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MMAP 2 "Feb 4, 2009"
NAME
mmap - map pages of memory
SYNOPSIS

#include <sys/mman.h>

void *mmap(void *addr, size_t len, int prot, int flags,
 int fildes, off_t off);
DESCRIPTION

The mmap() function establishes a mapping between a process's address space and a file or shared memory object. The format of the call is as follows:

pa = mmap(addr, len, prot, flags, fildes, off);

The mmap() function establishes a mapping between the address space of the process at an address pa for len bytes to the memory object represented by the file descriptor fildes at offset off for len bytes. The value of pa is a function of the addr argument and values of flags, further described below. A successful mmap() call returns pa as its result. The address range starting at pa and continuing for len bytes will be legitimate for the possible (not necessarily current) address space of the process. The range of bytes starting at off and continuing for len bytes will be legitimate for the possible (not necessarily current) offsets in the file or shared memory object represented by fildes.

The mmap() function allows [pa, pa + len) to extend beyond the end of the object both at the time of the mmap() and while the mapping persists, such as when the file is created prior to the mmap() call and has no contents, or when the file is truncated. Any reference to addresses beyond the end of the object, however, will result in the delivery of a SIGBUS or SIGSEGV signal. The mmap() function cannot be used to implicitly extend the length of files.

The mapping established by mmap() replaces any previous mappings for those whole pages containing any part of the address space of the process starting at pa and continuing for len bytes.

If the size of the mapped file changes after the call to mmap() as a result of some other operation on the mapped file, the effect of references to portions of the mapped region that correspond to added or removed portions of the file is unspecified.

The mmap() function is supported for regular files and shared memory objects. Support for any other type of file is unspecified.

The prot argument determines whether read, write, execute, or some combination of accesses are permitted to the data being mapped. The prot argument should be either PROT_NONE or the bitwise inclusive OR of one or more of the other flags in the following table, defined in the header <sys/mman.h>. PROT_READ

Data can be read.

PROT_WRITE

Data can be written.

PROT_EXEC

Data can be executed.

PROT_NONE

Data cannot be accessed.

If an implementation of mmap() for a specific platform cannot support the combination of access types specified by prot, the call to mmap() fails. An implementation may permit accesses other than those specified by prot; however, the implementation will not permit a write to succeed where PROT_WRITE has not been set or permit any access where PROT_NONE alone has been set. Each platform-specific implementation of mmap() supports the following values of prot: PROT_NONE, PROT_READ, PROT_WRITE, and the inclusive OR of PROT_READ and PROT_WRITE. On some platforms, the PROT_WRITE protection option is implemented as PROT_READ|PROT_WRITE and PROT_EXEC as PROT_READ|PROT_EXEC. The file descriptor fildes is opened with read permission, regardless of the protection options specified. If PROT_WRITE is specified, the application must have opened the file descriptor fildes with write permission unless MAP_PRIVATE is specified in the flags argument as described below.

The flags argument provides other information about the handling of the mapped data. The value of flags is the bitwise inclusive OR of these options, defined in <sys/mman.h>: MAP_SHARED

Changes are shared.

MAP_PRIVATE

Changes are private.

MAP_FIXED

Interpret addr exactly.

MAP_NORESERVE

Do not reserve swap space.

MAP_ANON

Map anonymous memory.

MAP_ALIGN

Interpret addr as required aligment.

MAP_TEXT

Map text.

MAP_INITDATA

Map initialized data segment.

MAP_32BIT

Map to the lower 32 bits of address space.

The MAP_SHARED and MAP_PRIVATE options describe the disposition of write references to the underlying object. If MAP_SHARED is specified, write references will change the memory object. If MAP_PRIVATE is specified, the initial write reference will create a private copy of the memory object page and redirect the mapping to the copy. The private copy is not created until the first write; until then, other users who have the object mapped MAP_SHARED can change the object. Either MAP_SHARED or MAP_PRIVATE must be specified, but not both. The mapping type is retained across fork(2).

When MAP_FIXED is set in the flags argument, the system is informed that the value of pa must be addr, exactly. If MAP_FIXED is set, mmap() may return (void *)-1 and set errno to EINVAL. If a MAP_FIXED request is successful, the mapping established by mmap() replaces any previous mappings for the process's pages in the range [pa, pa + len). The use of MAP_FIXED is discouraged, since it may prevent a system from making the most effective use of its resources.

When MAP_FIXED is set and the requested address is the same as previous mapping, the previous address is unmapped and the new mapping is created on top of the old one.

When MAP_FIXED is not set, the system uses addr to arrive at pa. The pa so chosen will be an area of the address space that the system deems suitable for a mapping of len bytes to the file. The mmap() function interprets an addr value of 0 as granting the system complete freedom in selecting pa, subject to constraints described below. A non-zero value of addr is taken to be a suggestion of a process address near which the mapping should be placed. When the system selects a value for pa, it will never place a mapping at address 0, nor will it replace any extant mapping, nor map into areas considered part of the potential data or stack "segments".

When MAP_ALIGN is set, the system is informed that the alignment of pa must be the same as addr. The alignment value in addr must be 0 or some power of two multiple of page size as returned by sysconf(3C). If addr is 0, the system will choose a suitable alignment.

The MAP_NORESERVE option specifies that no swap space be reserved for a mapping. Without this flag, the creation of a writable MAP_PRIVATE mapping reserves swap space equal to the size of the mapping; when the mapping is written into, the reserved space is employed to hold private copies of the data. A write into a MAP_NORESERVE mapping produces results which depend on the current availability of swap space in the system. If space is available, the write succeeds and a private copy of the written page is created; if space is not available, the write fails and a SIGBUS or SIGSEGV signal is delivered to the writing process. MAP_NORESERVE mappings are inherited across fork(); at the time of the fork(), swap space is reserved in the child for all private pages that currently exist in the parent; thereafter the child's mapping behaves as described above.

When MAP_ANON is set in flags, and fildes is set to -1, mmap() provides a direct path to return anonymous pages to the caller. This operation is equivalent to passing mmap() an open file descriptor on /dev/zero with MAP_ANON elided from the flags argument.

The MAP_TEXT option informs the system that the mapped region will be used primarily for executing instructions. This information can help the system better utilize MMU resources on some platforms. This flag is always passed by the dynamic linker when it maps text segments of shared objects. When the MAP_TEXT option is used for regular file mappings on some platforms, the system can choose a mapping size larger than the page size returned by sysconf(3C). The specific page sizes that are used depend on the platform and the alignment of the addr and len arguments. Several diffrent mapping sizes can be used to map the region with larger page sizes used in the parts of the region that meet alignment and size requirements for those page sizes.

The MAP_INITDATA option informs the system that the mapped region is an initialized data segment of an executable or shared object. When the MAP_INITDATA option is used for regular file mappings on some platforms, the system can choose a mapping size larger than the page size returned by sysconf(). The MAP_INITDATA option should be used only by the dynamic linker for mapping initialized data of shared objects.

The MAP_32BIT option informs the system that the search space for mapping assignment should be limited to the first 32 bits (4 Gbytes) of the caller's address space. This flag is accepted in both 32-bit and 64-bit process models, but does not alter the mapping strategy when used in a 32-bit process model.

The off argument is constrained to be aligned and sized according to the value returned by sysconf() when passed _SC_PAGESIZE or _SC_PAGE_SIZE. When MAP_FIXED is specified, the addr argument must also meet these constraints. The system performs mapping operations over whole pages. Thus, while the len argument need not meet a size or alignment constraint, the system will include, in any mapping operation, any partial page specified by the range [pa, pa + len).

The system will always zero-fill any partial page at the end of an object. Further, the system will never write out any modified portions of the last page of an object which are beyond its end. References to whole pages following the end of an object will result in the delivery of a SIGBUS or SIGSEGV signal. SIGBUS signals may also be delivered on various file system conditions, including quota exceeded errors.

The mmap() function adds an extra reference to the file associated with the file descriptor fildes which is not removed by a subsequent close(2) on that file descriptor. This reference is removed when there are no more mappings to the file by a call to the munmap(2) function.

The st_atime field of the mapped file may be marked for update at any time between the mmap() call and the corresponding munmap(2) call. The initial read or write reference to a mapped region will cause the file's st_atime field to be marked for update if it has not already been marked for update.

The st_ctime and st_mtime fields of a file that is mapped with MAP_SHARED and PROT_WRITE, will be marked for update at some point in the interval between a write reference to the mapped region and the next call to msync(3C) with MS_ASYNC or MS_SYNC for that portion of the file by any process. If there is no such call, these fields may be marked for update at any time after a write reference if the underlying file is modified as a result.

If the process calls mlockall(3C) with the MCL_FUTURE flag, the pages mapped by all future calls to mmap() will be locked in memory. In this case, if not enough memory could be locked, mmap() fails and sets errno to EAGAIN.

The mmap() function aligns based on the length of the mapping. When determining the amount of space to add to the address space, mmap() includes two 8-Kbyte pages, one at each end of the mapping that are not mapped and are therefore used as "red-zone" pages. Attempts to reference these pages result in access violations.

The size requested is incremented by the 16 Kbytes for these pages and is then subject to rounding constraints. The constraints are:

For 32-bit processes:

If length > 4 Mbytes
 round to 4-Mbyte multiple
elseif length > 512 Kbytes
 round to 512-Kbyte multiple
else
 round to 64-Kbyte multiple

For 64-bit processes:

If length > 4 Mbytes
 round to 4-Mbyte multiple
else
 round to 1-Mbyte multiple

The net result is that for a 32-bit process:

If an mmap() request is made for 4 Mbytes, it results in 4 Mbytes + 16 Kbytes and is rounded up to 8 Mbytes.

If an mmap() request is made for 512 Kbytes, it results in 512 Kbytes + 16 Kbytes and is rounded up to 1 Mbyte.

If an mmap() request is made for 1 Mbyte, it results in 1 Mbyte + 16 Kbytes and is rounded up to 1.5 Mbytes.

Each 8-Kbyte mmap request "consumes" 64 Kbytes of virtual address space.

To obtain maximal address space usage for a 32-bit process:

Combine 8-Kbyte requests up to a limit of 48 Kbytes.

Combine amounts over 48 Kbytes into 496-Kbyte chunks.

Combine amounts over 496 Kbytes into 4080-Kbyte chunks.

To obtain maximal address space usage for a 64-bit process:

Combine amounts < 1008 Kbytes into chunks <= 1008 Kbytes.

Combine amounts over 1008 Kbytes into 4080-Kbyte chunks.

The following is the output from a 32-bit program demonstrating this: map 8192 bytes: 0xff390000

map 8192 bytes: 0xff380000

64-Kbyte delta between starting addresses.

map 512 Kbytes: 0xff180000

map 512 Kbytes: 0xff080000

1-Mbyte delta between starting addresses.

map 496 Kbytes: 0xff000000

map 496 Kbytes: 0xfef80000

512-Kbyte delta between starting addresses

map 1 Mbyte: 0xfee00000

map 1 Mbyte: 0xfec80000

1536-Kbyte delta between starting addresses

map 1008 Kbytes: 0xfeb80000

map 1008 Kbytes: 0xfea80000

1-Mbyte delta between starting addresses

map 4 Mbytes: 0xfe400000

map 4 Mbytes: 0xfdc00000

8-Mbyte delta between starting addresses

map 4080 Kbytes: 0xfd800000

map 4080 Kbytes: 0xfd400000

4-Mbyte delta between starting addresses

The following is the output of the same program compiled as a 64-bit application: map 8192 bytes: 0xffffffff7f000000

map 8192 bytes: 0xffffffff7ef00000

1-Mbyte delta between starting addresses

map 512 Kbytes: 0xffffffff7ee00000

map 512 Kbytes: 0xffffffff7ed00000

1-Mbyte delta between starting addresses

map 496 Kbytes: 0xffffffff7ec00000

map 496 Kbytes: 0xffffffff7eb00000

1-Mbyte delta between starting addresses

map 1 Mbyte: 0xffffffff7e900000

map 1 Mbyte: 0xffffffff7e700000

2-Mbyte delta between starting addresses

map 1008 Kbytes: 0xffffffff7e600000

map 1008 Kbytes: 0xffffffff7e500000

1-Mbyte delta between starting addresses

map 4 Mbytes: 0xffffffff7e000000

map 4 Mbytes: 0xffffffff7d800000

8-Mbyte delta between starting addresses

map 4080 Kbytes: 0xffffffff7d400000

map 4080 Kbytes: 0xffffffff7d000000

4-Mbyte delta between starting addresses

RETURN VALUES

Upon successful completion, the mmap() function returns the address at which the mapping was placed (pa); otherwise, it returns a value of MAP_FAILED and sets errno to indicate the error. The symbol MAP_FAILED is defined in the header <sys/mman.h>. No successful return from mmap() will return the value MAP_FAILED.

If mmap() fails for reasons other than EBADF, EINVAL or ENOTSUP, some of the mappings in the address range starting at addr and continuing for len bytes may have been unmapped.

ERRORS

The mmap() function will fail if: EACCES

The fildes file descriptor is not open for read, regardless of the protection specified; or fildes is not open for write and PROT_WRITE was specified for a MAP_SHARED type mapping.

EAGAIN

The mapping could not be locked in memory. There was insufficient room to reserve swap space for the mapping.

EBADF

The fildes file descriptor is not open (and MAP_ANON was not specified).

EINVAL

The arguments addr (if MAP_FIXED was specified) or off are not multiples of the page size as returned by sysconf(). The argument addr (if MAP_ALIGN was specified) is not 0 or some power of two multiple of page size as returned by sysconf(3C). MAP_FIXED and MAP_ALIGN are both specified. The field in flags is invalid (neither MAP_PRIVATE or MAP_SHARED is set). The argument len has a value equal to 0. MAP_ANON was specified, but the file descriptor was not -1. MAP_TEXT was specified but PROT_EXEC was not. MAP_TEXT and MAP_INITDATA were both specified.

EMFILE

The number of mapped regions would exceed an implementation-dependent limit (per process or per system).

ENODEV

The fildes argument refers to an object for which mmap() is meaningless, such as a terminal.

ENOMEM

The MAP_FIXED option was specified and the range [addr, addr + len) exceeds that allowed for the address space of a process. The MAP_FIXED option was not specified and there is insufficient room in the address space to effect the mapping. The mapping could not be locked in memory, if required by mlockall(3C), because it would require more space than the system is able to supply. The composite size of len plus the lengths obtained from all previous calls to mmap() exceeds RLIMIT_VMEM (see getrlimit(2)).

ENOTSUP

The system does not support the combination of accesses requested in the prot argument.

ENXIO

Addresses in the range [off, off + len) are invalid for the object specified by fildes. The MAP_FIXED option was specified in flags and the combination of addr, len and off is invalid for the object specified by fildes.

EOVERFLOW

The file is a regular file and the value of off plus len exceeds the offset maximum establish in the open file description associated with fildes.

The mmap() function may fail if: EAGAIN

The file to be mapped is already locked using advisory or mandatory record locking. See fcntl(2).

USAGE

Use of mmap() may reduce the amount of memory available to other memory allocation functions.

MAP_ALIGN is useful to assure a properly aligned value of pa for subsequent use with memcntl(2) and the MC_HAT_ADVISE command. This is best used for large, long-lived, and heavily referenced regions. MAP_FIXED and MAP_ALIGN are always mutually-exclusive.

Use of MAP_FIXED may result in unspecified behavior in further use of brk(2), sbrk(2), malloc(3C), and shmat(2). The use of MAP_FIXED is discouraged, as it may prevent an implementation from making the most effective use of resources.

The application must ensure correct synchronization when using mmap() in conjunction with any other file access method, such as read(2) and write(2), standard input/output, and shmat(2).

The mmap() function has a transitional interface for 64-bit file offsets. See lf64(5).

The mmap() function allows access to resources using address space manipulations instead of the read()/write() interface. Once a file is mapped, all a process has to do to access it is use the data at the address to which the object was mapped.

Consider the following pseudo-code:

fildes = open(\|.\|.\|.)
lseek(fildes, offset, whence)
read(fildes, buf, len)
/* use data in buf */

The following is a rewrite using mmap():

fildes = open(\|.\|.\|.)
address = mmap((caddr_t) 0, len, (PROT_READ | PROT_WRITE),
 MAP_PRIVATE, fildes, offset)
/* use data at address */
ATTRIBUTES

See attributes(5) for descriptions of the following attributes:

ATTRIBUTE TYPE ATTRIBUTE VALUE
Interface Stability Standard
MT-Level Async-Signal-Safe
SEE ALSO

close(2), exec(2), fcntl(2), fork(2), getrlimit(2), memcntl(2), mmapobj(2), mprotect(2), munmap(2), shmat(2), lockf(3C), mlockall(3C), msync(3C), plock(3C), sysconf(3C), attributes(5), lf64(5), standards(5), null(7D), zero(7D)