2020-07-21 00:18:26 +02:00
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======================
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File System Interfaces
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======================
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2020-10-20 10:40:45 +02:00
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.. _file_system_overview:
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2020-07-21 00:18:26 +02:00
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NuttX File System Overview
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==========================
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**Overview**. NuttX includes an optional, scalable file system. This
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file-system may be omitted altogether; NuttX does not depend on the
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presence of any file system.
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**Pseudo Root File System**. A simple *in-memory*, *pseudo* file system
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can be enabled by default. This is an *in-memory* file system because it
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does not require any storage medium or block driver support. Rather,
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file system contents are generated on-the-fly as referenced via standard
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file system operations (open, close, read, write, etc.). In this sense,
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the file system is *pseudo* file system (in the same sense that the
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Linux ``/proc`` file system is also referred to as a pseudo file
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system).
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Any user supplied data or logic can be accessed via the pseudo-file
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system. Built in support is provided for character and block
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2020-10-20 10:40:45 +02:00
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:ref:`driver <drivers-porting>` *nodes* in the any
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2020-07-21 00:18:26 +02:00
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pseudo file system directory. (By convention, however, all driver nodes
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should be in the ``/dev`` pseudo file system directory).
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**Mounted File Systems** The simple in-memory file system can be
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extended my mounting block devices that provide access to true file
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systems backed up via some mass storage device. NuttX supports the
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standard ``mount()`` command that allows a block driver to be bound to a
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mount-point within the pseudo file system and to a a file system. At
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present, NuttX supports only the VFAT file system.
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**Comparison to Linux** From a programming perspective, the NuttX file
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system appears very similar to a Linux file system. However, there is a
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fundamental difference: The NuttX root file system is a pseudo file
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system and true file systems may be mounted in the pseudo file system.
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In the typical Linux installation by comparison, the Linux root file
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system is a true file system and pseudo file systems may be mounted in
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the true, root file system. The approach selected by NuttX is intended
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to support greater scalability from the very tiny platform to the
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moderate platform.
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**File System Interfaces**. The NuttX file system simply supports a set
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of standard, file system APIs (``open()``, ``close()``, ``read()``,
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``write``, etc.) and a registration mechanism that allows devices
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drivers to a associated with *nodes* in a file-system-like name space.
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Driver Operations
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=================
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``fcntl.h``
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-----------
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.. c:function:: int creat(FAR const char *path, mode_t mode);
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.. c:function:: int open(FAR const char *path, int oflag, ...);
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.. c:function:: int fcntl(int fd, int cmd, ...);
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``unistd.h``
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------------
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.. c:function:: int close(int fd);
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.. c:function:: int dup(int fd);
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.. c:function:: int dup2(int fd1, int fd2);
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.. c:function:: off_t lseek(int fd, off_t offset, int whence);
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.. c:function:: ssize_t pread(int fd, void *buf, size_t nbytes, off_t offset);
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.. c:function:: ssize_t pwrite(int fd, const void *buf, size_t nbytes, off_t offset);
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.. c:function:: ssize_t read(int fd, void *buf, size_t nbytes);
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.. c:function:: int unlink(const char *path);
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.. c:function:: ssize_t write(int fd, const void *buf, size_t nbytes);
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``sys/ioctl.h``
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---------------
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.. c:function:: int ioctl(int fd, int req, ...)
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``poll.h``
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----------
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.. c:function:: int poll(struct pollfd *fds, nfds_t nfds, int timeout)
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Waits for one of a set of file descriptors
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to become ready to perform I/O. If none of the events requested (and no
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error) has occurred for any of the file descriptors, then ``poll()``
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blocks until one of the events occurs.
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**Configuration Settings**. In order to use the select with TCP/IP
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sockets test, you must have the following things selected in your NuttX
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configuration file:
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- ``CONFIG_NET`` Defined for general network support
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- ``CONFIG_NET_TCP`` Defined for TCP/IP support
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In order to for select to work with incoming connections, you must also
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select:
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- ``CONFIG_NET_TCPBACKLOG`` Incoming connections pend in a backlog
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until ``accept()`` is called. The size of the backlog is selected
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when ``listen()`` is called.
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:param fds: List of structures describing file descriptors to be
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monitored.
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:param nfds: The number of entries in the list.
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:param timeout: Specifies an upper limit on the time for which
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``poll()`` will block in milliseconds. A negative value of
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``timeout`` means an infinite timeout.
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:return:
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On success, the number of structures that have nonzero ``revents``
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fields. A value of 0 indicates that the call timed out and no file
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descriptors were ready. On error, -1 is returned, and ``errno`` is set
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appropriately:
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- ``EBADF``. An invalid file descriptor was given in one of the sets.
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- ``EFAULT``. The fds address is invalid
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- ``EINTR``. A signal occurred before any requested event.
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- ``EINVAL``. The nfds value exceeds a system limit.
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- ``ENOMEM``. There was no space to allocate internal data structures.
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- ``ENOSYS``. One or more of the drivers supporting the file descriptor
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does not support the poll method.
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``sys/select.h``
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----------------
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.. c:function:: int select(int nfds, FAR fd_set *readfds, FAR fd_set *writefds, \
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FAR fd_set *exceptfds, FAR struct timeval *timeout)
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Allows a program to monitor multiple file
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descriptors, waiting until one or more of the file descriptors become
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"ready" for some class of I/O operation (e.g., input possible). A file
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descriptor is considered ready if it is possible to perform the
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corresponding I/O operation (e.g., read(2)) without blocking.
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**NOTE:** ```poll()`` <#poll>`__ is the fundamental API for performing
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such monitoring operation under NuttX. ``select()`` is provided for
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compatibility and is simply a layer of added logic on top of ``poll()``.
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As such, ``select()`` is more wasteful of resources and
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```poll()`` <#poll>`__ is the recommended API to be used.
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:param nfds: the maximum file descriptor number (+1) of any descriptor
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in any of the three sets.
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:param readfds: the set of descriptions to monitor for read-ready events
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:param writefds: the set of descriptions to monitor for write-ready
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events
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:param exceptfds: the set of descriptions to monitor for error events
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:param timeout: Return at this time if none of these events of interest
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occur.
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:return:
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- ``0:`` Timer expired
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- ``>0:`` The number of bits set in the three sets of descriptors
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- ``-1:`` An error occurred (``errno`` will be set appropriately, see
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```poll()`` <#poll>`__).
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Directory Operations (``dirent.h``)
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-----------------------------------
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.. c:function:: int closedir(DIR *dirp);
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.. c:function:: FAR DIR *opendir(const char *path);
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.. c:function:: FAR struct dirent *readdir(FAR DIR *dirp);
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.. c:function:: int readdir_r(FAR DIR *dirp, FAR struct dirent *entry, FAR struct dirent **result);
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.. c:function:: void rewinddir(FAR DIR *dirp);
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.. c:function:: void seekdir(FAR DIR *dirp, int loc);
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.. c:function:: int telldir(FAR DIR *dirp);
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UNIX Standard Operations (``unistd.h``)
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---------------------------------------
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.. code-block:: c
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#include <unistd.h>
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/* Task Control Interfaces */
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pid_t vfork(void);
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pid_t getpid(void);
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void _exit(int status) noreturn_function;
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unsigned int sleep(unsigned int seconds);
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void usleep(unsigned long usec);
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int pause(void);
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/* File descriptor operations */
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int close(int fd);
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int dup(int fd);
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int dup2(int fd1, int fd2);
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int fsync(int fd);
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off_t lseek(int fd, off_t offset, int whence);
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ssize_t read(int fd, FAR void *buf, size_t nbytes);
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ssize_t write(int fd, FAR const void *buf, size_t nbytes);
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ssize_t pread(int fd, FAR void *buf, size_t nbytes, off_t offset);
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ssize_t pwrite(int fd, FAR const void *buf, size_t nbytes, off_t offset);
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/* Check if a file descriptor corresponds to a terminal I/O file */
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int isatty(int fd);
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/* Memory management */
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#if defined(CONFIG_ARCH_ADDRENV) && defined(CONFIG_MM_PGALLOC) && \
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defined(CONFIG_ARCH_USE_MMU)
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FAR void *sbrk(intptr_t incr);
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#endif
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/* Special devices */
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int pipe(int fd[2]);
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/* Working directory operations */
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int chdir(FAR const char *path);
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FAR char *getcwd(FAR char *buf, size_t size);
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/* File path operations */
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int access(FAR const char *path, int amode);
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int rmdir(FAR const char *pathname);
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int unlink(FAR const char *pathname);
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#ifdef CONFIG_PSEUDOFS_SOFTLINKS
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int link(FAR const char *path1, FAR const char *path2);
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ssize_t readlink(FAR const char *path, FAR char *buf, size_t bufsize);
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#endif
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/* Execution of programs from files */
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#ifdef CONFIG_LIBC_EXECFUNCS
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int execl(FAR const char *path, ...);
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int execv(FAR const char *path, FAR char * const argv[]);
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#endif
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/* Networking */
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#ifdef CONFIG_NET
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int gethostname(FAR char *name, size_t size);
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int sethostname(FAR const char *name, size_t size);
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#endif
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/* Other */
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int getopt(int argc, FAR char * const argv[], FAR const char *optstring);
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Standard I/O
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------------
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.. code-block:: c
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#include <stdio.h>
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/* Operations on streams (FILE) */
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void clearerr(FAR FILE *stream);
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int fclose(FAR FILE *stream);
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int fflush(FAR FILE *stream);
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int feof(FAR FILE *stream);
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int ferror(FAR FILE *stream);
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int fileno(FAR FILE *stream);
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int fgetc(FAR FILE *stream);
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int fgetpos(FAR FILE *stream, FAR fpos_t *pos);
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FAR char *fgets(FAR char *s, int n, FAR FILE *stream);
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FAR FILE *fopen(FAR const char *path, FAR const char *type);
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int fprintf(FAR FILE *stream, FAR const char *format, ...);
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int fputc(int c, FAR FILE *stream);
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int fputs(FAR const char *s, FAR FILE *stream);
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size_t fread(FAR void *ptr, size_t size, size_t n_items, FAR FILE *stream);
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FAR FILE *freopen(FAR const char *path, FAR const char *mode,
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FAR FILE *stream);
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int fseek(FAR FILE *stream, long int offset, int whence);
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int fsetpos(FAR FILE *stream, FAR fpos_t *pos);
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long ftell(FAR FILE *stream);
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size_t fwrite(FAR const void *ptr, size_t size, size_t n_items, FAR FILE *stream);
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FAR char *gets(FAR char *s);
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FAR char *gets_s(FAR char *s, rsize_t n);
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void setbuf(FAR FILE *stream, FAR char *buf);
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int setvbuf(FAR FILE *stream, FAR char *buffer, int mode, size_t size);
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int ungetc(int c, FAR FILE *stream);
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/* Operations on the stdout stream, buffers, paths, and the whole printf-family * /
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int printf(FAR const char *format, ...);
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int puts(FAR const char *s);
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int rename(FAR const char *source, FAR const char *target);
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int sprintf(FAR char *dest, FAR const char *format, ...);
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int asprintf(FAR char **ptr, FAR const char *fmt, ...);
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int snprintf(FAR char *buf, size_t size, FAR const char *format, ...);
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int sscanf(FAR const char *buf, FAR const char *fmt, ...);
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void perror(FAR const char *s);
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int vprintf(FAR const char *s, va_list ap);
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int vfprintf(FAR FILE *stream, FAR const char *s, va_list ap);
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int vsprintf(FAR char *buf, FAR const char *s, va_list ap);
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int vasprintf(FAR char **ptr, FAR const char *fmt, va_list ap);
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int vsnprintf(FAR char *buf, size_t size, FAR const char *format, va_list ap);
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int vsscanf(FAR char *buf, FAR const char *s, va_list ap);
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/* Operations on file descriptors including:
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*
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* POSIX-like File System Interfaces (fdopen), and
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* Extensions from the Open Group Technical Standard, 2006, Extended API Set
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* Part 1 (dprintf and vdprintf)
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*/
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FAR FILE *fdopen(int fd, FAR const char *type);
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int dprintf(int fd, FAR const char *fmt, ...);
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int vdprintf(int fd, FAR const char *fmt, va_list ap);
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/* Operations on paths */
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FAR char *tmpnam(FAR char *s);
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FAR char *tempnam(FAR const char *dir, FAR const char *pfx);
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int remove(FAR const char *path);
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#include <sys/stat.h>
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int mkdir(FAR const char *pathname, mode_t mode);
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int mkfifo(FAR const char *pathname, mode_t mode);
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int stat(FAR const char *path, FAR struct stat *buf);
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int fstat(int fd, FAR struct stat *buf);
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#include <sys/statfs.h>
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int statfs(FAR const char *path, FAR struct statfs *buf);
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int fstatfs(int fd, FAR struct statfs *buf);
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Standard Library (``stdlib.h``)
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-------------------------------
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Generally addresses other operating system interfaces.
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However, the following may also be considered as file system interfaces:
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.. c:function:: int mktemp(FAR char *template);
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.. c:function:: int mkstemp(FAR char *template);
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Asynchronous I/O
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----------------
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.. code-block:: c
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#include <aio.h>
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int aio_cancel(int, FAR struct aiocb *aiocbp);
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int aio_error(FAR const struct aiocb *aiocbp);
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int aio_fsync(int, FAR struct aiocb *aiocbp);
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int aio_read(FAR struct aiocb *aiocbp);
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ssize_t aio_return(FAR struct aiocb *aiocbp);
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int aio_suspend(FAR const struct aiocb * const list[], int nent,
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FAR const struct timespec *timeout);
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int aio_write(FAR struct aiocb *aiocbp);
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int lio_listio(int mode, FAR struct aiocb * const list[], int nent,
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FAR struct sigevent *sig);
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Standard String Operations
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--------------------------
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.. code-block:: c
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#include <string.h>
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char *strchr(const char *s, int c);
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FAR char *strdup(const char *s);
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const char *strerror(int);
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size_t strlen(const char *);
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size_t strnlen(const char *, size_t);
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char *strcat(char *, const char *);
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char *strncat(char *, const char *, size_t);
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int strcmp(const char *, const char *);
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int strncmp(const char *, const char *, size_t);
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int strcasecmp(const char *, const char *);
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int strncasecmp(const char *, const char *, size_t);
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char *strcpy(char *dest, const char *src);
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char *strncpy(char *, const char *, size_t);
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char *strpbrk(const char *, const char *);
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char *strchr(const char *, int);
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char *strrchr(const char *, int);
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size_t strspn(const char *, const char *);
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size_t strcspn(const char *, const char *);
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char *strstr(const char *, const char *);
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char *strtok(char *, const char *);
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char *strtok_r(char *, const char *, char **);
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void *memset(void *s, int c, size_t n);
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void *memcpy(void *dest, const void *src, size_t n);
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int memcmp(const void *s1, const void *s2, size_t n);
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void *memmove(void *dest, const void *src, size_t count);
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#include <strings.h>
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#define bcmp(b1,b2,len) memcmp(b1,b2,(size_t)len)
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#define bcopy(b1,b2,len) (void)memmove(b2,b1,len)
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#define bzero(s,n) (void)memset(s,0,n)
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#define index(s,c) strchr(s,c)
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#define rindex(s,c) strrchr(s,c)
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int ffs(int j);
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int strcasecmp(const char *, const char *);
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int strncasecmp(const char *, const char *, size_t);
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Pipes and FIFOs
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---------------
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.. c:function:: int pipe(int fd[2])
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Creates a pair of file descriptors, pointing to a pipe inode,
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2020-10-18 18:48:44 +02:00
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and places them in the array pointed to by ``fd``.
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2020-07-21 00:18:26 +02:00
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:param fd: The user provided array in which to catch the pipe file
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descriptors. ``fd[0]`` is for reading, ``fd[1]`` is for writing.
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2020-10-18 18:48:44 +02:00
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:return: 0 is returned on success; otherwise, -1 is returned with errno set appropriately.
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2020-07-21 00:18:26 +02:00
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.. c:function:: int mkfifo(FAR const char *pathname, mode_t mode);
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mkfifo() makes a FIFO device driver file with name pathname. Unlike Linux,
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a NuttX FIFO is not a special file type but simply a device driver instance.
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mode specifies the FIFO's permissions (but is ignored in the current implementation).
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Once the FIFO has been created by mkfifo(), any thread can open it for reading
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or writing, in the same way as an ordinary file. However, it must have been
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opened from both reading and writing before input or output can be performed.
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2020-10-18 18:48:44 +02:00
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This FIFO implementation will block all attempts to open a FIFO read-only
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2020-07-21 00:18:26 +02:00
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until at least one thread has opened the FIFO for writing.
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If all threads that write to the FIFO have closed, subsequent calls to
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read() on the FIFO will return 0 (end-of-file).
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:param pathname: The full path to the FIFO instance to attach to or to
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create (if not already created).
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:param mode: Ignored for now
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2020-10-18 18:48:44 +02:00
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:return: 0 is returned on success; otherwise, -1 is returned with errno set appropriately.
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2020-07-21 00:18:26 +02:00
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``mmap()`` and eXecute In Place (XIP)
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-------------------------------------
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NuttX operates in a flat open address space and is focused on MCUs that
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do support Memory Management Units (MMUs). Therefore, NuttX generally
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does not require ``mmap()`` functionality and the MCUs generally cannot
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support true memory-mapped files.
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However, memory mapping of files is the mechanism used by NXFLAT, the
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NuttX tiny binary format, to get files into memory in order to execute
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them. ``mmap()`` support is therefore required to support NXFLAT. There
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are two conditions where ``mmap()`` can be supported:
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1. ``mmap()`` can be used to support *eXecute In Place* (XIP) on random
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access media under the following very restrictive conditions:
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a. The file-system supports the ``FIOC_MMAP`` ioctl command. Any file
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system that maps files contiguously on the media should support
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this ``ioctl`` command. By comparison, most file system scatter
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files over the media in non-contiguous sectors. As of this
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writing, ROMFS is the only file system that meets this
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requirement.
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b. The underlying block driver supports the ``BIOC_XIPBASE``
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``ioctl`` command that maps the underlying media to a randomly
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accessible address. At present, only the RAM/ROM disk driver does
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this.
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Some limitations of this approach are as follows:
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a. Since no real mapping occurs, all of the file contents are
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"mapped" into memory.
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b. All mapped files are read-only.
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c. There are no access privileges.
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2. If ``CONFIG_FS_RAMMAP`` is defined in the configuration, then
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``mmap()`` will support simulation of memory mapped files by copying
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files whole into RAM. These copied files have some of the properties
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of standard memory mapped files. There are many, many exceptions
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exceptions, however. Some of these include:
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a. The goal is to have a single region of memory that represents a
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single file and can be shared by many threads. That is, given a
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filename a thread should be able to open the file, get a file
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descriptor, and call ``mmap()`` to get a memory region. Different
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file descriptors opened with the same file path should get the
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same memory region when mapped.
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The limitation in the current design is that there is insufficient
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knowledge to know that these different file descriptors correspond
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to the same file. So, for the time being, a new memory region is
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created each time that ``rammmap()`` is called. Not very useful!
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b. The entire mapped portion of the file must be present in memory.
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Since it is assumed that the MCU does not have an MMU,
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on-demanding paging in of file blocks cannot be supported. Since
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the while mapped portion of the file must be present in memory,
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there are limitations in the size of files that may be memory
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mapped (especially on MCUs with no significant RAM resources).
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c. All mapped files are read-only. You can write to the in-memory
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image, but the file contents will not change.
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d. There are no access privileges.
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e. Since there are no processes in NuttX, all ``mmap()`` and
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``munmap()`` operations have immediate, global effects. Under
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Linux, for example, ``munmap()`` would eliminate only the mapping
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with a process; the mappings to the same file in other processes
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would not be effected.
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f. Like true mapped file, the region will persist after closing the
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file descriptor. However, at present, these ram copied file
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regions are *not* automatically "unmapped" (i.e., freed) when a
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thread is terminated. This is primarily because it is not possible
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to know how many users of the mapped region there are and,
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therefore, when would be the appropriate time to free the region
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(other than when munmap is called).
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NOTE: Note, if the design limitation of a) were solved, then it
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would be easy to solve exception d) as well.
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.. c:function:: FAR void *mmap(FAR void *start, size_t length, int prot, int flags, int fd, off_t offset);
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2020-10-18 18:48:44 +02:00
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Provides minimal mmap() as needed to support eXecute In Place (XIP) operation (as described above).
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2020-07-21 00:18:26 +02:00
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:param start: A hint at where to map the memory -- ignored. The address
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of the underlying media is fixed and cannot be re-mapped without MMU
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support.
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:param length: The length of the mapping -- ignored. The entire
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underlying media is always accessible.
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:param prot: See the ``PROT_*`` definitions in ``sys/mman.h``.
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- ``PROT_NONE`` - Will cause an error.
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- ``PROT_READ`` - ``PROT_WRITE`` and ``PROT_EXEC`` also assumed.
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- ``PROT_WRITE`` - ``PROT_READ`` and ``PROT_EXEC`` also assumed.
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- ``PROT_EXEC`` - ``PROT_READ`` and ``PROT_WRITE`` also assumed.
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:param flags: See the ``MAP_*`` definitions in ``sys/mman.h``.
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- ``MAP_SHARED`` - Required
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- ``MAP_PRIVATE`` - Will cause an error
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- ``MAP_FIXED`` - Will cause an error
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- ``MAP_FILE`` - Ignored
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- ``MAP_ANONYMOUS`` - Will cause an error
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- ``MAP_ANON`` - Will cause an error
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- ``MAP_GROWSDOWN`` - Ignored
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- ``MAP_DENYWRITE`` - Will cause an error
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- ``MAP_EXECUTABLE`` - Ignored
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- ``MAP_LOCKED`` - Ignored
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- ``MAP_NORESERVE`` - Ignored
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- ``MAP_POPULATE`` - Ignored
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- ``AP_NONBLOCK`` - Ignored
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:param fd: file descriptor of the backing file -- required.
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:param offset: The offset into the file to map.
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:return:
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On success, ``mmap()`` returns a pointer to the mapped area. On error,
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the value ``MAP_FAILED`` is returned, and ``errno`` is set
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appropriately.
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- ``ENOSYS`` - Returned if any of the unsupported ``mmap()`` features
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are attempted.
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- ``EBADF`` - ``fd`` is not a valid file descriptor.
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- ``EINVAL`` - Length is 0. flags contained neither ``MAP_PRIVATE`` or
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``MAP_SHARED``, or contained both of these values.
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- ``ENODEV`` - The underlying file-system of the specified file does
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not support memory mapping.
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