/[gxemul]/trunk/TODO

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-revision 12 by dpavlin,
Mon Oct  8 16:18:38 2007 UTC
+revision 32 by dpavlin,
Mon Oct  8 16:20:58 2007 UTC
 Line 1
- $Id: TODO,v 1.166 2005/08/16 05:44:33 debug Exp $
+ $Id: TODO,v 1.410 2006/11/06 05:32:38 debug Exp $
- ===============================================================================
+ This file is my list of things I want to work on in the future. It is in
+ random order, and some parts of it are probably out-to-date by now.
- High priority stuff:
+ Dyntrans:
- MIPS bintrans:
+         x)  Instruction combination collisions? How to avoid easily...
-         x)  call/return address cache?
+         x)  Think about how to do both SHmedia and SHcompact in a reasonable
+             way! (Or AMD64 long/protected/real, for that matter.)
- dyntrans:
+         x)  68K emulation; think about how to do variable instruction
-         x)  memory write protection for ARM, but NOT for Alpha (because
+             lengths across page boundaries.
-                 it has the IMB instruction... hm)
+         x)  Dyntrans with valgrind-inspired memory checker. (In memory_rw,
+             it would be reasonably simple to add; in each individual fast
-         x)  call/return address cache
+             load/store routine = a lot more work, and it would become
+             kludgy very fast.)
-         x)  instr_call sequence analysis support? (Useful for
+         x)  Dyntrans with SMP... lots of work to be done here.
-                 handtuning combinations.)
+         x)  Dyntrans with cache emulation... lots of work here as well.
+         o)  dev_mp doesn't work well with dyntrans yet
-         x)  opcode statistics support?
+         o)  In general, IPIs, CAS, LL/SC etc must be made to work with dyntrans
-                 TODO: is instr_call statistics enough?
+         x)  Redesign/rethink the delay slot mechanism used for e.g. MIPS,
+                 so that it caches a translation (that is, an instruction
-         x)  support for archs that allow transparent unaligned load/stores
+                 word and the instr_call it was translated to the last
+                 time), so that it doesn't need to do slow
-         x)  SMP: detect when an instruction such as ll/sc or cas is used,
+                 to_be_translated for each end of page?
-             and "synchronize" approximately the number of executed instructions
+         x)  Program Counter statistics:
-             (or cycles) across all CPUs.
+                 Per machine? What about SMP? All data to the same file?
+                 A debugger command should be possible to use to enable/
-         x)  support for variable-length instructions (x86, m68k, ...)
+                 disable statistics gathering.
-                 Perhaps:  don't increase the next_ic between every
+                 Configuration file option!
-                 instruction, but let each instruction's handler do
+         x)  Breakpoints:
-                 that for itself.
+                 o) Physical vs virtual addresses!
-                 Problem: what about instructions crossing a (virtual)
+                 o) 32-bit vs 64-bit sign extension for MIPS, and others?
-                         page boundary? They cannot be translated once
+         x)  INVALIDATION should cause translations in _all_ cpus to be
-                         and for all :( and must be interpreted slowly!
+             invalidated, e.g. on a write to a write-protected page
+             (containing code)
-         x)  support for THUMB or MIPS16  (arm, mips)
+         x)  16-bit encodings? (MIPS16, ARM Thumb, 32-bit SH on SH64)
+         x)  Lots of other stuff: see src/cpus/README_DYNTRANS
-         x)  support for Delay slots!  (mips, sparc, hppa)
+         x)  true recompilation backend? think carefully about this,
+             experiment in a separate project (not in GXemul)
-         x)  Alpha: hahaha, zapnot and inserts/extracts don't
+                 o) First test would be to just implement a simple
-             compile into very nice code :-|  fix this
+                    instruction such as MIPS' addiu or lui, on AMD64
+                    hosts...
-         x)  64-bit virtual memory translation tables (PPC, etc)
+ Simple Valgrind-like checks?
-         x)  x86: convert to dyntrans. LOTS of stuff to consider.
+         o)  Mark every address with bits which tell whether or not the address
+             has been written to.
+         o)  What should happen when programs are loaded?  Text/data, bss (zero
- ===============================================================================
+             filled). But stack space and heap is uninitialized.
+         o)  Uninitialized local variables:
- Lower priority, but still important:
+                 A load from a place on the stack which has not previously
+                 been stored to => warning. Increasing the stack pointer using
-         Redesign the entire "mainbus" concept:
+                 any available means should reset the memory to uninitialized.
-                 o)  Easily configurable interrupt routing in SMP systems.
+         o)  If calls to malloc() and free() can be intercepted:
-                 o)  Specific clock/bus speeds, cpu speeds etc.
+                 o)  Access to a memory area after free() => warning.
-                 o)  Synchronization over network?
+                 o)  Memory returned by malloc() is marked as not-initialized.
+                 o)  Non-passive, but good to have: Change the argument
-         Caches / memory hierarchies: (this is mostly MIPS-specific)
+                     given to malloc, to return a slightly larger memory
-                 o)  MIPS coproc.c: bits in config registers should reflect
+                     area, i.e.  margin_before + size + margin_after,
-                     correct cache sizes for _all_ CPU types. (currently only
+                     and return the pointer  + margin_before.
-                     implemented for R4000, R1x000, and a few others)
+                     Any access to the margin_before or _after space results
-                 o)  src/memory*.c: Implement correct cache emulation for
+                     in warnings. (free() must be modified to free the
-                     all CPU types. (currently only R2000/R3000 is implemented)
+                     actually allocated address.)
-                     (per CPU, multiple levels should be possible,
-                     associativity etc!)
+ MIPS:
-                 o)  R2000/R3000 isn't _100%_ correct, just almost correct :)
+         o)  Nicer MIPS status bits in register dumps.
-                 o)  Move the -S (fill mem with random) functionality into the
+         o)  Alignment exceptions.
-                     memory.c subsystem, not machine.c or wherever it is now
+         o)  Floating point exception correctness.
-                 o)  ECC stuff, simulation of memory errors?  (Machine dependant)
+         o)  Fix this? Triggered by NetBSD/sgimips? Hm:
-                 o)  More than 4GB of emulated RAM, when run on a 32-bit host?
+                 to_be_translated(): TODO: unimplemented instruction:
-                     (using manual swap-out of blocks to disk, ugly)
+                 000000000065102c: 00200800 (d)  rot_00  at,zr,0
-                 o)  A global command line option should be used to turn
+         o)  Some more work on opcodes.
-                     cache emulation on or off. When off, caches should be
+                 x) MIPS64 revision 2.
-                     faked like they are right now. When on, caches and
+                         o)  Find out which actual CPUs implement the rev2 ISA!
-                     memory latencies should be emulated as correctly as
+                         o)  DROTR32 and similar MIPS64 rev 2 instructions,
-                     possible.
+                             which have a rotation bit which differs from
+                             previous ISAs.
-         Network layer:
+                         o)  EI and DI instructions for MIPS64/32 rev 2.
-                 o)  Multiple networks per emulation, and let different
+                             NOTE: These are _NOT_ the same as for R5900!
-                     NICs in machines connect to different networks.
+                 x) _MAYBE_ TX79 and R5900 actually differ in their
-                 o)  many other issues: see src/net.c
+                    opcodes? Check this carefully!
+         o)  Dyntrans: Count register updates are probably not 100% correct yet.
-         MIPS CPU emulation:
+         o)  Refactor code for performance and readability/maintainability.
-                 o)  i386 bintrans backend: movn etc, slt[u] for
+         o)  (Re)implement 128-bit loads/stores for R5900.
--bit mode, 64-bit shifts etc
+         o)  R4000 and others:
-                 o)  Instructions:
+                 x)  watchhi/watchlo exceptions, and other exception
-                         o)  All ISAs:
+                     handling details
-                                 o)  Floating point exception handling, and
+         o)  R10000 and others:  (R12000, R14000 ?)
-                                         add more instructions.
+                 x)  memory space, exceptions, ...
-                                 o)  Finish the MIPS16 translator, and test it!
+                 x)  use cop0 framemask for tlb lookups
-                                 o)  MIPS ISA I, II, III, IV
+                     (http://techpubs.sgi.com/library/tpl/cgi-bin/getdoc.cgi/hdwr/bks/SGI_Developer/books/R10K_UM/sgi_html/t5.Ver.2.0.book_284.html)
-                                 o)  MIPS V (SIMD vector stuff?)
-                                 o)  MDMX  (MIPS Digital Media Extension)
+ SuperH:
-                                 o)  MIPS 3D
+         x)  DMA (0xffa00000)
-                                 o)  MIPS MT (Multi-thread stuff) (What's this?)
+         x)  Instruction tracing should include symbols for branch targets,
-                         o)  Warn about mis-used bit fields (ie bits that
+             and so on...
-                             should be all zeroes, warn about if they are not)!
+         x)  SH4 interrupt controller:
-                             Both for coprocessor registers and for instruction
+                 x)  Implement correct priorities of interrupts
-                             opcodes.
+         x)  SH4 BSC (Bus State Controller)
-                         o)  the special2 stuff is a mess right now
+         x)  NetBSD/evbsh3, dreamcast, mmeye, hpcsh! Linux?
-                         o)  warn and/or cause exceptions for unimplemented
+         x)  Replace pc-relative loads with immediate load, if within the
-                             instructions (depending on CPU type)
+             same page. (Similar to the same optimization for ARM.)
-                 o)  R2000/R3000:
+         x)  Floating point exception correctness.
-                         x)  R3000 "tri-byte stores". (What's this?)
+         x)  Floating point speed!
-                 o)  R4000 and others:
+         x)  Think carefully about how to implement SH5/SH64 (for evbsh5).
-                         x)  watchhi/watchlo exceptions, and other exception
-                             handling details
+ Dreamcast:
-                 o)  R10000 and others:  (R12000, R14000 ?)
+         x)  CD image bootup:
-                         x)  memory space, exceptions, ...
+)  Find IP.BIN, and load it to 0x8c008000.
-                         x)  use cop0 framemask for tlb lookups
+)  Run code at 0x8c008300 (SEGA license code).
-                             (http://techpubs.sgi.com/library/tpl/cgi-bin/getdoc.cgi/hdwr/bks/SGI_Developer/books/R10K_UM/sgi_html/t5.Ver.2.0.book_284.html)
+)  When the license code runs a "boot menu" syscall,
-                 o)  Implement load delays?  Warnings on interlocks.
+                     load the 1ST_READ.BIN file (unscrambled?) to 0x8c010000.
-                 o)  Implement all coprocessor 0 bits / functions.
+)  Run code at 0x8c00b800 (Bootstrap 1). This will in turn
-                         x)  coproc 0 selectors! (R4000 ?)
+                     jump to 0x8c00e000 (Bootstrap 2), and then jump to
-                 o)  R4300 (nintendo64, no mmu?), R5900 (playstation2, weird
+x8c010000, to start the program.
-                         TLB/cache? 128-bit GPRs, new instructions),
+                 (Try with e.g. Comstedt's Serial IP Slave, to make sure it
-K (note: NOT R4000), 5K (note: NOT R5000),
+                 works as expected.)
-                         R6000 (ISA II), R8000
+         x)  LAN adapter.
-                 o)  Multi-cpu stuff:
+         x)  PVR:  Lots of stuff. See dev_pvr.c.
-                         +)  Interrupt routing (ie devices vs mainbus, or
+         x)  Maple bus:
-                             connect each device to a fixed cpu)
+                 x)  Correct controller input
-                         +)  SGI's NUMA architecture. Study
+                 x)  Mouse input
-                                 x)  Linux sources
+         x)  PROM/BIOS calls:
-                                 x)  SGI's specs on NUMA address space
+                 x)  GD-ROM emulation
-                         +)  Ultrix?  NetBSD doesn't do SMP on MIPS yet :-(
+         x)  NetBSD/dreamcast: Root on nfs?
-                         +)  Own experiments with ycx2.
+         x)  Linux/dreamcast? (The gentoo kernel currently crashes.)
+         x)  More homebrew demos/games.
-         File/disk handling:
+         x)  Sound emulation (ARM cpu).
-                 o)  Better handling of tape files
+         x)  VME processor emulation?
-         Debugger:
+ Transputer:
-                 o)  Read function argument count and types from binaries? (ELF?)
+         x)  Implement support for Helios binaries.
-                 o)  Demangle C++ names.
+         x)  Stack and register contents at startup?
+         x)  Figure out how to boot an entire Helios distribution.
-         Userland ABI emulation:
+         x)  Implement all instructions. :)
-                 o)  see src/useremul.c
+ RCA1802/RCA1805, CHIP8:
-         Terminal based interactive debugger:
+         x)  CHIP8 -> RCA180x conversion
-                 o)  see src/debugger.c
+                 x)  Think about how to do dual-mode, variable-instr-length
+                     ISAs, and switch between modes.
-         Terminal/console stuff:
+                 x)  1805 "extended" opcode -> trigger CHIP8 emulation?
-                 o)  allow emulated serial ports to be connected to the outside
+                         That is, all calls 0NNN could point to 0x68 opcodes,
-                     world in a more generic way, or even to other emulated
+                         which, if running on a 1802 in CHIP8-emulation-mode,
-                     machines(!)
+                         would be manually interpreted.
+                 x)  Better solution:
-         Regression tests.  (Needs to be totally rewritten, the old framework
+                         CHIP8 calls to 00xx => handle at high level,
-                 was removed because it was useless.)
+                               calls to 0xxx in general = call 180X machine code
+                                 (0000 = reboot?)
-         Save state of the whole emulated machine, to be able to load it back
+         x)  1802 info: http://www.nyx.net/~lturner/public_html/Cosmac.html
-                 in later?  (Memory, all device's states, all registers and
+             and:  http://www.elf-emulation.com/1802.html
-                 so on.  Like taking a snapshot. (SimOS seems to do this,
+         x)  1805 extended opcodes: Implement at least disassembly support!
-                 according to its website.))
+         x)  Keyboard input.
+         x)  Sound (beep only).
-         Better X-windows functionality:
+         x)  Slow-down to correct speed? Wikipedia: "it was usually operated
-                 o)  CLEAN UP the ugly event code
+             at 3.58 MHz/2 to suit the requirements of the 1861 chip which
-                 o)  Mouse clicks can be "missed" in the current system; this is
+             gave a speed of a little over 100,000 instructions per second"
-                     not good. They should be put on a stack of some kind.
+             (Note that _CHIP8_ emulation would then be even slower.)
-                 o)  More 2D and 3D framebuffer acceleration.
+         x)  SCHIP48 (Super) emulation:
-                 o)  Non-resizable windows?  Or choose scaledown depending
+                 Some more opcodes, 128x64 framebuffer, larger
-                         on size (and center the image, with a black border).
+                 sprites and fonts.
-                 o)  Different scaledown on different windows?
-                 o)  Switch scaledown during runtime? (Ala CTRL-ALT-plus/minus)
+ Alpha:
-                 o)  Keyboard and mouse events:
+         x)  OSF1 PALcode, Virtual memory support.
-                         x)  Do this for more machines than just DECstation
+         x)  PALcode replacement! PAL1E etc opcodes...?
-                         x)  more X11 cursor keycodes
+         x)  Interrupt/exception/trap handling.
-                         x)  Keys like CTRL, ALT, SHIFT do not get through
+         x)  Floating point exception correctness.
-                             by themselves (these are necessary for example
+         x)  More work on bootup memory and register contents.
-                             to change the font of an xterm in X in the
+         x)  More Alpha machine types, so it could work with
-                             emulator)
+             OpenBSD, FreeBSD, and Linux too?
-                 o)  Generalize the framebuffer stuff by moving _ALL_ X11
-                         specific code to src/x11.c!
+ SPARC:
+         o)  Implement Adress space identifiers; load/stores etc.
-         Statistics:  (this could be interesting)
+         o)  Save/restore register windows etc!
-                 o)  Save to file and show graphics. It should be possible to
+         o)  Finish the subcc and addcc flag computation code.
-                     run gxemul after a simulation to just show the graphics,
+         o)  Add more registers (floating point, control regs etc)
-                     or convert to a .ppm or .tga or similar.
+         o)  Exception/trap handling.
-                 o)  memory accesses (to measure cache efficiency and
+         o)  Disassemly of some more instructions?
-                         page coloring efficiency)
+         o)  Are sll etc 32-bit sign-extending or zero-extending?
-                 o)  nr of simultaneous ASIDs in use in the TLB, for MIPS
+         o)  Finish the GDB register stuff.
-                 o)  percentage of time spent in different "states", such as
+         x)  Floating point exception correctness.
-                     running userland code, kernel code, or idling (for CPUs
+         o)  SPARC v8, v7 etc?
-                     that have such an instruction, or whenever the PC is
-                     inside a specific idle-function (address range)).
+ Debugger:
-                     Possible additional state (for example on R3000): caches
+         o)  How does SMP debugging work? Does it simply use "threads"?
-                     disabled.
+                 What if the guest OS (running on an emulated SMP machine)
-                 o)  position of read/write on (SCSI) disks
+                 has a usertask running, with userland threads?
+         o)  Try to make the debugger more modular and, if possible, reentrant!
+         o)  Remove the emul command? (But show network info if showing
+                 machines?)
+         o)  Settings:
+                 x)  Special handlers for Write!
+                         +)  MIPS coproc regs
+                         +)  Alpha/MIPS/SPARC zero registers
+                         +)  x86 64/32/16-bit registers
+                 x)  Value formatter for resulting output.
+         o)  see src/debugger.c for more
+ POWER/PowerPC:
+         x)  find and fix the bug which causes NetBSD/macppc to fail after
+             an install!
+         x)  NetBSD/prep 3.x triggers a possible bug in the emulator:
+             <wdc_exec_command(0xd005e514,0xd60cdd30,0,8,..)>
+               <ata_get_xfer(0,0xd60cdd30,0,8,..)>
+                 <0x26c550(&ata_xfer_pool,2,0,8,..)>
+                 <0x35c71c(0x3f27000,0,52,8,..)>
+               <ata_exec_xfer(0xd005e4c8,0x3f27000,0,13,..)>
+                 <atastart(0xd005e4c8,0x3f27000,0,13,..)>
+                   <__wdccommand_start(0xd005e4c8,0x3f27000,0,13,..)>
+                     <bsw1(&prep_isa_io_space_tag,0x800001f6,0,176,..)>
+                 [ wdc: write to SDH: 0xb0 (sectorsize 2, lba=1, drive 1, head 0) ]
+                     <wdcwait(0xd005e4c8,72,64,0xbb8,..)>
+                       <0x198120(0xd005e4c8,72,64,0xbb8,..)>
+                         <bsr1(&prep_isa_io_space_tag,0,0,0xbb8,..)>
+                         <delay(100,0,0,0xbb8,..)>
+             Note: <bsr1(&prep_isa_io_space_tag,0,0,0xbb8,..)>
+         x)  PPC optimizations; instr combs
+         x)  64-bit stuff: either Linux on G5, or perhaps some hobbyist
+                 version of AIX? (if there exists such a thing)
+         x)  macppc: adb controller; keyboard (for framebuffer mode)
+         x)  make OpenBSD/macppc work (PCI controller stuff)
+         x)  Floating point exception correctness.
+         x)  Alignment exceptions.
+ Algor:
+         o)  Other models than the P5064?
+         o)  PCI interrupts... needed for stuff like the tlp NIC?
+ HPCmips:
+         x)  Mouse/pad support! :)
+         x)  A NIC? (As a PCMCIA device?)
+ AVR:
+         o)  Everything.
+ AVR32:
+         o)  Everything. It would be good if there was NetBSD/avr32 to
+             experiment with...
+ ARM:
+         o)  See netwinder_reset() in NetBSD; the current "an internal error
+             occured" message after reboot/halt is too ugly.
+         o)  ARM "wait"-like instruction?
+         o)  try to get netbsd/evbarm 3.x running (iq80321)
+         o)  make the xscale counter registers (ccnt) work
+         o)  make the ata controller usable for FreeBSD!
+         o)  zaurus for openbsd...
+         o)  debian/cats crashes because of unimplemented coproc stuff.
+             fix this?
+ Test machines:
+         + dev_fb block fill and copy
+         + dev_fb draw characters (from the built-in font)?
+         + dev_fb input device? mouse pointer coordinates and buttons
+                 (allow changes in these to cause interrupts as well?)
+         + Redefine the halt() function so that it stops "sometimes
+           soon", i.e. usage in demo code should be:
+                 for (;;) {
+                         halt();
+                 }
+ Better CD Image file support:
+         x)  Support CD formats that contain more than 1 track, e.g.
+             CDI files (?). These can then contain a mixture of e.g. sound
+             and data tracks, and booting from an ISO filesystem path
+             would boot from [by default] the first data track.
+             (This would make sense for e.g. Dreamcast CD images, or
+             possibly other live-CD formats.)
+ Networking:
+         x)  Fix performance problems caused by only allowing a
+             single TCP packet to be unacked.
+         x)  Don't hardcode offsets into packets!
+         x)  Test with lower than 100 max tcp/udp connections,
+             to make sure that reuse works!
+         x)  Make OpenBSD work better as a guest OS!
+         x)  DHCP? Debian doesn't actually send DHCP packets, even
+                 though it claims to? So it is hard to test.
+         x)  Multiple networks per emulation, and let different
+             NICs in machines connect to different networks.
+         x)  Support VDE (vde.sf.net)? Easiest/cleanest (before a
+             redesign of the network framework has been done) is
+             probably to connect it using the current (udp) solution.
+         x)  Allow SLIP connections, possibly PPP, in addition to
+             ethernet?
+ Cache simulation:
+         o)  Command line flags for:
+                 o)  CPU endianness?
+                 o)  Cache sizes? (multiple levels)
+         o)  Separate from the CPU concept, so that multi-core CPUs sharing
+             e.g. a L2 cache can be simulated (?)
+         o)  Instruction cache emulation is easiest (if separate from the
+             data cache); similar hack as the S;I; hack in cpu_dyntrans.c.
+             NOTE: if the architecture has a delay slot, then an instruction
+             slot can actually be executed as 2 instructions.
+         o)  Data cache emulation = harder; each arch's load/store routines
+             must include support? running one instruction at a time and
+             having a cpu-dependant lookup function for each instruction
+             is another option (easier to implement, but very very slow).
+ Documentation:
+         x)  Note about sandboxing/security:
+                 Not all emulated instructions fail in the way they would
+                 do on real hardware (e.g. a userspace program writing to
+                 a system register might work in GXemul, but it would
+                 fail on real hardware).  Sandbox = contain from the
+                 host OS. But the emulated programs will run "less
+                 securely".
+         x)  Try NetBSD/arc 4.x! (It seems to work with disk images!)
+         x)  NetBSD/pmax 4 install instructions: xterm instead of vt100!
+         x)  DEVICE_TICK in technical.html
+         x)  Rewrite the section about experimental devices, after the
+             framebuffer acceleration has been implemented, and demos
+             written. (Symbolic names instead of numbers; example
+             use cases, etc. Mention demo files that use the various
+             features?)
+         x)  "a very simple linear framebuffer device (for graphics output)"
+             under "which machines does gxemul emulate" ==> better
+             description?
+         x)  Better description on how to set up a cross compiler?
+             Example for MIPS64.
+         o)  Automagic documentation generation?
+                 x)  machines, cpus, devices.
+                 x)  REMEMBER that several machines/devices can be in
+                         the same source file!
+         o)  Try to rewrite the install instructions for those machines
+             that use 3MAX into using CATS or hpcmips? (To remove the need
+             to use a raw ffs partition, using up all of the disk image.)
+ More generic out_of_memory error reporting, and check everywhere!
+         Causes: OpenBSD has low default limits for normal users.
+                 Host is 32-bit? (32-bit hosts are limited to 4 GB or less
+                 of userspace memory.)
+                 You are actually low on RAM. (As trivial as this might sound,
+                 Unix systems usually allow processes to allocate virtual
+                 memory beyond the amount of RAM in the machine.)
+ The Device subsystem:
+         x)  allow devices to be moved and/or changed in size (down to a
+             minimum size, etc, or up to a max size); if there is a collision,
+             return false. It is up to the caller to handle this situation!
+         x)  NOTE: Translations must be invalidated, both for
+             registering new devices, and for moving existing ones.
+             cpu->invalidate translation caches, for all CPUs that
+             are connected to a specific memory.
+         x)  keep track of interrupts and busses? actually, allowing any device
+             to be a bus might be a nice idea.
+         x)  turn interrupt controllers into devices? :-)
+         x)  refactor various clocks/nvram/cmos into one device?
+ PCI:
+         x)  last write was ffffffff ==> fix this, it should be used
+             together with a mask to get the correct bits. also, not ALL
+             bits are size bits! (lowest 4 vs lowest 2?)
+         x)  add support for address fixups
+         x)  generalize the interrupt routing stuff (lines etc)
+ Clocks and timers:
+         x)  DON'T HARDCODE 100 HZ IN cpu_mips_coproc.c!
+         x)  Test the 8253? Right now it doesn't seem to be used?
+         x)  NetWinder timeofday is incorrect!
+         x)  Cobalt TOD is incorrect!
+         x)  Go through all other machines, one by one, and fix them.
+ Busses:
+         o)  Redesign the entire "mainbus" concept!
+                 x)  Busses should be placed in a hierarchical tree (?)
+                 x)  Specific clock/bus speeds, cpu speeds etc.
+         o)  Interrupt routing subsystem:
+                 x)  IF POSSIBLE, try to make the new system work with the
+                     current system, but print annoying warning messages. :)
+                     Think carefully about this.
+                 x)  Registry for all available interrupts.
+                         +)  Each interrupt controller (including CPU cores
+                             that can handle interrupts) should register its
+                             interrupts, e.g.
+                                 cpu[0].irq[3]
+                                 cpu[0].irq[3].pcmcia_slot[1]
+                                 cpu[0].irq.pci[3]
+                         +)  Note: MIPS cpus have multiple irqs in the core,
+                             while some other CPUs only have one (irq[0]
+                             or just irq).
+                 x)  Users should use interrupt _names_ instead of integers
+                     when attaching to an interrupt controller, but when
+                     asserting/deasserting irq lines, small integers must
+                     still be used (for obvious performance reasons).
+                     Figure out a way to do this nicely!
+                 x)  Any users need to say whether they need the interrupt line
+                     exclusively or allow shared access.
+                 x)  Must work with everything from native IRQs to
+                     TurboChannel/PCI/ISA/ADB/PCMCIA/...
+                 x)  Must work with SMP emulation!
+                 x)  Make it with device_add(). How does the end user find
+                     out the name of an interrupt controller/line in e.g.
+                     a configuration file?
+         o)  Synchronization over network? or at least in dyntrans within
+             one emulated machine
+         o)  Convert to real busses: TurboChannel, PCMCIA, ADB
+ Config file parser:
+         o)  Rewrite it from scratch!
+         o)  Usage of any expression available through the debugger
+         o)  Support for running debugger commands (like the -c
+             command line option)
+ Floating point layer:
+         o)  make it common enough to be used by _all_ emulation modes
+         o)  implement correct error/exception handling and rounding modes
+         o)  implement more helper functions (i.e. add, sub, mul...)
+         o)  non-IEEE modes (i.e. x86)?
+ Userland emulation:
+         x)  Lots of stuff; freebsd and netbsd (and linux?) syscalls.
+         x)  Dynamic linking? Hm.
+ Sound:
+         x)  generic sound framework
+         x)  add one or more sound cards as devices; add a testmachine
+             sound card first?
+ ASC SCSI controller:
+         x)  NetBSD/arc 2.0 uses the ASC controller in a way which GXemul
+             cannot yet handle. (NetBSD 1.6.2 works ok.) (Possibly a problem
+             in NetBSD itself, http://mail-index.netbsd.org/source-changes/
+/11/06/0024.html suggests that.)
+             NetBSD 4.x seems to work? :)
+ Caches / memory hierarchies: (this is mostly MIPS-specific)
+         o)  src/memory*.c: Implement correct cache emulation for
+             all CPU types. (currently only R2000/R3000 is implemented)
+             (per CPU, multiple levels should be possible, associativity etc!)
+         o)  R2000/R3000 isn't _100%_ correct, just almost correct :)
+         o)  Move the -S (fill mem with random) functionality into the
+             memory.c subsystem, not machine.c or wherever it is now
+         o)  ECC stuff, simulation of memory errors?  (Machine dependent)
+         o)  More than 4GB of emulated RAM, when run on a 32-bit host?
+             (using manual swap-out of blocks to disk, ugly)
+         o)  A global command line option should be used to turn
+             cache emulation on or off. When off, caches should be
+             faked like they are right now. When on, caches and
+             memory latencies should be emulated as correctly as
+             possible.
+ File/disk/symbol handling:
+         o)  Remove some of the complexity in file format guessing, for
+                 Ultrix kernels that are actually disk images?
+         o)  Better handling of tape files
+         o)  Read function argument count and types from binaries? (ELF?)
+         o)  Better demangling of C++ names. Note: GNU's C++ differs from e.g.
+             Microsoft's C++, so multiple schemes must be possible. See
+             URL at top of src/symbol_demangle.c for more info.
+ Userland ABI emulation:
+         o)  see src/useremul.c
+ Terminal/console:
+         o)  allow emulated serial ports to be connected to the outside
+             world in a more generic way, or even to other emulated
+             machines(?)
+ Save state of the whole emulated machine, to be able to load it back
+         in later?  (Memory, all device's states, all registers and
+         so on.  Like taking a snapshot. (SimOS seems to do this,
+         according to its website.))
+ Better framebuffer and X-windows functionality:
+         o)  Generalize the update_x1y1x2y2 stuff to an extend-region()
+             function...
+         o)  -Yx sometimes causes crashes.
+         o)  Simple device access to framebuffer_blockcopyfill() etc,
+             and text output (using the built-in fonts), for dev_fb.
+         o)  CLEAN UP the ugly event code
+         o)  Mouse clicks can be "missed" in the current system; this is
+             not good. They should be put on a stack of some kind.
+         o)  More 2D and 3D framebuffer acceleration.
+         o)  Non-resizable windows?  Or choose scaledown depending
+                 on size (and center the image, with a black border).
+         o)  Different scaledown on different windows?
+         o)  Non-integral scale-up? (E.g. 640x480 -> 1024x768)
+         o)  Switch scaledown during runtime? (Ala CTRL-ALT-plus/minus)
+         o)  Bug reported by Elijah Rutschman on MacOS with weird
+             keys (F5 = cursor down?).
+         o)  Keyboard and mouse events:
+                 x)  Do this for more machines than just DECstation
+                 x)  more X11 cursor keycodes
+                 x)  Keys like CTRL, ALT, SHIFT do not get through
+                     by themselves (these are necessary for example
+                     to change the font of an xterm in X in the
+                     emulator)
+         o)  Generalize the framebuffer stuff by moving _ALL_ X11
+                 specific code to src/x11.c!

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