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NuttX TODO List (Last updated August 18, 2014)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
This file summarizes known NuttX bugs, limitations, inconsistencies with
standards, things that could be improved, and ideas for enhancements. See
also individual README.txt files in the configs/ sub-directories for each
board port.
nuttx/
(9) Task/Scheduler (sched/)
(2) Memory Managment (mm/)
(3) Signals (sched/, arch/)
(2) pthreads (sched/)
(11) Kernel Build
(4) C++ Support
(6) Binary loaders (binfmt/)
(13) Network (net/, drivers/net)
(4) USB (drivers/usbdev, drivers/usbhost)
(10) Libraries (libc/, )
(13) File system/Generic drivers (fs/, drivers/)
(6) Graphics subystem (graphics/)
(1) Pascal add-on (pcode/)
(1) Documentation (Documentation/)
(5) Build system / Toolchains
(5) Linux/Cywgin simulation (arch/sim)
(4) ARM (arch/arm/)
(1) ARM/C5471 (arch/arm/src/c5471/)
(3) ARM/DM320 (arch/arm/src/dm320/)
(2) ARM/i.MX (arch/arm/src/imx/)
(3) ARM/LPC17xx (arch/arm/src/lpc17xx/)
(7) ARM/LPC214x (arch/arm/src/lpc214x/)
(2) ARM/LPC313x (arch/arm/src/lpc313x/)
(0) ARM/LPC43x (arch/arm/src/lpc43xx/)
(3) ARM/STR71x (arch/arm/src/str71x/)
(3) ARM/LM3S6918 (arch/arm/src/lm/)
(x) ARM/SAMA5D3 ((arch/arm/src/sama5/)
(5) ARM/STM32 (arch/arm/src/stm32/)
(3) AVR (arch/avr)
(0) Intel x86 (arch/x86)
(5) 8051 / MCS51 (arch/8051/)
(3) MIPS/PIC32 (arch/mips)
(1) Hitachi/Renesas SH-1 (arch/sh/src/sh1)
(4) Renesas M16C/26 (arch/sh/src/m16c)
(11) z80/z8/ez80/z180 (arch/z80/)
(9) z16 (arch/z16/)
(1) mc68hc1x (arch/hc)
apps/
(4) Network Utilities (apps/netutils/)
(3) NuttShell (NSH) (apps/nshlib)
(1) System libraries apps/system (apps/system)
(5) Other Applications & Tests (apps/examples/)
o Task/Scheduler (sched/)
^^^^^^^^^^^^^^^^^^^^^^^
Title: CHILD PTHREAD TERMINATION
Description: When a tasks exits, shouldn't all of its child pthreads also be
terminated?
Status: Closed. No, this behavior will not be implemented.
Priority: Medium, required for good emulation of process/pthread model.
Title: pause() NON-COMPLIANCE
Description: In the POSIX description of this function is the pause() function
will suspend the calling thread until delivery of a signal whose
action is either to execute a signal-catching function or to
terminate the process. The current implementation only waits for
any non-blocked signal to be received. It should only wake up if
the signal is delivered to a handler.
Status: Open.
Priority: Medium Low.
Title: ON-DEMAND PAGING INCOMPLETE
Description: On-demand paging has recently been incorporated into the RTOS.
The design of this feature is described here:
http://www.nuttx.org/NuttXDemandPaging.html.
As of this writing, the basic feature implementation is
complete and much of the logic has been verified. The test
harness for the feature exists only for the NXP LPC3131 (see
configs/ea3131/pgnsh and locked directories). There are
some limitations of this testing so I still cannot say that
the feature is fully functional.
Status: Open. This has been put on the shelf for some time.
Priority: Medium-Low
Title: GET_ENVIRON_PTR()
Description: get_environ_ptr() (sched/sched_getenvironptr.c) is not implemented.
The representation of the environment strings selected for
NutX is not compatible with the operation. Some significant
re-design would be required to implement this function and that
effort is thought to be not worth the result.
Status: Open. No change is planned.
Priority: Low -- There is no plan to implement this.
Title: TIMER_GETOVERRUN()
Description: timer_getoverrun() (sched/timer_getoverrun.c) is not implemented.
Status: Open
Priority: Low -- There is no plan to implement this.
Title: INCOMPATIBILITES WITH execv() AND execl()
Description: Simplified 'execl()' and 'execv()' functions are provided by
NuttX. NuttX does not support processes and hence the concept
of overlaying a tasks process image with a new process image
does not make any sense. In NuttX, these functions are
wrapper functions that:
1. Call the non-standard binfmt function 'exec', and then
2. exit(0).
As a result, the current implementations of 'execl()' and
'execv()' suffer from some incompatibilities, the most
serious of these is that the exec'ed task will not have
the same task ID as the vfork'ed function. So the parent
function cannot know the ID of the exec'ed task.
Status: Open
Priority: Medium Low for now
Title: ISSUES WITH atexit() AND on_exit()
Description: These functions execute with the following bad properties:
1. They run with interrupts disabled,
2. They run in supervisor mode (if applicable), and
3. They do not obey any setup of PIC or address
environments. Do they need to?
The fix for all of these issues it to have the callbacks
run on the caller's thread (as with signal handlers).
Status: Open
Priority: Medium Low. This is an important change to some less
important interfaces. For the average user, these
functions are just fine the way they are.
Title: execv() AND vfork()
Description: There is a problem when vfork() calls execv() (or execl()) to
start a new appliction: When the parent thread calls vfork()
it receives and gets the pid of the vforked task, and *not*
the pid of the desired execv'ed application.
The same tasking arrangement is used by the standard function
posix_spawn(). However, posix_spawn uses the non-standard, internal
NuttX interface task_reparent() to replace the childs parent task
with the caller of posix_spawn(). That cannot be done with vfork()
because we don't know what vfork() is going to do.
Any solution to this is either very difficult or impossible without
an MMU.
Status: Open
Priority: Low (it might as well be low since it isn't going to be fixed).
Title: errno IS NOT SHARED AMONG THREADS
Description: In NuttX, the errno value is unique for each thread. But for
bug-for-bug compatibility, the same errno should be shared by
the task and each thread that it creates. It is *very* easy
to make this change: Just move the pterrno field from
struct tcb_s to struct task_group_s. However, I am still not
sure if this should be done or not.
Status: Closed. The existing solution is better (although its
incompatibilities could show up in porting some code).
Priority: Low
o Memory Managment (mm/)
^^^^^^^^^^^^^^^^^^^^^^
Title: FREE MEMORY ON TASK EXIT
Description: Add an option to free all memory allocated by a task when the
task exits. This is probably not be worth the overhead for a
deeply embedded system.
There would be complexities with this implementation as well
because often one task allocates memory and then passes the
memory to another: The task that "owns" the memory may not
be the same as the task that allocated the memory.
Update. From the NuttX forum:
...there is a good reason why task A should never delete task B.
That is because you will strand memory resources. Another feature
lacking in most flat address space RTOSs is automatic memory
clean-up when a task exits.
That behavior just comes for free in a process-based OS like Linux:
Each process has its own heap and when you tear down the process
environment, you naturally destroy the heap too.
But RTOSs have only a single, shared heap. I have spent some time
thinking about how you could clean up memory required by a task
when a task exits. It is not so simple. It is not as simple as
just keeping memory allocated by a thread in a list then freeing
the list of allocations when the task exists.
It is not that simple because you don't know how the memory is
being used. For example, if task A allocates memory that is used
by task B, then when task A exits, you would not want to free that
memory needed by task B. In a process-based system, you would
have to explicitly map shared memory (with reference counting) in
order to share memory. So the life of shared memory in that
environment is easily managed.
I have thought that the way that this could be solved in NuttX
would be: (1) add links and reference counts to all memory allocated
by a thread. This would increase the memory allocation overhead!
(2) Keep the list head in the TCB, and (3) extend mmap() and munmap()
to include the shared memory operations (which would only manage
the reference counting and the life of the allocation).
Then what about pthreads? Memory should not be freed until the last
pthread in the group exists. That could be done with an additional
reference count on the whole allocated memory list (just as streams
and file descriptors are now shared and persist until the last
pthread exits).
I think that would work but to me is very unattractive and
inconsistent with the NuttX "small footprint" objective. ...
Other issues:
- Memory free time would go up because you would have to remove
the memory from that list in free().
- There are special cases inside the RTOS itself. For example,
if task A creates task B, then initial memory allocations for
task B are created by task A. Some special allocators would
be required to keep this memory on the correct list (or on
no list at all).
Status: Open. No changes are planned.
Priority: Medium/Low, a good feature to prevent memory leaks but would
have negative impact on memory usage and code size.
Title: KERNEL MODE PAGE ALLOCATOR
Description: The KERNEL mode build for platforms with an MMU really needs
a page-oriented allocator and support for sbrk() and brk()
Status: Open
Priority: Low
o Signals (sched/, arch/)
^^^^^^^^^^^^^^^^^^^^^^^
Title: STANDARD SIGNALS
Description: 'Standard' signals and signal actions are not supported.
(e.g., SIGINT, SIGSEGV, etc).
Update: SIG_CHLD is supported if so configured.
Status: Open. No changes are planned.
Priority: Low, required by standards but not so critical for an
embedded system.
Title: SIGEV_THREAD
Description: sig_notify() logic does not support SIGEV_THREAD; structure
struct sigevent does not provide required members sigev_notify_function
or sigev_notify_attributes.
Status: Low, there are alternative designs. However, these features
are required by the POSIX standard.
Priority: Low for now
Title: SIGNAL NUMBERING
Description: In signal.h, the range of valid signals is listed as 0-31. However,
in many interfaces, 0 is not a valid signal number. The valid
signal number should be 1-32. The signal set operations would need
to map bits appropriately.
Status: Open
Priority: Low. Even if there are only 31 usable signals, that is still a lot.
o pthreads (sched/)
^^^^^^^^^^^^^^^^^
Title: CANCELLATION POINTS
Description: pthread_cancel(): Should implement cancellation points and
pthread_testcancel()
Status: Open. No changes are planned.
Priority: Low, probably not that useful
Title: PTHREAD_PRIO_PROTECT
Description: Extended pthread_mutexattr_setprotocol() suport PTHREAD_PRIO_PROTECT:
"When a thread owns one or more mutexes initialized with the
PTHREAD_PRIO_PROTECT protocol, it shall execute at the higher of its
priority or the highest of the priority ceilings of all the mutexes
owned by this thread and initialized with this attribute, regardless of
whether other threads are blocked on any of these mutexes or not.
"While a thread is holding a mutex which has been initialized with
the PTHREAD_PRIO_INHERIT or PTHREAD_PRIO_PROTECT protocol attributes,
it shall not be subject to being moved to the tail of the scheduling queue
at its priority in the event that its original priority is changed,
such as by a call to sched_setparam(). Likewise, when a thread unlocks
a mutex that has been initialized with the PTHREAD_PRIO_INHERIT or
PTHREAD_PRIO_PROTECT protocol attributes, it shall not be subject to
being moved to the tail of the scheduling queue at its priority in the
event that its original priority is changed."
Status: Open. No changes planned.
Priority: Low -- about zero, probably not that useful. Priority inheritance is
already supported and is a much better solution. And it turns out
that priority protection is just about as complex as priority inheritance.
Exerpted from my post in a Linked-In discussion:
"I started to implement this HLS/"PCP" semaphore in an RTOS that I
work with (http://www.nuttx.org) and I discovered after doing the
analysis and basic code framework that a complete solution for the
case of a counting semaphore is still quite complex -- essentially
as complex as is priority inheritance.
"For example, suppose that a thread takes 3 different HLS semaphores
A, B, and C. Suppose that they are prioritized in that order with
A the lowest and C the highest. Suppose the thread takes 5 counts
from A, 3 counts from B, and 2 counts from C. What priority should
it run at? It would have to run at the priority of the highest
priority semaphore C. This means that the RTOS must maintain
internal information of the priority of every semaphore held by
the thread.
"Now suppose it releases one count on semaphore B. How does the
RTOS know that it still holds 2 counts on B? With some complex
internal data structure. The RTOS would have to maintain internal
information about how many counts from each semaphore are held
by each thread.
"How does the RTOS know that it should not decrement the priority
from the priority of C? Again, only with internal complexity. It
would have to know the priority of every semaphore held by
every thread.
"Providing the HLS capability on a simple phread mutex would not
be such quite such a complex job if you allow only one mutex per
thread. However, the more general case seems almost as complex
as priority inheritance. I decided that the implementation does
not have value to me. I only wanted it for its reduced
complexity; in all other ways I believe that it is the inferior
solution. So I discarded a few hours of programming. Not a
big loss from the experience I gained."
o Kernel Build
^^^^^^^^^^^^
Title: GRAPHICS PARTITIONING.
Description: In the kernel build mode (where NuttX is built as a monolithic
kernel and user code must trap into the protected kernel via
syscalls), the single user mode cannot be supported. In this
built configuration, only the multiple user mode can be supported
with the NX server residing inside of the kernel space.
Status: Closed. This is not a bug, this is just way the things are.
Priority: N/A.
Title: NSH PARTITIONING.
Description: There are issues with several NSH commands in the NuttX kernel
build mode (where NuttX is built as a monolithic kernel and
user code must trap into the protected kernel via syscalls).
The current NSH implementation has several commands that call
directly into kernel internel functions for whicht there is
no syscall available. The commands cause link failures in
the kernel build mode and must currently be disabled.
Here are known problems that must be fixed:
COMMAND KERNEL INTERFACE(s)
-------- ----------------------------------------------
losetup losetup(), loteardown()
mkfatfs mkfatfs
mkrd ramdisk_register()
dd bchlib_setup(), bchlib_read(), bchlib_write(),
bchlib_teardown()
ps sched_foreach()
ifup netdev_foreach()
ifdown netdev_foreach()
ifconfig netdev_foreach(), g_netstats
ping icmp_ping()
Status: Open
Priority: Medium/High -- the kernel build configuration is not fully fielded
yet.
Title: NSH free COMMAND LIMITATION
Description: The NSH 'free' command only shows memory usage in the user
heap only, not usage in the kernel heap. I am thinking that
kernel heap memory usage should be available in /proc/memory.
Status: Open
Priority: Medium/High
Title: TELNETD PARTITIONING.
Description: Telnetd is implemented as a driver that resides in the apps/
directory. In the kernel build, mode, the driver logic must
be moved into the kernel part of the build (nuttx/, although
the application level interfaces must stay in apps/).
Status: Open
Priority: Medium
Title: NxCONSOLE PARTITIONING.
Description: NxConsole is implemented (correctly) as a driver that resides
in the nuttx/ directory. However, the user interfaces must be
moved into a NuttX library or into apps/. Currently
applications calls to the NxConsole user interfaces are
undefined.
Status: Open
Priority: Medium
Title: LOAD-ABLE MODULE SUPPORT UNVERIFIED
Description: It has not been verified if NXFLAT and ELF modules work correctly
in the kernel build. They should load into user-space memory.
Status: Open
Priority: Medium. There is no configuration that uses NXFLAT or ELF with
a kernel build now.
Title: C++ CONSTRUCTORS HAVE TOO MANY PRIVILEGES
Description: When a C++ ELF module is loaded, its C++ constructors are called
via sched/task_starthook.c logic. This logic runs in kernel mode.
The is a security hole because the user code runs with kernel-
privileges when the constructor executes.
Destructors likely have the opposite problem. The probably try to
execute some kernel logic in user mode? Obviously this needs to
be investigated further.
Status: Open
Priority: Low (unless you need build a secure C++ system).
Title: TOO MANY SYSCALLS
Description: There are a few syscalls that operate very often in user space.
Since syscalls are (relatively) time consuming this could be
a performance issue. Here is some numbers that I collected
in an application that was doing mostly printf outout:
sem_post - 18% of syscalls
sem_wait - 18% of syscalls
getpid - 59% of syscalls
--------------------------
95% of syscalls
Obviously system performance could be improved greatly by simply
optimizing these functions so that they do not need to system calls
so frequently. getpid() is (I believe) part of the re-entrant
semaphore logic. Something like TLS might be used to retain the
thread's ID locally.
Linux, for example, has functions call up() and down(). up()
increments the semaphore count but does not call into the kernel
unless incrementing the count unblocks a task; similarly, down
decrements the count and does not call into the kernel unless
the count becomes negative the caller must be blocked.
Update:
"I am thinking that there should be a "magic" global, user-accessible
variable that holds the PID of the currently executing thread;
basically the PID of the task at the head of the ready-to-run list.
This variable would have to be reset each time the head of the ready-
to-run list changes.
"Then getpid() could be implemented in user space with no system call
by simply reading this variable.
"This one would be easy: Just a change to include/nuttx/userspace.h,
configs/*/kernel/up_userspace.c, libc/, sched/sched_addreadytorun.c, and
sched/sched_removereadytorun.c. That would eliminate 59% of the syscalls."
Status: Open
Priority: Low-Medium. Right now, I do not know if these syscalls are a
real performance issue or not. The above statistics were collected
from a an atypical application (the OS test), and does an excessive
amount of console output. There is probably no issue with more typical
embedded applications.
Title: ARMv6/7-M SYSCALL PERFORMANCE IMPROVEMENT
Description: Currently the code issues an SVCall to go from user- to kernel-mode
and another go return to user-mode. The second is unnecessary:
If there were a stub in user-space that just set the unprivileged
mode in the CONTROL register and returned, then the dispatch_syscall()
function could just jump to the stub instead of using second SVCall.
Hmmm... would this expose a security whole by executing in user-space
with privileges? That already happens when the userspace memory
allocators are called.
Status: Open
Priority: Low (unless performance becomes an issue).
Title: SECURITY ISSUES
Description: In the current designed, the kernel code calls into the user-space
allocators to allocate user-space memory. It is a security risk to
call into user-space in kernel-mode because that could be exploited
to gain control of the system. That could be fixed by dropping to
user mode before trapping into the memory allocators; the memory
allocators would then need to trap in order to return (this is
already done to return from signal handlers; that logic could be
renamed more generally and just used for a generic return trap).
Another place where the system calls into the user code in kernel
mode is work_usrstart() to start the user work queue. That is
another security hole that should be plugged.
Status: Open
Priority: Low (unless security becomes an issue).
Title: MICRO-KERNEL
Description: The initial kernel build cut many interfaces at a very high level.
The resulting monolithic kernel is then rather large. It would
not be a prohibitively large task to reorganize the interfaces so
that NuttX is built as a micro-kernel, i.e., with only the core
OS services within the kernel and with other OS facilities, such
as the file system, message queues, etc., residing in user-space
and to interfacing with those core OS facilities through traps.
Status: Open
Priority: Low. This is a good idea and certainly an architectural
improvement. However, there is no strong motivation now do
do that partitioning work.
o C++ Support
^^^^^^^^^^^
Title: USE OF SIZE_T IN NEW OPERATOR
Description: The argument of the 'new' operators should take a type of
size_t (see libxx/libxx_new.cxx and libxx/libxx_newa.cxx). But
size_t has an unknown underlying. In the nuttx sys/types.h
header file, size_t is typed as uint32_t (which is determined by
architecture-specific logic). But the C++ compiler may believe
that size_t is of a different type resulting in compilation errors
in the operator. Using the underlying integer type Instead of
size_t seems to resolve the compilation issues.
Status: Kind of open. There is a workaround. Setting CONFIG_CXX_NEWLONG=y
will define the operators with argument of type unsigned long;
Setting CONFIG_CXX_NEWLONG=n will define the operators with argument
of type unsigned int. But this is pretty ugly! A better solution
would be to get a hold of the compilers definition of size_t.
Priority: Low.
Title: STATIC CONSTRUCTORS
Description: Need to call static constructors
Update: Static constructors are implemented for the STM32 F4 and
this will provide the model for all solutions. Basically, if
CONFIG_HAVE_CXXINITIALIZE=y is defined in the configuration, then
board-specific code must provide the interface up_cxxinitialize().
up_cxxinitialize() is called from user_start() to initialize
all static class instances. This TODO item probably has to stay
open because this solution is only available on STM32 F4.
Status: Open
Priority: Low, depends on toolchain. Call to gcc's built-in static
constructor logic will probably have to be performed by
user logic in user_start().
Title: STATIC CONSTRUCTORS AND MULTITASKING
Description: The logic that calls static constructors operates on the main
thread of the initial user application task. Any static
constructors that cache task/thread specific information such
as C streams or file descriptors will not work in other tasks.
See also UCLIBC++ AND STATIC CONSTRUCTORS below.
Status: Open
Priority: Low and probably will not changed. In these case, there will
need to be an application specific solution.
Title: UCLIBC++ AND STATIC CONSTRUCTORS
uClibc++ was designed to work in a Unix environment with
processes and with separately linked executables. Each process
has its own, separate uClibc++ state. uClibc++ would be
instantiated like this in Linux:
1) When the program is built, a tiny start-up function is
included at the beginning of the program. Each program has
its own, separate list of C++ constructors.
2) When the program is loaded into memory, space is set aside
for uClibc's static objects and then this special start-up
routine is called. It initializes the C library, calls all
of the constructors, and calls atexit() so that the destructors
will be called when the process exits.
In this way, you get a per-process uClibc++ state since there
is per-process storage of uClibc++ global state and per-process
initialization of uClibc++ state.
Compare this to how NuttX (and most embedded RTOSs) would work:
1) The entire FLASH image is built as one big blob. All of the
constructors are lumped together and all called together at
one time.
This, of course, does not have to be so. We could segregate
constructors by some criteria and we could use a task start
up routine to call constructors separately. We could even
use ELF executables that are separately linked and already
have their constructors separately called when the ELF
executable starts.
But this would not do you very much good in the case of
uClibc++ because:
2) NuttX does not support processes, i.e., separate address
environments for each task. As a result, the scope of global
data is all tasks. Any change to the global state made by
one task can effect another task. There can only one
uClibc++ state and it will be shared by all tasks. uClibc++
apparently relies on global instances (at least for cin and
cout) there is no way to to have any unique state for any
"task group".
[NuttX does not support processes because in order to have
true processes, your hardware must support a memory management
unit (MMU) and I am not aware of any mainstream MCU that has
an MMU (or, at least an MMU that is capable enough to support
processes).]
NuttX does not have processes, but it does have "task groups".
See http://www.nuttx.org/doku.php?id=wiki:nxinternal:tasksnthreads.
A task group is the task plus all of the pthreads created by
the task via pthread_create(). Resources like FILE streams
are shared within a task group. Task groups are like a poor
man's process.
This means that if the uClibc++ static classes are initialized
by one member of a task group, then cin/cout should work
correctly with all threads that are members of task group. The
destructors would be called when the final member of the task
group exists (if registered via atexit()).
So if you use only pthreads, uClibc++ should work very much like
it does in Linux. If your NuttX usage model is like one process
with many threads then you have Linux compatibility.
If you wanted to have uClibc++ work across task groups, then
uClibc++ and NuttX would need some extensions. I am thinking
along the lines of the following:
1) There is a per-task group storage are withing the RTOS (see
include/nuttx/sched.h). If we add some new, nonstandard APIs
then uClibc++ could get access to per-task group storage (in
the spirit of pthread_getspecific() which gives you access to
per-thread storage).
2) Then move all of uClibc++'s global state into per-task group
storage and add a uClibc++ initialization function that would:
a) allocate per-task group storage, b) call all of the static
constructors, and c) register with atexit() to perform clean-
up when the task group exits.
That would be a fair amount of effort. I don't really know what
the scope of such an effort would be. I suspect that it is not
large but probably complex.
NOTES:
1) See STATIC CONSTRUCTORS AND MULTITASKING
2) To my knowledge, only some uClibc++ ofstream logic is
sensitive to this. All other statically initialized classes
seem to work OK across different task groups.
Status: Open
Priority: Low. I have no plan to change this logic now unless there is
some strong demand to do so.
o Binary loaders (binfmt/)
^^^^^^^^^^^^^^^^^^^^^^^^
Title: NXFLAT TESTS
Description: Not all of the NXFLAT test under apps/examples/nxflat are working.
Most simply do not compile yet. tests/mutex runs okay but
outputs garbage on completion.
Update: 13-27-1, tests/mutex crashed with a memory corruption
problem the last time that I ran it.
Status: Open
Priority: High
Title: ARM UP_GETPICBASE()
Description: The ARM up_getpicbase() does not seem to work. This means
the some features like wdog's might not work in NXFLAT modules.
Status: Open
Priority: Medium-High
Title: READ-ONLY DATA IN RAM
Description: At present, all .rodata must be put into RAM. There is a
tentative design change that might allow .rodata to be placed
in FLASH (see Documentation/NuttXNxFlat.html).
Status: Open
Priority: Medium
Title: GOT-RELATIVE FUNCTION POINTERS
Description: If the function pointer to a statically defined function is
taken, then GCC generates a relocation that cannot be handled
by NXFLAT. There is a solution described in Documentation/NuttXNxFlat.html,
by that would require a compiler change (which we want to avoid).
The simple workaround is to make such functions global in scope.
Status: Open
Priority: Low (probably will not fix)
Title: USE A HASH INSTEAD OF A STRING IN SYMBOL TABLES
Description: In the NXFLAT symbol tables... Using a 32-bit hash value instead
of a string to identify a symbol should result in a smaller footprint.
Status: Open
Priority: Low
Title: WINDOWS-BASED TOOLCHAIN BUILD
Description: Windows build issue. Some of the configurations that use NXFLAT have
the linker script specified like this:
NXFLATLDFLAGS2 = $(NXFLATLDFLAGS1) -T$(TOPDIR)/binfmt/libnxflat/gnu-nxflat-gotoff.ld -no-check-sections
That will not work for windows-based tools because they require Windows
style paths. The solution is to do something like this:
if ($(WINTOOL)y)
NXFLATLDSCRIPT=${cygpath -w $(TOPDIR)/binfmt/libnxflat/gnu-nxflat-gotoff.ld}
else
NXFLATLDSCRIPT=$(TOPDIR)/binfmt/libnxflat/gnu-nxflat-gotoff.ld
endif
Then use
NXFLATLDFLAGS2 = $(NXFLATLDFLAGS1) -T"$(NXFLATLDSCRIPT)" -no-check-sections
Status: Open
Priority: There are too many references like the above. They will have
to get fixed as needed for Windows native tool builds.
Title: TOOLCHAIN COMPATIBILITY PROBLEM
Descripton: The older 4.3.3 compiler generates GOTOFF relocations to the constant
strings, like:
.L3:
.word .LC0(GOTOFF)
.word .LC1(GOTOFF)
.word .LC2(GOTOFF)
.word .LC3(GOTOFF)
.word .LC4(GOTOFF)
Where .LC0, LC1, LC2, LC3, and .LC4 are the labels correponding to strings in
the .rodata.str1.1 section. One consequence of this is that .rodata must reside
in D-Space since it will addressed relative to the GOT (see the section entitled
"Read-Only Data in RAM" at
http://nuttx.org/Documentation/NuttXNxFlat.html#limitations).
The newer 4.6.3compiler generated PC relative relocations to the strings:
.L2:
.word .LC0-(.LPIC0+4)
.word .LC1-(.LPIC1+4)
.word .LC2-(.LPIC2+4)
.word .LC3-(.LPIC4+4)
.word .LC4-(.LPIC5+4)
This is good and bad. This is good because it means that .rodata.str1.1 can now
reside in FLASH with .text and can be accessed using PC-relative addressing.
That can be accomplished by simply moving the .rodata from the .data section to
the .text section in the linker script. (The NXFLAT linker script is located at
nuttx/binfmt/libnxflat/gnu-nxflat.ld).
This is bad because a lot of stuff may get broken an a lot of test will need to
be done. One question that I have is does this apply to all kinds of .rodata?
Or just to .rodata.str1.1?
Status: Open. Many of the required changes are in place but, unfortunately, not enough
go be fully functional. I think all of the I-Space-to-I-Space fixes are in place.
However, the generated code also includes PC-relative references to .bss which
just cannot be done.
Priority: Medium. The workaround for now is to use the older, 4.3.3 OABI compiler.
o Network (net/, drivers/net)
^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: MULTIPLE NETWORK INTERFACE SUPPORT
Description: uIP polling issues / Multiple network interface support:
(1) Current logic will not support multiple Ethernet drivers.
Each driver should poll on TCP connections connect on the
network supported by the driver; UDP polling should respond
with TX data only if the UDP packet is intended for the
the network supported by the driver.
(2) If there were multiple drivers, polling would occur at
double the rate. Fix by using bound IP address in TCP
connection (lipaddr) and verifying that it is in the subnet
served by the driver.
Another issue: When sending packets to another subnet, the
current logic falls back and uses ETH0 if it cannot find the
device for the subnet. That lookup would need to be smarter...
perhaps it needs a routing table.
Status: Open. Nothing will probably be done until I have a platform
with two network interfaces that I need to support.
Priority: Medium, The feature is not important, but it is important
for NuttX to resolve the architectural issues.
Title: SENDTO() AND MULTIPLE NETWORK INTERFACE SUPPORT
Description: sendto() and multiple network interface support:
When polled, would have to assure that the destination IP
is on the subnet served by the polling driver.
Status: Open. This is really part of the above issue.
Priority: Medium, The feature is not important, but it is important
for NuttX to resolve the architectural issues.
Title: IPv6
Description: IPv6 support is incomplete. Adam Dunkels has recently announced
IPv6 support for uIP (currently only as part of Contiki). Those
changes need to be ported to NuttX.
Status: Open. No work will probably be done until there is a specific
requirement for IPv6.
Priority: Medium
Title: LISTENING FOR UDP BROADCASTS
Description: Incoming UDP broadcast should only be accepted if listening on
INADDR_ANY(?)
Status: Open
Priority: Low
Title: STANDARDIZE ETHERNET DRIVER STATISTICS
Description: Need to standardize collection of statistics from network
drivers. apps/nshlib ifconfig command should present
statistics.
Status: Open
Priority: Low. This is not a bug but an enhancement idea.
Title: CONCURRENT TCP SEND OPERATIONS
Description: At present, there cannot be two concurrent active TCP send
operations in progress using the same socket. This is because
the uIP ACK logic will support only one transfer at a time. The
solution is simple: A mutex will be needed to make sure that each
send that is started is able to be the exclusive sender until all of
the data to be sent has been ACKed.
Status: Open. There is some temporary logic to apps/nshlib that does
this same fix and that temporary logic should be removed when
send() is fixed.
Priority: Medium-Low. This is an important issue for applications that
send on the same TCP socket from multiple threads.
Title: UDP READ-AHEAD?
Description: TCP supports read-ahead buffering to handle the receipt of
TCP/IP packets when there is no read() in place. Should such
capability be useful for UDP? PRO: Would reduce packet loss
and enable support for poll()/select(). CON: UDP is inherently
lossy so why waste memory footprint?
Status: Open
Priority: Medium
Title: NO POLL/SELECT ON UDP SOCKETS
Description: poll()/select() is not implemented for UDP sockets because they do
do not support read-ahead buffering. Therefore, there is never
a case where you can read from a UDP socket without blocking.
Status: Open, depends on UDP read-ahead support
Priority: Medium
Title: POLL/SELECT ON TCP SOCKETS NEEDS READ-AHEAD
Description: poll()/select() only works for availability of buffered TCP
read data (when read-ahead is enabled). The way writing is
handled in uIP, all sockets must wait when send and cannot
be notified when they can send without waiting.
Status: Open, probably will not be fixed.
Priority: Medium... this does effect porting of applications that expect
different behavior from poll()/select()
Title: SOCKETS DO NOT ALWAYS SUPPORT O_NONBLOCK
Description: sockets do not support all modes for O_NONBLOCK. Sockets
support only (1) TCP/IP non-blocking read operations when read-ahead
buffering is enabled, and (2) TCP/IP accept() operations when TCP/IP
connection backlog is enabled.
Status: Open
Priority: Low.
Title: UNFINISHED CRYSTALLAN CS89X0 DRIVER
Description: I started coding a CrystalLan CS89x0 driver (drivers/net/cs89x0.c),
but never finished it.
Status: Open
Priority: Low unless you need it.
Title: INTERFACES TO LEAVE/JOIN IGMP MULTICAST GROUP
Description: The interfaces used to leave/join IGMP multicast groups is non-standard.
RFC3678 (IGMPv3) suggests ioctl() commands to do this (SIOCSIPMSFILTER) but
also status that those APIs are historic. NuttX implements these ioctl
commands, but is non-standard because: (1) It does not support IGMPv3, and
(2) it looks up drivers by their device name (eg., "eth0") vs IP address.
Linux uses setsockopt() to control multicast group membership using the
IP_ADD_MEMBERSHIP and IP_DROP_MEMBERSHIP options. It also looks up drivers
using IP addresses (It would require additional logic in NuttX to look up
drivers by IP address). See http://tldp.org/HOWTO/Multicast-HOWTO-6.html
Status: Open
Priority: Medium. All standards compatibility is important to NuttX. However, most
the mechanism for leaving and joining groups is hidden behind a wrapper
function so that little of this incompatibilities need be exposed.
Title: CLOSED CONNECTIONS IN THE BACKLOG
If a connection is backlogged but accept() is not called quickly, then
that connection may time out. How should this be handled? Should the
connection be removed from the backlog if it is times out or is closed?
Or should it remain in the backlog with a status indication so that accept()
can fail when it encounteres the invalid connection?
Status: Open
Priority: Medium. Important on slow applications that will not accept
connections promptly.
o USB (drivers/usbdev, drivers/usbhost)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: USB STORAGE DRIVER DELAYS
Description: There is a workaround for a bug in drivers/usbdev/usbdev_storage.c.
that involves delays. This needs to be redesigned to eliminate these
delays. See logic conditioned on CONFIG_USBMSC_RACEWAR.
If queuing of stall requests is supported by DCD then this workaround
is not required. In this case, (1) the stall is not sent until all
write requests preceding the stall request are sent, (2) the stall is
sent, and then after the stall is cleared, (3) all write requests
queued after the stall are sent.
See, for example, the queuing of pending stall requests in the SAM3/4
UDP driver at arch/arm/src/sam34/sam_udp.c. There the logic is do this
is implemented with a normal request queue, a pending request queue, a
stall flag and a stall pending flag:
1) If the normal request queue is not empty when the STALL request is
received, the stall pending flag is set.
2) If addition write requests are received while the stall pending flag
is set (or while waiting for the stall to be sent), those write requests
go into the pending queue.
3) When the normal request queue empties successful and all of the write
transfers complete, the STALL is sent. The stall pending flag is
cleared and the stall flag is set. Now the endpoint is really stalled.
4) After the STALL is cleared (via the Clear Feature SETUP), the pending
request queue is copied to the normal request queue, the stall flag is
cleared, and normal write request processing resumes.
Status: Open
Priority: Medium
Title: RTL8187 DRIVER IS UNFINISHED
Description: misc/drivers/usbhost_rtl8187.c is a work in progress. There is no RTL8187
driver available yet. That is a work in progress it was abandoned because
it depends on having an 802.11g stack.
Status: Open
Priority: Low (Unless you need RTL8187 support).
Title: EP0 OUT CLASS DATA
Description: There is no mechanism in place to handle EP0 OUT data transfers.
There are two aspects to this problem, neither are easy to fix
(only because of the number of drivers that would be impacted):
1. The class drivers only send EP0 write requests and these are
only queued on EP0 IN by this drivers. There is never a read
request queued on EP0 OUT.
2. But EP0 OUT data could be buffered in a buffer in the driver
data structure. However, there is no method currently
defined in the USB device interface to obtain the EP0 data.
Updates: (1) The USB device-to-class interface as been extended so
that EP0 OUT data can accompany the SETUP request sent to the
class drivers. (2) The logic in the STM32 F4 OTG FS device driver
has been extended to provide this data. Updates are still needed
to other drivers.
Here is an overview of the required changes:
New two buffers in driver structure:
1. The existing EP0 setup request buffer (ctrlreq, 8 bytes)
2. A new EP0 data buffer to driver state structure (ep0data,
max packetsize)
Add a new state:
3. Waiting for EP0 setup OUT data (EP0STATE_SETUP_OUT)
General logic flow:
1. When an EP0 SETUP packet is received:
- Read the request into EP0 setup request buffer (ctrlreq,
8 bytes)
- If this is an OUT request with data length, set the EP0
state to EP0STATE_SETUP_OUT and wait to receive data on
EP0.
- Otherwise, the SETUP request may be processed now (or,
in the case of the F4 driver, at the conclusion of the
SETUP phase).
2. When EP0 the EP0 OUT DATA packet is received:
- Verify state is EP0STATE_SETUP_OUT
- Read the request into the EP0 data buffer (ep0data, max
packet size)
- Now process the previously buffered SETUP request along
with the OUT data.
3. When the setup packet is dispatched to the class driver,
the OUT data must be passed as the final parameter in the
call.
Update 2013-9-2: The new USB device-side driver for the SAMA5D3
correctly supports OUT SETUP data following the same design as
per above.
Update 2013-11-7: David Sidrane has fixed with issue with the
STM32 F1 USB device driver. Still a few more to go before this
can be closed out.
Status: Open
Priority: High for class drivers that need EP0 data. For example, the
CDC/ACM serial driver might need the line coding data (that
data is not used currently, but it might be).
Title: USB HUB SUPPORT
Description: Add support for USB hubs
Status: Open
Priority: Low/Unknown. This is a feature enhancement.
o Libraries (libc/)
^^^^^^^^^^^^^^^^^
Title: SIGNED time_t
Description: The NuttX time_t is type uint32_t. I think this is consistent
with all standards and with normal usage of time_t. However,
according to Wikipedia, time_t is usually implemented as a
signed 32-bit value.
Status: Open
Priority: Very low unless there is some compelling issue that I do not
know about.
Title: ENVIRON
Description: The definition of environ in stdlib.h is bogus and will not
work as it should. This is because the underlying
representation of the environment is not an arry of pointers.
Status: Open
Priority: Medium
Title: TERMIOS
Description: Need some minimal termios support... at a minimum, enough to
switch between raw and "normal" modes to support behavior like
that needed for readline().
UPDATE: There is growing functionality in libc/termios/ and in the
ioctl methods of several MCU serial drivers (stm32, lpc43, lpc17,
pic32). However, as phrased, this bug cannot yet be closed since
this "growing functionality" does not address all termios.h
functionality and not all serial drivers support termios.
Status: Open
Priority: Low
Title: DAYS OF THE WEEK
Description: strftime() and other timing functions do not handle days of the week.
Status: Open
Priority: Low
Title: RESETTING GETOPT()
Description: There is an issue with the way that getopt() handles errors that
return '?'.
1. Does getopt() reset its global variables after returning '?' so
that it can be re-used? That would be required to support where
the caller terminates parsing before reaching the last parameter.
2. Or is the client expected to continue parsing after getopt()
returns '?' and parse until the final parameter?
The current getopt() implementation only supports #2.
Status: Open
Priority: Low
Title: CONCURRENT STREAM READ/WRITE
Description: NuttX only supports a single file pointer so reads and writes
must be from the same position. This prohibits implementation
of behavior like that required for fopen() with the "a+" mode.
According to the fopen man page:
"a+ Open for reading and appending (writing at end of file).
The file is created if it does not exist. The initial file
position for reading is at the beginning of the file, but
output is always appended to the end of the file."
At present, the single NuttX file pointer is positioned to the
end of the file for both reading and writing.
Status: Open
Priority: Medium. This kind of operation is probably not very common in
deeply embedded systems but is required by standards.
Title: DIVIDE BY ZERO
Description: This is bug 3468949 on the SourceForge website (submitted by
Philipp Klaus Krause):
"lib_strtod.c does contain divisions by zero in lines 70 and 96.
AFAIK, unlike for Java, division by zero is not a reliable way to
get infinity in C. AFAIK compilers are allowed e.g. give a compile-
time error, and some, such as sdcc, do. AFAIK, C implementations
are not even required to support infinity. In C99 the macro isinf()
could replace the first use of division by zero. Unfortunately, the
macro INFINITY from math.h probably can't replce the second division
by zero, since it will result in a compile-time diagnostic, if the
implementation does not support infinity."
Status: Open
Priority:
Title: OLD dtoa NEEDS TO BE UPDATED
Description: This implementation of dtoa in libc/stdio is old and will not
work with some newer compilers. See
http://patrakov.blogspot.com/2009/03/dont-use-old-dtoac.html
Status: Open
Priority: ??
Title: FLOATING POINT FORMATS
Description: Only the %f floating point format is supported. Others are accepted
but treated like %f.
Status: Open
Priority: Medium (this might important to someone).
Title: FLOATING POINT PRECISION
Description: A fieldwidth and precision is required with the %f format. If %f
is used with no format, than floating numbers will be printed with
a precision of 0 (effectively presented as integers).
Status: Open
Priority: Medium (this might important to someone).
o File system / Generic drivers (fs/, drivers/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
NOTE: The NXFFS file system has its own TODO list at nuttx/fs/nxffs/README.txt
Title: CHMOD() AND TRUNCATE()
Description: Implement chmod(), truncate().
Status: Open
Priority: Low
Title: CAN POLL SUPPORT
Description: At present, the CAN driver does not support the poll() method.
See drivers/can.c
Status: Open
Priority: Low
Title: REMOVING PIPES AND FIFOS
Description: There is no way to remove a FIFO or PIPE created in the
pseudo filesystem. Once created, they persist indefinitely
and cannot be unlinked. This is actually a more generic
issue: unlink does not work for anything in the pseudo-
filesystem.
Status: Open, but partially resolved: pipe buffer is at least freed
when there are not open references to the pipe/FIFO.
Priority: Medium
Title: ROMFS CHECKSUMS
Description: The ROMFS file system does not verify checksums on either
volume header on on the individual files.
Status: Open
Priority: Low. I have mixed feelings about if NuttX should pay a
performance penalty for better data integrity.
Title: SPI-BASED SD MULTIPLE BLOCK TRANSFERS
Description: The simple SPI based MMCS/SD driver in fs/mmcsd does not
yet handle multiple block transfers.
Status: Open
Priority: Medium-Low
Title: READ-AHEAD/WRITE BUFFER UNTESTED
Description: Block driver read-ahead buffer and write buffer support is
implemented but not yet tested.
Status: Open
Priority: Low
Title: SDIO-BASED SD READ-AHEAD/WRITE BUFFERING INCOMPLETE
Description: The drivers/mmcsd/mmcsd_sdio.c driver has hooks in place to
support read-ahead buffering and write buffering, but the logic
is incomplete and untested.
Status: Open
Priority: Low
Title: POLLHUP SUPPORT
Description: All drivers that support the poll method should also report
POLLHUP event when the driver is closedd.
Status: Open
Priority: Medium-Low
Title: CONFIG_RAMLOG_CONSOLE DOES NOT WORK
Description: When I enable CONFIG_RAMLOG_CONSOLE, the system does not come up
properly (using configuration stm3240g-eval/nsh2). The problem
may be an assertion that is occurring before we have a console.
Status: Open
Priority: Medium
Title : USE VFS TO MANAGE NAMED MESSAGE QUEUES AND NAMED SEMAPHORES
Description: Currently redundant namespace management logic is use for named
message queues and semaphores. Named semaphore management should
be consolidated in the VFS. Perhaps in /ipc/mqueue and /ipc/sem.
Status: Open
Priority: Low. Nothing is broken. This is an enhancement that would
improve the OS design and possibly reduce some FLASH usage
Title: UNIFIED DESCRIPTOR REPRESENTATION
Descripton: There are two separate ranges of descriptors for file and
socket descriptors: if a descriptor is in one range then it is
recognized as a file descriptor; if it is in another range
then it is recognized as a socket descriptor. These separate
descriptor ranges can cause problems, for example, they makes
dup'ing descriptors with dup2() problematic. The two groups
of descriptors are really indices into two separate tables:
On an array of file structures and the other an array of
socket structures. There really should be one array that
is a union of file and socket descriptors. Then socket and
file decriptors could lie in the same range.
Status: Open
Priority: Low
Title: DUPLICATE FAT FILE NAMES
Description: "The NSH and POSIX API interpretations about sensitivity or
insensitivity to upper/lowercase file names seem to be not
consistent in our usage - which can result in creating two
directories with the same name..."
Example using NSH:
nsh> echo "Test1" >/tmp/AtEsT.tXt
nsh> echo "Test2" >/tmp/aTeSt.TxT
nsh> ls /tmp
/tmp:
AtEsT.tXt
aTeSt.TxT
nsh> cat /tmp/aTeSt.TxT
Test2
nsh> cat /tmp/AtEsT.tXt
Test1
Status: Open
Priority: Low
Title: FAT LONG FILENAME COMPATIBILTY
Description: Recently there have been reports that file with long file
names created by NuttX don't have long file names when viewed
on Windows. The long file name support has been around for a
long time and I don't ever having seen this before so I am
suspecting that some evil has crept in.
Status: Open
Priority: Medium
o Graphics subystem (graphics/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
See also the NxWidgets TODO list file for related issues.
Title: UNTESTED GRAPHICS APIS
Description: Testing of all APIs is not complete. See
http://nuttx.sourceforge.net/NXGraphicsSubsystem.html#testcoverage
Status: Open
Priority: Medium
Title: ITALIC FONTS / NEGATIVE FONT OFFSETS
Description: Font metric structure (in include/nuttx/nx/nxfont.h) should allow
negative X offsets. Negative x-offsets are necessary for certain
glyphs (and is very common in italic fonts).
For example Eth, icircumflex, idieresis, and oslash should have
offset=1 in the 40x49b font (these missing negative offsets are
NOTE'ed in the font header files).
Status: Open. The problem is that the x-offset is an unsigned bitfield
in the current structure.
Priority: Low.
Title: RAW WINDOW AUTORAISE
Description: Auto-raise only applies to NXTK windows. Shouldn't it also apply
to raw windows as well?
Status: Open
Priority: Low
Title: AUTO-RAISE DISABLED
Description: Auto-raise is currently disabled in NX multi-server mode. The
reason is complex:
- Most touchscreen controls send touch data a high rates
- In multi-server mode, touch events get queued in a message
queue.
- The logic that receives the messages performs the auto-raise.
But it can do stupid things after the first auto-raise as
it operates on the stale data in the message queue.
I am thinking that auto-raise ought to be removed from NuttX
and moved out into a graphics layer (like NxWM) that knows
more about the appropriate context to do the autoraise.
Status: Open
Priority: Medium low
Title: IMPROVED NXCONSOLE FONT CACHING
Description: Now each NxConsole instance has its own private font cache
whose size is determined by CONFIG_NXCONSOLE_MXCHARS. If there
are multiple NxConsole instances using the same font, each will
have a separate font cache. This is inefficient and wasteful
of memory: Each NxConsole instance should share a common font
cache.
Status: Open
Priority: Medium. Not important for day-to-day testing but would be
a critical improvement if NxConsole were to be used in a
product.
Title: NXCONSOLE VT100 SUPPORT
Description: If the NxConsole will be used with the Emacs-like command line
editor (CLE), then it will need to support VT100 cursor control
commands.
Status: Open
Priority: Low, the need has not yet arisen.
o Pascal Add-On (pcode/)
^^^^^^^^^^^^^^^^^^^^^^
Title: P-CODES IN MEMORY UNTESTED
Description: Need APIs to verify execution of P-Code from memory buffer.
Status: Open
Priority: Low
Title: SMALLER LOADER AND OBJECT FORMAT
Description: Loader and object format may be too large for some small
memory systems. Consider ways to reduce memory footprint.
Status: Open
Priority: Medium
o Documentation (Documentation/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: DOCUMENT APIS USABLE FROM INTERRUPT HANDLERS
Description: Need to document which APIs can be used in interrupt
handlers (like mq_send and sem_post) and which cannot.
Status: Open
Priority: Low
o Build system
^^^^^^^^^^^^
Title: NUTTX CONFIGURATION TOOL
Description: Need a NuttX configuration tool. The number of configuration
settings has become quite large and difficult to manage manually.
Update: This task is essentially completed. But probably not for
all platforms and all features. When do we know that the feature
is complete and that we can switch to exclusive use of the tool?
Status: Open
Priority: Medium-low
Title: NATIVE WINDOWS BUILD
Description: This effort is underway using MinGW-GCC and GNUWin32 tools
for (coreutils+make+grep+sed+uname). Current status:
1. configs/stm32f4discovery/winbuild - builds okay natively
2. configs/ez80f910200kitg - Can be reconfigured to build natively.
Requires some manual intervention to get a clean build.
See configs/ez80f910200kitg/README.txt.
Status: Open
Priority: Low
Title: WINDOWS DEPENDENCY GENERATION
Description: Dependency generation is currently disabled when a Windows native
toolchain is used in a POSIX-like environment (like Cygwin). The
issue is that the Windows tool generates dependencies use Windows
path formatting and this fails with the dependency file (Make.dep)
is include). Perhaps the only issue is that all of the Windows
dependencies needed to be quoted in the Make.dep files.
Status: Open
Priority: Low -- unless some dependency-related build issues is discovered.
Title: SETENV.H
Description: Logic in most setenv.sh files can create the following problem
on many platforms:
$ . ./setenv.sh
basename: invalid option -- 'b'
Try `basename --help' for more information.
The problem is that $0 is the current running shell which may include
a dash in front:
$ echo $0
-bash
But often is just /bin/bash (and the problem does not occur. The fix
is:
-if [ "$(basename $0)" = "setenv.sh" ]; then
+if [ "$_" = "$0" ] ; then
Status: Open
Priority: Low. Use of setenv.sh is optional and most platforms do not have
this problem. Scripts will be fixed one-at-a-time as is appropriate.
Title: MAKE EXPORT LIMITATIONS
Description: The top-level Makefile 'export' target that will bundle up all of the
NuttX libraries, header files, and the startup object into an export-able
tarball. This target uses the tools/mkexport.sh script. Issues:
1. This script assumes the host archiver ar may not be appropriate for
non-GCC toolchains
2. For the kernel build, the user libraries should be built into some
libuser.a. The list of user libraries would have to accepted with
some new argument, perhaps -u.
Status: Open
Priority: Low.
o Linux/Cywgin simulation (arch/sim)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: SIMULATED SERIAL DRIVER
Description: The simulated serial driver has some odd behavior. It
will stall for a long time on reads when the C stdio buffers are
being refilled. This only effects the behavior of things like
fgetc(). Workaround: Set CONFIG_STDIO_BUFFER_SIZE=0, suppressing
all C buffered I/O.
Status: Open
Priority: Low (because the simulator is only a test/development platform)
Title: SIMULATOR NETWORKING SUPPORT
Description: I never did get networking to work on the sim Linux target. On Linux,
it tries to use the tap device (/dev/net/tun) to emulate an Ethernet
NIC, but I never got it correctly integrated with the NuttX networking.
NOTE: On Cygwin, the build uses the Cygwin WPCAP library and is, at
least, partially functional (it has never been rigorously tested).
Status: Open
Priority: Low (unless you want to test networking features on the simulation).
Title: ROUND-ROBIN SCHEDULING IN THE SIMULATOR
Description: Since the simulation is not pre-emptible, you can't use round-robin
scheduling (no time slicing). Currently, the timer interrupts are
"faked" during IDLE loop processing and, as a result, there is no
task pre-emption because there are no asynchronous events. This could
probably be fixed if the "timer interrupt" were driver by Linux
signals. NOTE: You would also have to implement irqsave() and
irqrestore() to block and (conditionally) unblock the signal.
Status: Open
Priority: Low
Title: NSH ISSUES ON THE SIMULATOR
Descripion: The NSH example has some odd behaviors. Mult-tasking -- for example,
execution of commands in background -- does not work normally. This
is due to the fact that NSH uses the system standard input for the
console. This means that the simulation is actually "frozen" all of
the time when NSH is waiting for input and background commands never
get the chance to run.
Status: Open
Priority: This will not be fixed. This is the normal behavior in the current
design of the simulator. "Real" platforms will behave correctly
because NSH will "sleep" when it waits for console inpu and other
tasks can run freely.
Title: DOUBLE COMMAND ECHO
Description: In the NSH example, the host HOST echoes each command so after you
you enter a command, the command is repeated on the next line. This
is an artifact of the simulator only.
Status: Open
Priority: This will not be fixed. This is the normal behavior in the current
design of the simulator. "Real" platforms will behave correctly.
o ARM (arch/arm/)
^^^^^^^^^^^^^^^
Title: IMPROVED ARM INTERRUPT HANDLING
Description: ARM interrupt handling performance could be improved in some
ways. One easy way is to use a pointer to the context save
area in current_regs instead of using up_copystate so much.
This approach is already implemented for the ARM Cortex-M0,
Cortex-M3, Cortex-M4, and Cortex-A5 families. But still needs
to be back-ported to the ARM7 and ARM9 (which are nearly
identical to the Cortex-A5 in this regard). The change is
*very* simple for this architecture, but not implemented.
Status: Open. But complete on all ARM platforms except ARM7 and ARM9.
Priority: Low.
Title: IMPROVED ARM INTERRUPT HANDLING
Description: The ARM and Cortex-M3 interrupt handlers restores all registers
upon return. This could be improved as well: If there is no
context switch, then the static registers need not be restored
because they will not be modified by the called C code.
(see arch/sh/src/sh1/sh1_vector.S for example)
Status: Open
Priority: Low
Title: CORTEX-M3 STACK OVERFLOW
Description: There is bit bit logic inf up_fullcontextrestore() that executes on
return from interrupts (and other context switches) that looks like:
ldr r1, [r0, #(4*REG_CPSR)] /* Fetch the stored CPSR value */
msr cpsr, r1 /* Set the CPSR */
/* Now recover r0 and r1 */
ldr r0, [sp]
ldr r1, [sp, #4]
add sp, sp, #(2*4)
/* Then return to the address at the stop of the stack,
* destroying the stack frame
*/
ldr pc, [sp], #4
Under conditions of excessively high interrupt conditions, many
nested interrupts can occur just after the 'msr cpsr' instruction.
At that time, there are 4 bytes on the stack and, with each
interrupt, the stack pointer may increment and possibly overflow.
This can happen only under conditions of continuous interrupts.
See this email thread: http://tech.groups.yahoo.com/group/nuttx/message/1261
On suggested change is:
ldr r1, [r0, #(4*REG_CPSR)] /* Fetch the stored CPSR value */
msr spsr_cxsf, r1 /* Set the CPSR */
ldmia r0, {r0-r15}^
But this has not been proven to be a solution.
UPDATE: Other ARM architectures have a similer issue.
Status: Open
Priority: Low. The conditions of continuous interrupts is really the problem.
If your design needs continuous interrupts like this, please try
the above change and, please, submit a patch with the working fix.
Title: STACK ALIGNMENT IN INTERRUPT HANDLERS
Description: The EABI standard requires that the stack always have a 32-byte
alignment. There is no guarantee at present that the stack will be
so aligned in an interrupt handler. Therefore, I would expect some
issues if, for example, floating point or perhaps long long operations
were performed in an interrupt handler.
This issue exists for ARM7, ARM9, Cortex-M0, Cortex-M3, and
Cortex-M4 but has been addressed for the Cortex-A5. The fix
is really simple can cannot be incorporated without some
substantial testing. For ARM, the fix is the following logic
arround each call into C code from assembly:
mov r4, sp /* Save the SP in a preserved register */
bic sp, sp, #7 /* Force 8-byte alignment */
bl cfunction /* Call the C function */
mov sp, r4 /* Restore the possibly unaligned stack pointer */
This same issue applies to the interrupt stack which is, I think
improperly aligned in almost all cases (except Cortex-A5).
Status: Open
Priority: Low for me because I never do floating point operations in
interrupt handlers.
o ARM/C5471 (arch/arm/src/c5471/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: UART RECONFIGURATION
Description: UART re-configuration is untested and conditionally compiled out.
Status: Open
Priority: Medium. ttyS1 is not configured, but not used; ttyS0 is configured
by the bootloader
o ARM/DM320 (arch/arm/src/dm320/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: DEBUG ISSUES
Description: config/ntos-dm320: It seems that when a lot of debug statements
are added, the system no longer boots. This is suspected to be
a stack problem: Making the stack bigger or removing arrays on
the stack seems to fix the problem (might also be the
bootloader overwriting memory)
Status: Open
Priority: Medium
Title: USB DEVICE DRIVER UNTESTED
Description: A USB device controller driver was added but has never been tested.
Status: Open
Priority: Medium
Title: FRAMEBUFFER DRIVER UNTESTED
Description: A framebuffer "driver" was added, however, it remains untested.
Status: Open
Priority: Medium
Title: VIDEO ENCODER DRIVER
Description: In order to use the framebuffer "driver" additional video encoder
logic is required to setup composite video output or to interface
with an LCD.
Status: Open
Priority: Medium (high if you need to use the framebuffer driver)
o ARM/i.MX (arch/arm/src/imx/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: PORT IS INCOMPLETE
Description: The basic port of the i.MX1 architecture was never finished. The port
is incomplete (as of this writing, is still lacks a timer, interrupt
decoding, USB, network) and untested.
Status: Open
Priority: Medium (high if you need i.MX1/L support)
Title: SPI METHODS ARE NOT THREAD SAFE
Description: SPI methods are not thread safe. Needs a semaphore to protect from re-entrancy.
Status: Open
Priority: Medium -- Will be very high if you do SPI access from multiple threads.
o ARM/LPC17xx (arch/arm/src/lpc17xx/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: USB DMA INCOMPLETE
Description: USB DMA not fully implemented. Partial logic is in place but it is
fragmentary and bogus. (Leveraged from the lpc214x)
Status: Open
Priority: Low
Title: SSP DRIVER IMPROVEMENTS
Description: a) At present the SSP driver is polled. Should it be interrupt driven?
Look at arch/arm/src/imx/imx_spi.c -- that is a good example of an
interrupt driven SPI driver. Should be very easy to part that architecture
to the LPC.
b) See other SSP (SPI) driver issues listed under ARM/LPC214x. The LPC17xx
driver is a port of the LPC214x driver and probably has the same issues.
b) Other SSP driver improvements: Add support for multiple devices on the
SSP bus, use DMA data transfers
Status: Open
Priority: Medium
Title: NOKIA LCD DRIVER NONFUNCTIONAL
Description: An LCD driver for the Olimex LPC1766STK has been developed. However, that
driver is not yet functional on the board: The backlight comes on, but
nothing is visible on the display.
Status: Open
Priority: Medium-Low (unless you need the display on the LPC1766STK!)
o ARM/LPC214x (arch/arm/src/lpc214x/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: VECTOR INTERRUPTS
Description: Should use Vector Interrupts
Status: Open
Priority: Low
Title: USB DMA INCOMPLETE
Description: USB DMA not fully implemented. Partial logic is in place but it is
fragmentary and bogus.
Status: Open
Priority: Low
Title: USB SERIAL DRIVER REPORTS WRONG ERROR
Description: USB Serial Driver reports wrong error when opened before the
USB is connected (reports EBADF instead of ENOTCONN)
Status: Open
Priority: Low
Title: SPI DRIVER IMPROVEMENTS
Description: At present the SPI driver is polled. Should it be interrupt driven?
Look at arch/arm/src/imx/imx_spi.c -- that is a good example of an
interrupt driven SPI driver. Should be very easy to part that architecture
to the LPC.
Status: Open
Priority: Medium
Title: SPI METHODS ARE NOT THREAD SAFE
Description: SPI methods are not thread safe. Needs a semaphore to protect from re-entrancy.
Status: Open
Priority: Medium -- Will be very high if you do SPI access from multiple threads.
Title: SPI DRIVER DELAYS
Description: At present the SPI driver is polled -AND- there is a rather large, arbitrary,
delay in one of the block access routines. The purpose of the delay is to
avoid a race conditions. This begs for a re-design -OR- at a minimum, some
optimization of the delay time.
Status: Open
Priority: Medium
Title: 2GB SD CARD ISSUES
Desription: I am unable to initialize a 2Gb SanDisk microSD card (in adaptor) on the
the mcu123 board. The card fails to accept CMD0. Doesn't seem like a software
issue, but if anyone else sees the problem, I'd like to know.
Related: Fixes were recently made for the SDIO-based MMC/SD driver to
support 2Gb cards -- the block size was forced to 512 in all cases. The SPI-
based driver may also have this problem (but I don't think this would have
anything to do with CMD0).
Status: Open
Priority: Uncertain
Title: USB BROKEN?
Description: I tried to bring up the new configuration at configs/mcu123-214x/composite,
and Linux failed to enumerate the device. I don't know if this is
a problem with the lpc214x USB driver (bit rot), or due to recent
changed (e.g., -r4359 is suspicious), or an incompatibility between the
Composite driver and the LPC214x USB driver. It will take more work
to find out which -- like checking if the other USB configurations are
also broken.
Status: Open
Priority: It would be high if the LPC2148 were a current, main stream architecture.
I am not aware of anyone using LPC2148 now so I think the priority has
to be low.
o ARM/LPC31xx (arch/arm/src/lpc31xx/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: PLATFORM-SPECIFIC LOGIC
Description: arch/arm/src/lpc313x/lpc313x_spi.c contains logic that is specific to the
Embedded Artist's ea3131 board. We need to abstract the assignment of SPI
chip selects and logic SPI functions (like SPIDEV_FLASH). My thoughts are:
- Remove lpc313x_spiselect and lpc313x_spistatus from lpc313x_internal.h
- Remove configs/ea3131/src/up_spi.c
- Add configurations CONFIG_LPC3131x_CSOUT1DEV, CONFIG_LPC3131x_CSOUT2DEV,
and CONFIG_LPC3131x_CSOUT3DEV that maps the lpc313x SPI chip selects to
SPIDEV_* values.
- Change arch/arm/src/lpc313x/lpc313x_spi.c to use those configuration
settings.
Status: Open
Priority: High if you want to use SPI on any board other than the ea3131.
Title: SPI DRIVER
Description: arch/arm/src/lpc313x/lpc313x_spi.c may or may not be functional. It was
reported to be working, but I was unable to get it working with the
Atmel at45dbxx serial FLASH driver.
Status: Open
Priority: High if you need to use SPI.
o ARM/LPC43x (arch/arm/src/lpc43xx/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
o ARM/STR71x (arch/arm/src/str71x/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: UNVERIFIED MMC SUPPORT
Description: Verify SPI driver and integrate with MMC support. This effort is stalled
at the moment because the slot on the Olimex board only accepts MMC card;
I have no MMC cards, only SD cards which won't fit into the slot.
Status: Open
Priority: Medium
Title: NO USB DRIVER
Description: Develop a USB driver and integrate with existing USB serial and storage
class drivers.
Status: Open
Priority: Medium
Title: SPI METHODS ARE NOT THREAD SAFE
Description: SPI methods are not thread safe. Needs a semaphore to protect from re-entrancy.
Status: Open
Priority: Medium -- Will be very high if you do SPI access from multiple threads.
o ARM/LM3S6918 (arch/arm/src/lm/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: I2C DRIVER
Description: Still need to implement I2C
Status: Open
Priority: Low
Title: SSI OVERRUNS
Description: Should terminate SSI/SPI transfer if an Rx FIFO overrun occurs.
Right now, if an Rx FIFO overrun occurs, the SSI driver hangs.
Status: Open
Priority: Medium, If the transfer is properly tuned, then there should not
be any Rx FIFO overruns.
Title: THTTPD BUGS
Description: There are some lingering bugs in THTTPD, possibly race conditions. This
is covered above under Network Utilities, but is duplicated here
to point out that the LM3S suffers from this bug.
Status: Open.
UPDATE: I have found that increasing the size of the CGI program stack
from 1024 to 2048 (on the LM3S) eliminates the problem. So the most
likely cause is probably a stack overflow, not a hard sofware bug.
Priority: Probably Low
o ARM/SAMA5D3 ((arch/arm/src/sama5/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Issues related to the SAMA5D3 port are in configs/sama5d3x-ek/README.txt.
o ARM/STM32 (arch/arm/src/stm32/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: USBSERIAL ISSUES
Description A USB device-side driver is in place but not well tested. At
present, the apps/examples/usbserial test sometimes fails. The situation
that causes the failure is:
- Host-side of the test started after the target side sends the
first serial message.
The general failure is as follows:
- The target message pends in the endpoint packet memory
- When the host-side of the test is stated, it correctly
reads this pending data.
- an EP correct transfer interrupt occurs and the next
pending outgoing message is setup
- But, the host never receives the next message
If the host-side driver is started before the first target message
is sent, the driver works fine.
Status: Open
Priority: Medium-High
Title: DMA EXTENSIONS F1/3
Description: DMA logic needs to be extended. DMA2, Channel 5, will not work
because the DMA2 channels 4 & 5 share the same interrupt.
Status: Open
Priority: Low until someone needs DMA1, Channel 5 (ADC3, UART4_TX, TIM5_CH1, or
TIM8_CH2).
Title: F4 SDIO MULTI-BLOCK TRANSFER FAILURES
Description: If you use a large I/O buffer to access the file system, then the
MMCSD driver will perform multiple block SD transfers. With DMA
ON, this seems to result in CRC errors detected by the hardware
during the transfer. Workaround: CONFIG_MMCSD_MULTIBLOCK_DISABLE=y.
Status: Open
Priority: Medium
Title: DMA BOUNDARY CROSSING
Description: I see this statement in the reference manual: "The burst
configuration has to be selected in order to respect the AHB protocol,
where bursts must not cross the 1 KB address boundary because the
minimum address space that can be allocated to a single slave
is 1 KB. This means that the 1 KB address boundary should not be crossed
by a burst block transfer, otherwise an AHB error would be generated,
that is not reported by the DMA registers."
The implication is that there may be some unenforced alignment
requirements for some DMAs. There is nothing in the DMA driver to
prevent this now.
Status: Open
Priority: Low (I am not even sure if this is a problem yet).
Title: DMA FROM EXTERNAL, FSMC MEMORY
Description: I have seen a problem on F1 where all SDIO DMAs work exist for
write DMAs from FSMC memory (i.e., from FSMC memory to SDIO).
Read transfers work fine (SDIO to FSMC memory). The failure is
a data underrun error with zero bytes of data transferred. The
workaround for now is to use DMA buffers allocated from internal
SRAM.
Status: Open
Priority: Low
o AVR (arch/avr)
^^^^^^^^^^^^^^
Title: AMBER WEB SERVER UNTESTED
Description: There is a port for the Amber Web Server ATMega128, however this is
completely untested due to the lack to compatible, functional test
equipment.
Status: Open
Priority: The priority might as well be low since there is nothing I can do about
it anyway.
Title: STRINGS IN RAM
Description: Many printf-intensive examples (such as the OS test) cannot be executed
on most AVR platforms. The reason is because these tests/examples
generate a lot of string data. The build system currently places all
string data in RAM and the string data can easily overflow the tiny
SRAMs on these parts. A solution would be to put the string data
into the more abundant FLASH memory, but this would require modification
to the printf logic to access the strings from program memory.
Status: Open
Priority: Low. The AVR is probably not the architecuture that you want to use
for extensive string operations.
Title: SPI AND USB DRIVERS UNTESTED
Description: An SPI driver and a USB device driver exist for the AT90USB (as well
as a USB mass storage example). However, this configuration is not
fully debugged as of the NuttX-6.5 release.
Update 7/11: (1) The SPI/SD driver has been verified, however, (2) I
believe that the current teensy/usbmsc configuration uses too
much SRAM for the system to behave sanely. A lower memory footprint
version of the mass storage driver will be required before this can
be debugged
Status: Open
Priority: Medium-High.
Title: AVR32 PORT IS NOT FULLY TESTED
Description: A complete port for the AVR32 is provided and has been partially
debugged. There may still be some issues with the serial port
driver.
Status: Open
Priority: Medium
o Intel x86 (arch/x86)
^^^^^^^^^^^^^^^^^^^^
o 8051 / MCS51 (arch/8051/)
^^^^^^^^^^^^^^^^^^^^^^^^^
Title: STACK OVERFLOWS DURING INTERRUPT HANDLING
Description: Current status:
- Basic OS task management seems OK
- Fails when interrupts enabled. The stack pointer is around
0x6e before the failure occurs. It looks like some issue
when the stack pointer moves from the directly to indirectly
addressable region (0x80 boundary).
- Work on the 8052 is temporarily on hold
Status: Open
Priority: Low, 8051 is a tough platform because of the tiny stack.
Title: TIMER 0 AS SYSTEM TIMER
Description: Use timer 0 as system timer. Timer 2 is needed for second UART.
Logic is implemented, but there needs to be a system
configuration to change the ticks-per-second value to match the
timer interrupt rate
Status: Open
Priority: Low
Title: OVERFLOWS DURING BUILD
Description: During build, there are several integer overflows reported:
sched/gmtime_r.c aroud lines 184 and 185
sched/clock_initialize.c at line 107
sched/pthread_create.c at 330
apps/examples/ostest/barrier.c around lines 53 and 74
apps/examples/ostest/sighand.c at 225 and 244
driver/serial.c in usleep calls around 347 and 354
Status: Open. Update: These were reviewed during the hcs12 port. The
hcs12 also has 16-bit integer types (if -mshort is in the CFLAGS).
I believe that the warnings in most of the above have been fixed
but this has not been verified on this platform).
Priority: Medium
Title: DATA INITIALIZATION
Description Global data is not being initialized. Logic like that of SDCCs
crt0*.s needs to be incorporated into the system boot logic
Status: Open
Priority: Low -- only because there as so many other issues with 8051
Title: 8051 BUILD BROKEN
Description: The last time I tried to build the pjrc-8051 configuration using
the SDCC 3.2.1 toolchain (for Windows). I got compilation
errors in sched/os_bringup.c. It complained about type
mis-matches. What I gather from Googling, this is a problem
with the --stack-auto option. At any rate, this problem will
need to be fixed if you want to resurrect the 8051 NuttX port.
Status: Open
Priority: Low -- I don't think anyone uses the 8051 port.
o MIPS/PIC32(arch/mips)
^^^^^^^^^^^^^^^^^^^^^
Title: PIC32 USB DRIVER DOES NOT WORK WITH MASS STORAGE CLASS
UPDATE: ** ONLY USING RAM DISK FOR EXPORTED VOLUME ***
Description: The PIC32 USB driver either crashes or hangs when used with
the mass storage class when trying to write files to the target
storage device. This usually works with debug on, but does not
work with debug OFF (implying some race condition?)
Here are some details of what I see in debugging:
1. The USB MSC device completes processing of a read request
and returns the read request to the driver.
2. Before the MSC device can even begin the wait for the next
driver, many packets come in at interrupt level. The MSC
device goes to sleep (on pthread_cond_wait) with all of the
read buffers ready (16 in my test case).
3. The pthread_cond_wait() does not wake up. This implies
a problem with pthread_con_wait(?). But in other cases,
the MSC device does wake up, but then immediately crashes
because its stack is bad.
4. If I force the pthread_cond_wait to wake up (by using
pthread_cond_timedwait instead), then the thread wakes
up and crashes with a bad stack.
So far, I have no clue why this is failing.
UPDATE: This bug was recorded using the PIC32 Ethernet
Starter kit with a RAM disk (that board has no SD card slot).
However, using the USB mass storage device with the
Mikroelektronika using a real SD card, there is no such
problem -- the mass storage device seems quite stable.
UPDATE: Hmmm.. retesting with the Mikroelektronika board
shows problems again. I think that there are some subtle
timing bugs whose effects can very from innocuous to severe.
Status: Open
Priority: Originally, High BUT reduced to very Low based on the
UPDATED comments.
Title: PIC32 USB MASS STORAGE DEVICE FAILS TO RE-CONNECT
Description: Found using configuration configs/pic32mx7mmb/nsh.
In this configuratin, the NSH 'msconn' command will connect the
mass storage device to the host; the 'msdis' command will
disconnect the device. The first 'msconn' works perfectly.
However, when attempting to re-connect, the second 'msconn'
command does not command properly: Windows reports an
unrecognized device. Apparently, some state is being properly
reset when the mass storage device is disconnected. Shouldn't
be hard to fix.
Status: Open
Priority: Medium
Title: POSSIBLE INTERRUPT CONTROL ISSUE
Description: There is a kludge in the file arch/mips/src/common/up_idle.c.
Basically, if there is nothing else going on in the IDLE loop,
you have to disable then re-enable interrupts. Logically nothing
changes, but if you don't do this interrupts will be be disabled
in the IDLE loop which is a very bad thing to happen.
Some odd behavior in the interrupt setup on the IDLE loop is
not really a big concern, but what I do not understand is if
this behavior is occurring on all threads after all context
switches: Are interrupts always disabled until re-enabled?
This requires some further investigation at some point; it
may be nothing but may also be a symptom of some changes
required to the interrupt return logic (perhaps some CP0
status hazard?)
Status: Open
Priority: Low. Puzzling and needs some investigation, but there there
is no known misbehavior.
o Hitachi/Renesas SH-1 (arch/sh/src/sh1)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: SH-1 IS UNUSABLE
Description: There are instabilities that make the SH-1 port un-usable. The
nature of these is not understood; the behavior is that certain SH-1
instructions stop working as advertised. I have seen the following
examples:
412b jmp @r1 - Set a return address in PR, i.e., it behaved like
410b jsr @r1. Normally 412b works correctly, but in the failure
condition, it reliably set the PR.
69F6 mov.l @r15+,r9 - wrote the value of R1 to @r15+. This behavior
does not correspond to any known SH-1 instruction
This could be a silicon problem, some pipeline issue that is not
handled properly by the gcc 3.4.5 toolchain (which has very limit
SH-1 support to begin with), or perhaps with the CMON debugger. At
any rate, I have exhausted all of the energy that I am willing to put
into this cool old processor for the time being.
Update: This bug will probably never be addressed now. I just
cleaned house and my old SH-1 was one of the things that went.
Status: Open
Priority: Low -- because the SH-1, SH7032, is very old and only of historical
interest.
o Renesas M16C/26 (arch/sh/src/m16c)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: M16C DOES NOT BUILD
Description: The M16C target cannot be built. The GNU m16c-elf-ld link fails with
the following message:
m32c-elf-ld: BFD (GNU Binutils) 2.19 assertion fail /home/Owner/projects/nuttx/buildroot/toolchain_build_m32c/binutils-2.19/bfd/elf32-m32c.c:482
Where the reference line is:
/* If the symbol is out of range for a 16-bit address,
we must have allocated a plt entry. */
BFD_ASSERT (*plt_offset != (bfd_vma) -1);
No workaround is known at this time.
Status: Open
Priority: High -- this is a show stopper for M16C.
Title: M16C PORT UNTESTED
Description: Coding of the initial port is complete, but is untested.
Status: Open
Priority: Low
Title: NO SERIAL CONNECTOR
Description: Serial drivers were developed for the M16C, however, the SKP16C26
StarterKit has no serial connectors.
Status: Open
Priority: Low
Title: UNIMPLEMENTED M16C DRIVERS
Description: Should implement SPI, I2C, Virual EEPROM, FLASH, RTC drivers
Status: Open
Priority: Medium
o z80/z8/ez80/z180 (arch/z80)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: SDCC INTEGER OVERFLOWS
Description: The SDCC version the same problems with integer overflow during
compilation as described for pjrc-8051. At typical cause is code like
usleep(500*1000) which exceeds the range of a 16-bit integer.
Status: See pjrc-8051. These have probably been fixed but have not yet
been verified on these platforms.
Priority: See pjrc-8051
Title: Z80 SIMULATED CONSOLE
Description: The simulated Z80 serial console (configs/z80sim/src/z80_serial.c +
driver/serial.c) does not work. This is because there are
no interrupts in the simulation so there is never any serial
traffic.
Status: Open
Priority: Low -- the simulated console is not critical path and the designs
to solve the problem are complex.
Title: ZDS-II LIBRARIAN WARNINGS
Description: ZDS-II Librarian complains that the source for the .obj file
is not in the library.
Status: Open
Priority: Low, thought to be cosmetic. I think this is a consequence of
replacing vs. inserting the library.
Title: ZDS-II COMPILER PROBLEMS
Description: The ZDS-II compiler (version 4.10.1) fails with an internal error
while compiling mm/mm_initialize.c. This has been reported as
incident 81509.
I have found the following workaround that I use to build for the
time being:
--- mm/mm_initialize.c.SAVE 2008-02-13 08:06:46.833857700 -0600
+++ mm/mm_initialize.c 2008-02-13 08:07:26.367608900 -0600
@@ -94,8 +94,11 @@
{
int i;
+#if 0 /* DO NOT CHECK IN */
CHECK_ALLOCNODE_SIZE;
CHECK_FREENODE_SIZE;
+#endif
/* Set up global variables */
Status: Open
Priority: High
Title: EZ8 PRIORITY INTERRUPTS
Description: Add support for prioritized ez8 interrupts. Currently logic supports
only nominal interrupt priority.
Status: Open
Priority: Low
Title: Z8ENCORE ONLY VERIFIED ON SIMULATOR
Description: The z8Encore! port has only been verified on the ZDS-II instruction
set simulator.
Status: Open
Priority: Medium
Title: XTRS CLEAN
Description: The XTRS target (configs/xtrs) has a clean problem. The clean
rule removes .asm files. This works because there are no .asm
files except in sub-directories that are provided from 'make clean' --
except for XTRS: It has a .asm file in its src/ directory that
gets removed every time clean is performd.
Status: Open
Priority: High if you happen to be working with XTRS.
Title: SPI/I2C UNTESTED
Description: A "generic" SPI and I2C drivers have been coded for the eZ80Acclaim!
However, these remains untested since I have no SPI or I2C devices for
the board (yet).
Status: Open
Priority: Med
Title: SPI METHODS ARE NOT THREAD SAFE
Description: SPI methods are not thread safe. Needs a semaphore to protect from re-entrancy.
Status: Open
Priority: Medium -- Will be very high if you do SPI access from multiple threads.
Title: I2C UNTESTED
Description: A "generic" I2C driver has been coded for the eZ8Encore!
However, this remains untested since I have no I2C devices for
the board (yet).
Status: Open
Priority: Med
Title: UNFINISHED Z180 LOGIC NEEDED BY THE P112 BOARD
Description: 1) Need to revisit the start-up logic. Looking at the P112 Bios
(Bios.mcd), I see that quite of bit of register setup is done
there.
2) Finish ESCC driver logic.
Status: Open
Priority: Low (at least until I get P112 hardware)
o z16 (arch/z16)
^^^^^^^^^^^^^^^^
Title: ZDS-II LIBRARIAN WARNINGS
Description: ZDS-II Librarian complains that the source for the .obj file
is not in the library.
Status: Open
Priority: Low, thought to be cosmetic. I think this is a consequence of
replacing vs. inserting the library.
Title: SYSTEM DELAYS
Description: The system delays do not appear to be correct with the
apps/examples/ostest/timedmqueue.c test.
Status: Open
Priority: Medium-High
Title: PROBLEMS WHEN DEBUG DISABLED
Description: At present, the z16f port does not run properly when CONFIG_DEBUG
is disabled: The obvious symptom is that there is no printf()
output. I have isolated with problem to errors in optimization.
With -reduceopt on the command line, I can get the printf output.
However, there are still errors in the compiled code -- specifically
in sched/timer_create.c.
I have submitted a bug report to ZiLOG for this (support incident
81400). You can see the status of the bug report (and lots more
technical detail) here:
http://support.zilog.com/support/incident/incident_support.asp?iIncidentId=81400&iSiteId=1&chLanguageCode=ENG
Summary of ZiLOG analysis: "This is a ZNEO compiler problem. ... [a] workaround
is to replace:
if ( !timerid || (clockid != 0) )
By:
if ((clockid != 0) || !timerid)"
Status: Open
Priority: Medium-High
Title: PASCAL ADD-ON
Description: The pascal add-on does not work with the z16f (that is
configuration z16f2800100zcog/pashello). This appears to be
another ZDS-II error: when executing the instruction
SYSIO 0, WRITESTR a large case statement is executed. This
involves a call into the ZiLOG runtime library to __uwcase().
__uwcase is passed a pointer to a structure containing jump
information. The cause of the failure appears to be that
the referenced switch data is bad.
This is submitted as ZiLOG support incident 81459.
Summary of ZiLOG analysis: "This is a ZNEO run time library problem.
One workaround is to replace the line 58 in uwcase.asm
From:
ADD R9,#4 ; Skip handler
To:
ADD R9,#2 ; Skip handler
And add uwcase.asm to the project.
If the customer does not want to modify uwcase.asm then the other
workaround is to add a dummy case and make it same as default:
case 0x8000:
default:
This will make sure that uwcase is not called but ulcase is called."
Status: Open. Due to licensing issues, I cannot include the modified
uwcase in the NuttX code base.
Priority: Medium
Title: USE SPOV
Description: Add support to maintain SPOV in context switching. This
improvement will provide protection against stack overflow
and make a safer system solution.
Status: Open
Priority: Low
Title: PRIORITIZED INTERRUPTS
Description: Add support for prioritized interrupts. Currently logic supports
only nominal interrupt priority.
Status: Open
Priority: Low
Title: ZDS-II COMPILER PROBLEMS
Description: The file drivers/mmcsd/mmcsd_sdio.c generates an internal compiler
error like:
mmcsd\mmcsd_sdio.c
Internal Error(0503) On line 2504 of "MMCSD\MMCSD_SDIO.C"
File <c3>, Args(562,46)
Status: Open. Recommended workaround: remove mmcsd_sdio.c from
drivers/mmcsd/Make.defs. There is no SDIO support for the Z16 anyway
Priority: Low
Title: NATIVE BUILD PROBLEMS
Description: When last tested (ca.12/12), there were some missing .obj files in
arch/z16/src. A little additional TLC will be needed to get a
reliable Windows native build.
Status: Open
Priority: Low -- I don't think anyone uses the Z16 port with the native build.
Title: COMPILER BUG
Description: There is a bug in the ZDS II 5.0.1 compiler. It generates incorrect
code when calling through a function pointer if (1) the function
pointer is a field in a structure, and (2) the function pointer has
a variable number of arguments.
The exact name of the bug is this: Normally, when a function is
called, parameters are passed in registers. When calling a
function with a variable number of arguments, parameters must
instead be passed on the stack. In this failure case3, parameters
are erroneously passed in registers while the receive function
expects the parameters on the stack. This usually results in a
crash.
Unfortunately, NSH does have this exact kind of function call and
because of this compiler bug, NSH cannot be used with the ZNEO
Status: The bug has been reported to ZiLOG and they have reproduced the
problem. There is, however, no schedule for correction of the bug.
Priority: High if you are using ZNEO
o mc68hc1x (arch/hc)
^^^^^^^^^^^^^^^^^^
Title: BANKED MODE
Description: There is no script for building in banked mode (more correctly, there
is a script, but logic inside the script has not yet been implemented).
It would be necessary to implement banked mode to able to access more
the 48K of FLASH.
Status: Open.
Priority: Medium/Low
o Network Utilities (apps/netutils/)
Title: PPP PORT
Description: Port PPP support from http://contiki.cvs.sourceforge.net/contiki/contiki-2.x/backyard/core/net/ppp/
Status: Open
Priority: Low
Title: UNVERIFIED THTTPD FEATURES
Description: Not all THTTPD features/options have been verified. In particular, there is no
test case of a CGI program receiving POST input. Only the configuration of
apps/examples/thttpd has been tested.
Status: Open
Priority: Medium
Title: THE ARP ISSUES AGAIN
Description: The first GET received by THTTPD is not responded to. Refreshing the page
from the browser solves the problem and THTTPD works fine after thatg. I
believe that this is the duplicate of another bug: "Outgoing
[uIP] packets are dropped and overwritten by ARP packets if the
destination IP has not been mapped to a MAC."
Status: Probably closed. The basic ARP issue has been fixed (if
CONFIG_NET_ARP_SEND is enable), but this has not been verified
with THTTPD.
Priority: Medium
Title: THTTPD WARNINGS
Description: If the network is enabled, but THTTPD is not configured, it spews out lots
of pointless warnings. This is kind of annoying and unprofessional; needs to
be fixed someday.
Status: Open. An annoyance, but not a real problem.
Priority: Low
o NuttShell (NSH) (apps/nshlib)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: WGET UNTESTED
Description: The wget command has been incorporated into NSH, however
it is still untested as of this writing (only because I
have not had the correct network setup for the testing
yet). Since wget depends on the also untest uIP resolv/
logic, it is like non-functional.
Status: Open
Priority: Med-High
Title: IFCONFIG AND MULTIPLE NETWORK INTERFACES
Descripton: The ifconfig command will not behave correctly if an interface
is provided and there are multiple interfaces. It should only
show status for the single interface on the command line; it will
still show status for all interfaces.
Status: Open
Priority: Low (multiple network interfaces not fully supported yet anyway).
Title: ARP COMMAND
Description: Add an ARP command so that we can see and modify the contents of
the ARP table.
Status: Open
Priority: Low (enhancement)
o System libraries apps/system (apps/system)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: READLINE IMPLEMENTATION
Description: readline implementation does not use C-buffered I/O, but rather
talks to serial driver directly via read(). It includes VT-100
specific editting commands. A more generic readline() should be
implemented using termios' tcsetattr() to put the serial driver
into a "raw" mode.
Status: Open
Priority: Low (unless you are using mixed C-buffered I/O with readline and
fgetc, for example).
o Other Applications & Tests (apps/examples/)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Title: EXAMPLES/PIPE ON CYGWIN
Description: The redirection test (part of examples/pipe) terminates
incorrectly on the Cywgin-based simulation platform (but works
fine on the Linux-based simulation platform).
Status: Open
Priority: Low
Title: EXAMPLES/WGET UNTESTED
Description: examples/wget is untested on the target (it has been tested
on the host, but not in the target using the uIP resolv logic).
Status: Open
Priority: Med
Title: EXAMPLES/SENDMAIL UNTESTED
Description: examples/sendmail is untested on the target (it has been tested
on the host, but not on the target).
Status: Open
Priority: Med
Title: EXAMPLES/NX FONT CACHING
Description: The font caching logic in examples/nx is incomplete. Fonts are
added to the cache, but never removed. When the cache is full
it stops rendering. This is not a problem for the examples/nx
code because it uses so few fonts, but if the logic were
leveraged for more general purposes, it would be a problem.
Update: see examples/nxtext for some improved font cache handling.
Status: Open
Priority: Low. This is not really a problem becauses examples/nx works
fine with its bogus font caching.
Title: EXAMPLES/NXTEXT ARTIFACTS
Description: examples/nxtext. Artifacts when the pop-up window is opened.
There are some artifacts that appear in the upper left hand
corner. These seems to be related to window creation. At
tiny artifact would not be surprising (the initial window
should like at (0,0) and be of size (1,1)), but sometimes
the artifact is larger.
Status: Open
Priority: Medium.
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