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man pages section 2: System Calls Oracle Solaris 11.1 Information Library |
- manage swap space
#include <sys/stat.h> #include <sys/swap.h> int swapctl(int cmd, void *arg);
The swapctl() function adds, deletes, or returns information about swap resources. cmd specifies one of the following options contained in <sys/swap.h>:
SC_ADD /* add a resource for swapping */ SC_LIST /* list the resources for swapping */ SC_REMOVE /* remove a resource for swapping */ SC_GETNSWP /* return number of swap resources */
When SC_ADD or SC_REMOVE is specified, arg is a pointer to a swapres structure containing the following members:
char *sr_name; /* pathname of resource */ off_t sr_start; /* offset to start of swap area */ off_t sr_length; /* length of swap area */
The sr_start and sr_length members are specified in 512-byte blocks. A swap resource can only be removed by specifying the same values for the sr_start and sr_length members as were specified when it was added. Swap resources need not be removed in the order in which they were added.
When SC_LIST is specified, arg is a pointer to a swaptable structure containing the following members:
int swt_n; /* number of swapents following */ struct swapent swt_ent[]; /* array of swt_n swapents */
A swapent structure contains the following members:
char *ste_path; /* name of the swap file */ off_t ste_start; /* starting block for swapping */ off_t ste_length; /* length of swap area */ long ste_pages; /* number of pages for swapping */ long ste_free; /* number of ste_pages free */ long ste_flags; /* ST_INDEL bit set if swap file */ /* is now being deleted */
The SC_LIST function causes swapctl() to return at most swt_n entries. The return value of swapctl() is the number actually returned. The ST_INDEL bit is turned on in ste_flags if the swap file is in the process of being deleted.
When SC_GETNSWP is specified, swapctl() returns as its value the number of swap resources in use. arg is ignored for this operation.
The SC_ADD and SC_REMOVE functions will fail if calling process does not have appropriate privileges.
Upon successful completion, the function swapctl() returns a value of 0 for SC_ADD or SC_REMOVE, the number of struct swapent entries actually returned for SC_LIST, or the number of swap resources in use for SC_GETNSWP. Upon failure, the function swapctl() returns a value of -1 and sets errno to indicate an error.
Under the following conditions, the function swapctl() fails and sets errno to:
Part of the range specified by sr_start and sr_length is already being used for swapping on the specified resource (SC_ADD).
Either arg, sr_name, or ste_path points to an illegal address.
The specified function value is not valid, the path specified is not a swap resource (SC_REMOVE), part of the range specified by sr_start and sr_length lies outside the resource specified (SC_ADD), or the specified swap area is less than one page (SC_ADD).
The path specified for SC_ADD is a directory.
Too many symbolic links were encountered in translating the pathname provided to SC_ADD or SC_REMOVE.
The length of a component of the path specified for SC_ADD or SC_REMOVE exceeds NAME_MAX characters or the length of the path exceeds PATH_MAX characters and _POSIX_NO_TRUNC is in effect.
The pathname specified for SC_ADD or SC_REMOVE does not exist.
An insufficient number of struct swapent structures were provided to SC_LIST, or there were insufficient system storage resources available during an SC_ADD or SC_REMOVE, or the system would not have enough swap space after an SC_REMOVE.
The pathname specified for SC_ADD or SC_REMOVE is not a file or block special device.
Pathname provided to SC_ADD or SC_REMOVE contained a component in the path prefix that was not a directory.
The {PRIV_SYS_MOUNT} was not asserted in the effective set of the calling process.
The pathname specified for SC_ADD is a read-only file system.
Additionally, the swapctl() function will fail for 32-bit interfaces if:
The amount of swap space configured on the machine is too large to be represented by a 32-bit quantity.
Example 1 The usage of the SC_GETNSWP and SC_LIST commands.
The following example demonstrates the usage of the SC_GETNSWP and SC_LIST commands.
#include <sys/stat.h> #include <sys/swap.h> #include <stdio.h> #define MAXSTRSIZE 80 main(argc, argv) int argc; char *argv[]; { swaptbl_t *s; int i, n, num; char *strtab; /* string table for path names */ again: if ((num = swapctl(SC_GETNSWP, 0)) == -1) { perror("swapctl: GETNSWP"); exit(1); } if (num == 0) { fprintf(stderr, "No Swap Devices Configured\n"); exit(2); } /* allocate swaptable for num+1 entries */ if ((s = (swaptbl_t *) malloc(num * sizeof(swapent_t) + sizeof(struct swaptable))) == (void *) 0) { fprintf(stderr, "Malloc Failed\n"); exit(3); } /* allocate num+1 string holders */ if ((strtab = (char *) malloc((num + 1) * MAXSTRSIZE)) == (void *) 0) { fprintf(stderr, "Malloc Failed\n"); exit(3); } /* initialize string pointers */ for (i = 0; i < (num + 1); i++) { s->swt_ent[i].ste_path = strtab + (i * MAXSTRSIZE); } s->swt_n = num + 1; if ((n = swapctl(SC_LIST, s)) < 0) { perror("swapctl"); exit(1); } if (n > num) { /* more were added */ free(s); free(strtab); goto again; } for (i = 0; i < n; i++) printf("%s %ld\n", s->swt_ent[i].ste_path, s->swt_ent[i].ste_pages); }