.\" No copyright (1993) - Steven M. Schultz (sms@wlv.iipo.gtegsc.com) .\" @(#)vmf.3 3.0 (2.11BSD) 9/24/93 .\" .TH VMF 3 "September 24, 1993" .UC 6 .SH NAME vminit, vmopen, vmclose, vmmapseg, vmmodify, vmlock, vmunlock, vmclrseg, vmflush, \- disk based virtual memory routines .SH SYNOPSIS .nf .PP .ft B #include .PP .ft B struct vspace { int v_fd; /* file for swapping */ off_t v_foffset; /* offset for computing file addresses */ int v_maxsegno; /* number of segments in this space */ }; .PP .ft B struct vseg { /* structure of a segment in memory */ struct dlink s_link; /* for linking into lru list */ int s_segno; /* segment number */ struct vspace *s_vspace; /* which virtual space */ int s_lock_count; int s_flags; union { int _winfo[WORDSPERSEG]; /* the actual segment */ char _cinfo[BYTESPERSEG]; } v_un; }; #define s_winfo v_un._winfo #define s_cinfo v_un._cinfo .PP .ft B int vminit(nseg); int nseg; .PP .ft B int vmopen(space, filename); struct vspace *space; char *filename; .PP .ft B struct vseg *vmmapseg(space, segno); struct vspace *space; int segno; .PP .ft B void vmlock(seg); struct vseg *seg; .PP .ft B void vmunlock(seg); struct vseg *seg; .PP .ft B void vmclrseg(seg); struct vseg *seg; .PP .ft B void vmmodify(seg); .PP .ft B void vmflush(); .PP .ft B void vmclose(space); struct vspace *space; .fi .bp .SH DESCRIPTION This library provides a standard set of routines for managing large virtual memory spaces. It supports creation of multiple concurrent virtual spaces, mapping of virtual pages into real memory, a lock/unlock mechanism, and a capability to clear specified virtual pages. .PP .IR vminit\ - This routine initializes the virtual memory system by setting up the pool of in-memory segment buffers. The argument to this function is the number of memory segments to allocate (typically 4 to 8 but can be higher as long as memory can be malloc'd). It must be called before any other "libvmf" routine is called. .PP .IR vmopen\ - For each virtual space that a program uses, the program must allocate an instance of the space structure ('struct vspace'). This routine is used to initialize a virtual space structure using the specified address of a space structure and the name of the file that will serve as swap file for the space. If the second argument is \fBNULL\fP an invisible temporary file is used rather than a named (permanent) file. .PP .IR vmclose\ - This routine is used to close the UNIX file descriptor associated with the swap file for a virtual space. Any modified in-memory segments belonging to the specified address space are flushed to the paging file. .PP .IR vmmapseg\ - This routine is the primary interface to the virtual memory mechanism. It is executed with a specified virtual space address and a segment number (between 0 and 511), and returns a pointer to an in-memory page containing the specified segment. .PP .IR vmmodify\ - Whenever a program modifies the data of a segment, it is the program's responsibility to inform the virtual memory system of the modification. This function is also available as a macro (\fBVMMODIFY\fP) for use in-line. .PP .IR vmlock\ - This routine increments the lock count of the specified segment buffer. A buffer with a nonzero lock count is .I locked and cannot be swapped out. .PP .IR vmunlock\ - This routine decrements the lock count of the specified buffer. It is a serious error to decrement the count below zero (lock underflow). .PP .IR vmclrseg\ - This routine clears the user data area (page) of the specified segment buffer. .IR vmflush\ - This routine simply swaps out all segments that are marked as modified. .SH BUGS Not as transparent (or as fast) as a larger hardware address space. .PP There is no automatic segment crossing capability, the application must check if a .I virtual address crosses page/segment boundaries and perform a .I vmmapseg call. .SH SEE ALSO There is a nroff document (using the \-ms macros) in the \fIlibvmf\fP source directory which goes into more details about the \fBvm\fP functions.