NuttX TODO List (Last updated August 6, 2015) ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ This file summarizes known NuttX bugs, limitations, inconsistencies with standards, things that could be improved, and ideas for enhancements. This TODO list does not include issues associated with individual boar ports. See altheso individual README.txt files in the configs/ sub-directories for issues reated to each board port. nuttx/ (12) Task/Scheduler (sched/) (1) Memory Management (mm/) (3) Signals (sched/signal, arch/) (2) pthreads (sched/pthread) (0) Message Queues (sched/mqueue) (4) C++ Support (6) Binary loaders (binfmt/) (12) Network (net/, drivers/net) (4) USB (drivers/usbdev, drivers/usbhost) (12) Libraries (libc/, libm/) (11) File system/Generic drivers (fs/, drivers/) (8) Graphics subsystem (graphics/) (1) Pascal add-on (pcode/) (2) Build system / Toolchains (3) Linux/Cywgin simulation (arch/sim) (5) ARM (arch/arm/) apps/ (4) Network Utilities (apps/netutils/) (3) NuttShell (NSH) (apps/nshlib) (1) System libraries apps/system (apps/system) (4) 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 application: 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 child's 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 Title: REMOVE TASK_DELETE Description: Need to remove or fix task delete. This interface is non- standard and not safe. Arbitrary deleting tasks can cause serious problems such as memory leaks. Better to remove it than to retain it as a latent bug. Currently used within the OS and also part of the implementation of pthread_cancel() and task_restart() (which should also go for the same reasons). It is used in NxWM::CNxConsole to terminate console tasks and also in apps/netutils/thttpd to kill CGI tasks that timeout. Status: Open Priority: Low and not easily removable. Title: RELEASE SEMAPHORES HELD BY CANCELED THREADS: Description: Commit: fecb9040d0e54baf14b729e556a832febfe8229e: "In case a thread is doing a blocking operation (e.g. read()) on a serial device, while it is being terminated by pthread_cancel(), then uart_close() gets called, but the semaphore (dev->recv.sem in the above example) is still blocked. "This means that once the serial device is opened next time, data will arrive on the serial port (and driver interrupts handled as normal), but the received characters never arrive in the reader thread. This patch addresses the problem by re-initializing the semaphores on the last uart_close() on the device." Yahoo! Groups message 7726: "I think that the system should be required to handle pthread_cancel safely in all cases. In the NuttX model, a task is like a Unix process and a pthread is like a Unix thread. Cancelling threads should always be safe (or at least as unsafe) as under Unix because the model is complete for pthreads... "So, in my opinion, this is a generic system issue, not specific to the serial driver. I could also implement logic to release all semaphores held by a thread when it exits -- but only if priority inheritance is enabled; because only in that case does the code have any memory of which threads actually hold the semaphore. "The patch I just incorporated is also insufficient. It works only if the serial driver is shut down when the thread is cancelled. But what if there are other open references to the driver? Then the driver will not be shut down, the semaphores will not be re-initialized, and the semaphore counts will still be off by one. "I think that the system needs to automatically release any semaphores held by a thread being killed asynchronously? It seems necessary to me." UPDATE; The logic enabled when priority inheritance is enabled for this purpose is insufficient. It provides hooks so that given a semaphore it can traverse all holders. What is needed would be logic so that given a task, you can traverse all semaphores held by the task, releasing each semaphore cound held by the exiting task. Nothing like this exists now so that solution is not imminent. UPDATE: The basic fix to release the semaphore count if a thread is killed via pthread_cancel() or task_delete() has been implemented (2014-12-13). See the new file: sched/semaphore/sem_recover.c However, the general issue of freeing semaphores when a thread exists still exists. Status: Open Priority: Medium-ish 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). Updated 2016-06-25: For processors with an MMU (Memory Management Unit), NuttX can be built in a kernel mode. In that case, each process will have a local copy of its heap (filled with sbrk()) and when the process exits, its local heap will be destroyed and the underlying page memory is recovered. So in this case, NuttX work just link Linux or or *nix systems: All memory allocated by processes or threads in processes will be recovered when the process exists. But not for the flat memory build. In that case, the issues above do apply. There is no safe way to recover the memory in that case (and even if there were, the additional overhead would not be acceptable on most platforms). This does not prohibit anyone from creating a wrapper for malloc() and an atexit() callback that frees memory on task exit. People are free and, in fact, encouraged, to do that. However, since it is inherently unsafe, I would never incorporate anything like that into NuttX. 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. o Signals (sched/signal, arch/) ^^^^^^^^^^^^^^^^^^^^^^^ Title: STANDARD SIGNALS Description: 'Standard' signals and signal actions are not supported. (e.g., SIGINT, SIGSEGV, etc). Update: SIGCHLD is supported if so configured. Status: Open. No further 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/pthreads) ^^^^^^^^^^^^^^^^^ 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() support 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 pthread 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 Message Queues (sched/mqueue) ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ o Kernel/Protected Build ^^^^^^^^^^^^^^^^^^^^^^ Title: NSH PARTITIONING. Description: There are issues with several NSH commands in the NuttX kernel and protected build modes (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 internal functions for which there is no syscall available. The commands cause link failures in the kernel/protected 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/protected build modes, 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: NxTERM PARTITIONING. Description: NxTerm 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 NxTerm user interfaces are undefined. Status: Open Priority: Medium Title: C++ CONSTRUCTORS HAVE TOO MANY PRIVILEGES (PROTECTED MODE) Description: When a C++ ELF module is loaded, its C++ constructors are called via sched/task_starthook.c logic. This logic runs in protected 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 output: 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." Update: This is probably also just a symptom of the OS test that does mostly console output. The requests for the pid() are part of the implementation of the I/O's re-entrant semaphore implementation and would not be an issue in the more general case. 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: 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 application logic 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 the application. 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 within the RTOS (see include/nuttx/sched.h). If we add some new, non-standard 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: NXFLAT 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: 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. Currently they are useless because they are not accessible. The solution is to standardize the structure that holds the drivers statistics. Then apps/nshlib ifconfig command could present the driver statistics. Currently these drivers support non-standard statistics: arch/arm/src/kinetis/kinetis_enet.c arch/arm/src/lpc17xx/lpc17_ethernet.c arch/arm/src/tiva/lm3s_ethernet.c arch/mips/src/pic32mx/pic32mx-ethernet.c arch/z80/src/ez80/ez80_emac.c The other Ethernet drivers support no 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: POLL/SELECT ON TCP/UDP SOCKETS NEEDS READ-AHEAD Description: poll()/select() only works for availability of buffered TCP/UDP read data (when read-ahead is enabled). The way writing is handled in the network layer, 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 nonblocking operations only (1) for TCP/IP non- blocking read operations when read-ahead buffering is enabled, (2) TCP/IP accept() operations when TCP/IP connection backlog is enabled, (2) UDP/IP read() operations when UDP read-ahead is enabled, and (3) non-blocking operations on Unix domain sockets. 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. Title: INTERRUPT LEVEL PROCESSING IN ETHERNET DRIVERS Description: Too many Ethernet drivers do interrupt-level processing with the network stack. The network stack supports either interrupt level processing or normal task level processing (depending on CONFIG_NET_NOINTS). This is really a very bad use of CPU resources; All of the network stack processing should be modified to use a work queue (and, all use of CONFIG_NET_NOINTS=n should be eliminated). This applies to almost all Ethernet drivers: ARCHITECTURE CONFIG_NET_NOINTS? ADDRESS FILTER SUPPORT? C5471 NO NO STM32 YES YES STM32F7 YES YES TIVA ----------------------- ------ LM3S NO NO TM4C YES YES eZ80 NO NO LPC17xx YES YES (not tested) DMxxx NIC NO NO PIC32 NO NO RGMP ??? ??? SAM3/4 YES YES SAMA5D ----------------------- ------ EMACA NO YES (not tested) EMACB YES YES GMAC NO YES (not tested) SAMV7 YES YES SIM N/A (No interrupts) NO The general outline of how this might be done is included in drivers/net/skeleton.c Status: Open Priority: Pretty high if you want a well behaved system. Title: UDP MULTICAST RECEPTION Description: The logic in udp_input() expects either a single receive socket or none at all. However, multiple sockets should be capable of receiving a UDP datagram (multicast reception). This could be handled easily by something like: for (conn = NULL; conn = udp_active (pbuf, conn); ) If the callback logic that receives a packet responds with an outgoing packet, then it will over-write the received buffer, however. recvfrom() will not do that, however. We would have to make that the rule: Recipients of a UDP packet must treat the packet as read-only. Status: Open Priority: Low, unless your logic depends on that behavior. Title: NETWORK WON'T STAY DOWN Description: If you enable the NSH network monitor (CONFIG_NSH_NETINIT_MONITOR) then the NSH 'ifdown' command is broken. Doing 'nsh> ifconfig eth0' will, indeed, bring the network down. However, the network monitor notices the change in the link status and will bring the network back up. There needs to be some kind of interlock between cmd_ifdown() and the network monitor thread to prevent this. Status: Open Priority: Low, this is just a nuisance in most cases. Title: FIFO CLEAN-UP AFTER CLOSING UNIX DOMAIN DATAGRAM SOCKET Description: FIFOs are used as the IPC underlying all local Unix domain sockets. In NuttX, FIFOs are implemented as device drivers (not as a special FIFO files). The FIFO device driver is instantiated when the Unix domain socket communications begin and will automatically be released when (1) the driver is unlinked and (2) all open references to the driver have been closed. But there is no mechanism in place now to unlink the FIFO when the Unix domain datagram socket is no longer used. The primary issue is timing.. the FIFO should persist until it is no longer needed. Perhaps there should be a delayed call to unlink() (using a watchdog or the work queue). If the driver is re-opened, the delayed unlink could be cancelled? Needs more thought. NOTE: This is not an issue for Unix domain streams sockets: The end-of-life of the FIFO is well determined when sockets are disconnected and support for that case is fully implemented. Status: Open Priority: Low for now because I don't have a situation where this is a problem for me. If you use the same Unix domain paths, then it is not a issue; in fact it is more efficient if the FIFO devices persist. But this would be a serious problem if, for example, you create new Unix domain paths dynamically. In that case you would effectively have a memory leak and the number of FIFO instances grow. Title: TCP IPv4-MAPPED IPv6 ADDRESSES Description: The UDP implementation in net/udp contains support for Hybrid dual-stack IPv6/IPv4 implementations that utilize a special class of addresses, the IPv4-mapped IPv6 addresses. You can see that UDP implementation in: udp_callback.c: ip6_map_ipv4addr(ipv4addr, udp_send.c: ip6_is_ipv4addr((FAR struct in6_addr*)conn->u.ipv6.raddr))) ip6_is_ipv4addr((FAR struct in6_addr*)conn->u.ipv6.raddr)) in_addr_t raddr = ip6_get_ipv4addr((FAR struct in6_addr*)conn->u.ipv6.raddr); There is no corresponding support for TCP sockets. Status: Open Priority: Low. I don't know of any issues now, but I am sure that someone will encounter this in the future. 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: 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: IMPROVED USAGE of STM32 USB RESOURCES Description: The STM32 platforms use a non-standard, USB host peripheral that uses "channels" to implement data transfers the current logic associates each channel with an pipe/endpoint (with two channels for bi-directional control endpoints). The OTGFS peripheral has 8 channels and the OTGHS peripheral has 12 channels. This works okay until you add a hub and try connect multiple devices. A typical device will require 3-4 pipes and, hence, 4-5 channels. This effectively prevents using a hub with the STM32 devices. This also applies to the EFM32 which uses the same IP. It should be possible to redesign the STM32 F4 OTGHS/OTGFS and EFM32 host driver so that channels are dynamically assigned to pipes as needed for individual transfers. Then you could have more "apparent" pipes and make better use of channels. Although there are only 8 or 12 channels, transfers are not active all of the time on all channels so it ought to be possible to have an unlimited number of "pipes" but with no more than 8 or 12 active transfers. Status: Open Priority: Medium-Low Title: USB CDC/ACM HOST CLASS DRIVER Desciption: A CDC/ACM host class driver has been added. This has been testing by running the USB CDC/ACM host on an Olimex LPC1766STK and using the configs/stm3210e-eval/usbserial configuration (using the CDC/ACM device side driver). There are several unresolved issues that prevent the host driver from being usable: - The driver works fine when configured for reduced or bulk- only protocol. - Testing has not been performed with the interrupt IN channel enabled (ie., I have not enabled FLOW control nor do I have a test case that used the interrupt IN channel). I can see that the polling for interrupt IN data is occurring initially. - I test for incoming data by doing 'nsh> cat /dev/ttyACM0' on the Olimex LPC1766STK host. The bulk data reception still works okay whether or not the interupt IN channel is enabled. If the interrupt IN channel is enabled, then polling of that channel appears to stop when the bulk in channel becomes active. - The RX reception logic uses the low priority work queue. However, that logic never returns and so blocks other use of the work queue thread. This is probably okay but means that the RX reception logic probably should be moved to its own dedicated thread. - I get crashes when I run with the STM32 OTGHS host driver. Apparently the host driver is trashing memory on receipt of data. - The SAMA5D EHCI and the LPC31 EHCI drivers both take semaphores in the cancel method. The current CDC/ACM class driver calls the cancel() method from an interrupt handler. This will cause a crash. Those EHCI drivers should be redesigned to permit cancellation from the interrupt level. Most of these problems are unique to the Olimex LPC1766STK DCD; some are probably design problems in the CDC/ACM host driver. The bottom line is that the host CDC/ACM driver is still immature and you could experience issues in some configurations if you use it. That all being said, I know of know no issues with the current CDC/ACM driver if the interrupt IN endpoint is not used, i.e., in "reduced" mode. The only loss of functionality is output flow control. Status: Open Priority: Medium-Low unless you really need host CDC/ACM support. 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 array 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 replace 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). Title: LIBM INACCURACIES Description: "..if you are writing something like robot control or inertial navigation system for aircraft, I have found that using the toolchain libmath is only safe option. I ported some code for converting quaternions to Euler angles to NuttX for my project and only got it working after switching to newlib math library. "NuttX does not fully implement IEC 60559 floating point from C99 (sections marked [MX] in OpenGroup specs) so if your code assumes that some function, say pow(), actually behaves right for all the twenty or so odd corner cases that the standards committees have recently specified, you might get surprises. I'd expect pow(0.0, 1.0) to return 0.0 (as zero raised to any positive power is well-defined in mathematics) but I get +Inf. "NuttX atan2(-0.0, -1.0) returns +M_PI instead of correct -M_PI. If we expect [MX] functionality, then atan2(Inf, Inf) should return M_PI/4, instead NuttX gives NaN. "asin(2.0) does not set domain error or return NaN. In fact it does not return at all as the loop in it does not converge, hanging your app. "There are likely many other issues like these as the Rhombs OS code has not been tested or used that much. Sorry for not providing patches, but we found it easier just to switch the math library." Ref: https://groups.yahoo.com/neo/groups/nuttx/conversations/messages/7805 Status: Open Priority: Low for casual users but clearly high if you need care about these incorrect corner case behaviors in the math libraries. 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: 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: 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 closed. 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: 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 descriptors 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 Title: MISSING FILES IN NSH 'LS' OF A DIRECTORY Description: I have seen cases where (1) long file names are enabled, but (2) a short file name is created like: nsh> echo "This is another thest" >/mnt/sdcard/another.txt But then on subsequent 'ls' operations, the file does not appear: nsh> ls -l /mnt/sdcard I have determined that the problem is because, for some as- of-yet-unkown reason the short file name is treated as a long file name. The name then fails the long filename checksum test and is skipped. readdir() (and fat_readdir()) is the logic underlying the failure and the problem appears to be something unique to the fat_readdir() implementation. Why? Because the file is visible when you put the SD card on a PC and because this works fine: nsh> ls -l /mnt/sdcard/another.txt The failure does not happen on all short file names. I do not understand the pattern. But I have not had the opportunity to dig into this deeply. Status: Open Priority: Perhaps not a problem??? I have analyzed this problem and I am not sure what to do about it. I am suspected that a fat filesystem was used with a version of NuttX that does not support long file name entries. Here is the failure scenario: 1) A file with a long file name is created under Windows. 2) Then the file is deleted. I am not sure if Windows or NuttX deleted the file, but the resulting directory content is not compatible with NuttX with long file name support. The file deletion left the full sequence of long file name entries intact but apparently delete only the following short file name entry. I am thinking that this might have happened because a version of NuttX with only short file name support was used to delete the file. 3) When a new file with a short file name was created, it re-used the short file name entry that was previously deleted. This makes the new short file name entry look like a part of the long file name. 4) When comparing the checksum in the long file name entry with the checksum of the short file name, the checksum fails and the entire directlry sequence is ignored by readder() logic. This the file does not appear in the 'ls'. o Graphics subsystem (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 NxTERM FONT CACHING Description: Now each NxTerm instance has its own private font cache whose size is determined by CONFIG_NXTERM_MXCHARS. If there are multiple NxTerm instances using the same font, each will have a separate font cache. This is inefficient and wasteful of memory: Each NxTerm 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 NxTerm were to be used in a product. Title: NxTERM VT100 SUPPORT Description: If the NxTerm 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. Title: PER-WINDOW FRAMEBUFFERS Description: One of the most awkard things to handle in the NX windowing system is the re-draw callback. This is difficult because it requires ad hoc, custom logic to be able to do the redrawing in most cases. One solution would be to provide a per-window framebuffer. All rending would be performed into the per-window framebuffer and the rended bits would be copied the LCD or framebuffer device memory on demand when the redraw is required. This would (a) greatly simplify the graphics interface, (b) greatly improve redraw performance, and (c) enable a more generic use of the windowing. The downside would be a large usage of memory to hold all of the framebuffers, one for each window. Status: Open Priority: Low, of mostly strategic value. Title: VERTICAL ANTI-ALIASING Description: Anti-aliasing is implemented along the horizontal raster line with fractional pixels at the ends of each line. There is no accounting for fractional pixels in the vertical direction. As a result lines closer to vertical receive better anti- aliasing than lines closer to horizontal. Status: Open Priority: Low, not a serious issue but worth noting. There is no plan to change this behavior. 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 Title: PDBG Description: Move the the pascal p-code debugger into the NuttX apps/ tree where it can be used from the NSH command line. Status: Open Priority: Low o Build system ^^^^^^^^^^^^ 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: 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: 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: SIMULATOR HAS NO INTERRUPTS (NON-PREMPTIBLE) Description: The current simulator implementation is has no interrupts and, hence, is non-preemptible. Also, without simulated interrupt, there can be no high-fidelity simulated device drivers. Currently, all timing and serial input is simulated in the IDLE loop: When nothing is going on in the simulation, the IDLE loop runs and fakes timer and UART events. Status: Open Priority: Low, unless there is a need for developing a higher fidelity simulation I have been thinking about how to implement simulated interrupts in the simulation. I think a solution would work like this: http://www.nuttx.org/doku.php?id=wiki:nxinternal:simulator 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 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 in 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: https://groups.yahoo.com/neo/groups/nuttx/conversations/messages/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. Title: IMPROVED TASK START-UP AND SYSCALL RETURN Description: Couldn't up_start_task and up_start_pthread syscalls be eliminated. Wouldn't this work to get us from kernel- to user-mode with a system trap: lda r13, #address str rn, [r13] msr spsr_SVC, rm ld r13,{r15}^ Would also need to set r13_USER and r14_USER. For new SYS_context_switch... couldn't we do he same thing? Also... System calls use traps to get from user- to kernel- mode to perform OS services. That is necessary to get from user- to kernel-mode. But then another trap is used to get from kernel- back to user-mode. It seems like this second trap should be unnecessary. We should be able to do the same kind of logic to do this. Status: Open Priority: Low-ish, but a good opportunity for performance improvement. o Network Utilities (apps/netutils/) ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 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: 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 Title: DHCPD ACCESSES KERNEL PRIVATE INTERFACE Description: arp_update() is referenced outside of nuttx/net. It is used in in the netutils/ DHCPD logic to set entries in the ARP table. That is violation of the separation of kernel and OS functionality. As a consequence, dhcpd will not work with the NuttX kernel built. This direct OS call needs to be replaced with a network ioctl() call. Status: Open Priority: Medium. Important for full functionality with kernel build. Title: NETWORK MONITOR NOT GENERALLY AVAILABLE Description: The NSH network management logic has general applicability but is currently useful only because it is embedded in the NSH module. It should be moved to apps/system or, better, apps/netutils. Status: Open Priority: Low o NuttShell (NSH) (apps/nshlib) ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 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) Title: ARPPING COMMAND Description: Add an arping command 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 editing 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/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 because 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.