROM softloads, both with high & low zero page.
  High zero page hasn't had extensive testing, but boot sequence + ROM apps seem to work.


Version 5.35, 4.79.2.98.2.48. Tagged as 'Kernel-5_35-4_79_2_98_2_48'

Detail:
  Makefile - Added hdr.Variables to the C header export list
  hdr/ARMops, s/ARMops - Added ARM1176JZF-S to the list of known CPUs
  s/ARMops - Fix unaligned memory access in ARM_PrintProcessorType
  hdr/Copro15ops, s/ARMops, s/HAL, s/VMSAv6, s/AMBControl/memmap - Fixed all myDSB/myISB/etc. macro instances to specify a temp register, so that they work properly when building an ARMv6 version of the kernel
Admin:
  Fixes build errors with the latest Draw module.
  Should also allow the kernel to work properly with the new S3C6410 port.
  ARMv6 version builds OK, but no other builds or runtime tests have been made.


Version 5.35, 4.79.2.98.2.38. Tagged as 'Kernel-5_35-4_79_2_98_2_38'

Detail:
  hdr/Options - ARM6support and GetKernelMEMC values are now derived from the value of MEMM_Type
  s/ARMops, s/HAL - Code to detect and handle ARMv7 CPUs is now only enabled when using VMSAv6 MMU model. Saves us from having to deal with lack of myIMB, myDSB, etc. implementations on pre-ARMv6.
  s/HAL - Removed some debug code
  s/NewReset - Fix bug spotted by Tom Walker where R12 wasn't being restored by LookForHALRTC if a non-HAL RTC had already been found
  s/AMBControl/memmap - correct the assert clause that was checking that &FFE are the correct L2PT protection bits for non-VMSAv6 machines
Admin:
  Tested this kernel on a rev C2 beagleboard & Iyonix softload. Also compiled it into an IOMD ROM, but didn't try running it.


Version 5.35, 4.79.2.98.2.32. Tagged as 'Kernel-5_35-4_79_2_98_2_32'

Update Cortex kernel to use correct instruction/memory barriers and to perform branch target predictor maintenance. Plus tweak default CMOS settings.

Detail:
  hdr/Copro15ops - Added myISB, myDSB, myDMB macros to provide barrier functionality on ARMv6+
  s/ARMops, s/HAL, s/VMSAv6, s/AMBControl/memmap - Correct barrier operations are now performed on ARMv6+ following CP15 writes. Branch predictors are now also maintained properly.
  s/NewReset - Change default CMOS settings so number of CDFS drives is 0 in Cortex builds. Fixes rogue CDFS icon on iconbar.
Admin:
  Tested on rev C2 beagleboard


Version 5.35, 4.79.2.98.2.27. Tagged as 'Kernel-5_35-4_79_2_98_2_27'

Detail:
  s/ARMops - Fix IMB_Range_WB_CR7_Lx to clean the correct number of cache lines
  s/HAL - Change CP15 control register flags so unaligned loads are enabled on ARMv6 (to simplify support for ARMv7 where unaligned loads are always enabled, and to match the behaviour expected by the example code in Hdr:CPU.Arch)
  s/AMBControl/memmap - Make AMB_LazyFixUp use the correct L2PT protection flags depending on ARM600/VMSAv6 MMU model. Also guard against problems caused by future L2PT flag changes.
  s/vdu/vdugrafj - Fix previously undiscovered 32bit incompatability in GetSprite (OS_SpriteOp 14/16)
Admin:
  Tested on rev C2 beagleboard


Version 5.35, 4.79.2.98.2.5. Tagged as 'Kernel-5_35-4_79_2_98_2_5'

Detail:
  Lots of changes since last version, at least the following:
  * Updated OS timestamp, removed alpha status
  * Negative INKEY OS version changed to &AA
  * GraphicsV is now alocated vector number &2A
  * ROM moved up to &FC000000
  * Max application slot increased to 512 Mbytes (for now)
  * Max size of RMA increased to 256 Mbytes
  * RMA is now first-created dynamic area (so it gets lowest address after
    top of application slot)
  * OS_Memory 10 reimplemeted
  * New OS_ReadSysInfo 6 values 18-22 added
  * OS_ReadSysInfo 8 gains flag bit to indicate soft power-off
  * Misc internal top-bit-set-address fixes
  * *ChangeDynamicArea can take sizes in megabytes or gigabytes
  * Magic word "&off" in R0 passed to OS_Reset powers down if possible
  * Added acceleration: block copy; CLS; text window scroll up; rectangle
    fill
  * Disabled LED flashing in page mode (liable to crash)
  * Masked sprite plot and VDU 5 text avoids reading the screen if possible
  * Framestore made USR mode accessible
  * Fix for VDU 5,127 bug - now relies on font definitions being in extreme
    quarters of memory, rather than bottom half
  * Allocated 64-bit OS_Convert... SWIs
  * IIC errors use allocated error numbers
  * Looks for Dallas RTC before Philips RTC because we're using a Philips
    NVRAM device with the same ID
  * Fix to bug that meant the oscillator in the Dallas RTC wasn't enabled
  * Default mouse type (USB) changed to allocated number
  * Ram disc max size increased to 128 Mbytes (Ursula merge) and made
    cacheable for StrongARMs (not XScale)
  * Branch through zero handler now works in USR mode, by use of a
    trampoline in the system stack to allow PC-relative register storage
  * Address exception handler changed to not use 0 as workspace
  * OS_Memory 13 extended to allow specification of cacheability and access
    privileges
  * Added OS_Memory 16 to return important memory addresses
  * RISCOS_MapInIO() takes cacheable flag in bit 3, access permissions in
    bits 10 and 11, doubly-mapped flag in bit 20, and access permissions
    specified flag in bit 21
  * Bug fix in last version for application abort handlers didn't quite
    work; register shuffle required
  * "Module is not 32-bit compatible" error now reports the module name
  * Default configured language changed from 10 to 11 (now Desktop again)

Version 5.35, 4.79.2.51. Tagged as 'Kernel-5_35-4_79_2_51'

In the No26bitCode case (ie when abort handlers are entered in ABT32 mode), if lazy task swapping was enabled and a data abort occurred that was not a page translation fault, then the code in AMB_LazyFixUp to map in the whole application slot was being circumvented, leading to problems for abort handlers in application space because r14_abt was corrupted by any abort due to accessing the abort handler itself. The test of the FSR (to compensate for the FAR being unusable for external aborts) which prompted the circumvention has therefore been moved inside AMB_LazyFixup.

Also now preserves the FSR and FAR across AMB_LazyFixUp, so they are now
visible from application abort handlers if desired.

Version 5.35, 4.79.2.50. Tagged as 'Kernel-5_35-4_79_2_50'

IOMD HAL:
  enables fast clock for StrongARM on Medusa h/w

Kernel:
  ARMops for StrongARM implemented. Tested moderately on
  HAL/32-bit minimal desktop build for Risc PC. Could do
  with more testing later. eg. does reentrant cache
  cleaning support really work?
  Lazy task swapping is enabled for revT or later, wahey.

Version 5.35, 4.79.2.42. Tagged as 'Kernel-5_35-4_79_2_42'

Ursula. Quite a hairy code merge really, so let's hope it is
worth it to someone. What you get (back after 2 or 3 years):
- much more efficient for largish numbers of DAs (relevance
  to current build = approx 0)
- fancy reason codes to support fast update of
  Switcher bar display (relevance = 0)
- support for clamped maximum area sizes, to avoid address
  space exhaustion with big memory (relevance = 0)
- better implementation of shrinkable DAs, performance
  wise (if lots of DAs, relevance = approx 0)
- support for 'Sparse' DAs. Holey dynamic areas, Batman!
  (relevance, go on someone use the darned things)
Moderately development tested on HAL/32bit ARM9 desktop.
Note the Switcher should be compiled to use the new
reason codes 6&7, for fabled desktop builds.

Also, during this work, so I could see the wood for the
trees, redid some source code clean up, removing pre-Medusa
stuff (like I did about 3 years ago on Ursula, sigh). That's
why loads of source files have changed. The new DA stuff
is confined pretty much to hdr.KernelWS and s.ChangeDyn.

Ta.

Version 5.35, 4.79.2.38. Tagged as 'Kernel-5_35-4_79_2_38'

LazyFixup now ensures all app pages are mapped in before handing
on a real (no-lazy) abort. This allows an abort handler in app
space itself, without scrambling the details of the original
abort (via a lazy abort in abort mode).
Many a happy minute spent coding and testing for recursive
aborts and fixups, but lets just pretend it doesn't happen
shall we.
Tested with simple popbang code on ARM9 desktop build.

Version 5.35, 4.79.2.36. Tagged as 'Kernel-5_35-4_79_2_36'

  hooks to give correct mapping info for OS_Memory 0
  same for OS_ReadMemMapEntries
  same for OS_FindMemMapEntries
  Lazy fixup routine no longer assumes an abort in current
  app space must be a truant page. However, work in this
  area not complete (no support yet for abort handler code
  in app space itself, eg. for C trampoline)
Good to know this will be a big performance boost when
our products use one monolithic application (sarcasm).
Ta

Version 5.35, 4.79.2.32. Tagged as 'Kernel-5_35-4_79_2_32'

Reimplement Lazy task swapping, an amusing idea from Ursula, would have done it sooner but couldn't be bothered (humour).

Currently activates for all ARMs flagged as base-restored
abort model. No handling of eg. StrongARM pre-revT bug, but
then the kernel no longer runs on StrongARM (progress).
Still some details to fix: all aborts in current app space
assumed to be missing pages, but this must be fixed to
handle abort code in app space, things like debuggers
marking code read only.

Plus, small fixes:
  OS_Memory 8 returns vaguely useful info for RAM,VRAM
  in HAL build (temporary partial implementation)
  Broken handling of old BBC commands with (fx,tv etc)
  with no spaces fixed (fudgeulike code from Ursula,
  now 32-bit).

Version 5.35, 4.79.2.31. Tagged as 'Kernel-5_35-4_79_2_31'

Detail:

Admin:
  not tested

Version 5.35, 4.79.2.12. Tagged as 'Kernel-5_35-4_79_2_12'

more use of ARMops in page manipulation, change register usage of ARmops tested by kernel boot to star prompt only

Version 5.35, 4.79.2.11. Tagged as 'Kernel-5_35-4_79_2_11'

More stuff. Up to the desktop now; cache on, working keyboard. Some source restructuring to start to make splitting it up into several object files more feasible.

* Added ARM_IMB and ARM_IMBRange SWIs as recommended by ARMv5.
* Some early prototype HAL bits popped in - a lot of source restructuring still
  to come.
* New debug target creates an AIF image with debug information, and translates
  this into an ASCII object file for the 16702B logic analyser.

Version 5.35, 4.79.2.1. Tagged as 'Kernel-5_35-4_79_2_1'

Details:
  The Kernel will now compile to produce a pure 32-bit system if No26bitCode is
  set to TRUE.
  If No26bitCode is FALSE, then the Kernel will be a standard 26-bit Kernel,
  although some internal changes have taken place to minimise compile
  switches between the two cases. See Docs.32bit for more technical info.

  The hardest part was the flood-fill...

Other changes:
  Pointer shape changes now take place on the next VSync, rather than actually
  WAITING for the VSync. Turning the Hourglass on shouldn't slow your machine
  down by 5% now :)

  Lots of really crusty pre-IOMD code removed.

Admin:
  Tested in 32 and 26-bit forms in a limited desktop build. Basically, this
  will need to see a lot of use to iron out difficulties. I'd like anyone who
  has a non-frozen project to at least attempt using this Kernel.

Version 5.23. Tagged as 'Kernel-5_23'