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minix/minix/fs/procfs/root.c
David van Moolenbroek d91f738bd8 Kernel: export clock information on kernel page 
Please note that this information is for use by system services only!
The clock facility is not ready to be used directly by userland, and
thus, this kernel page extension is NOT part of the userland ABI.

For service programmers' convenience, change the prototype of the
getticks(3) to return the uptime clock value directly, since the call
can no longer fail.

Correct the sys_times(2) reply message to use the right field type
for the boot time.

Restructure the kernel internals a bit so as to have all the clock
stuff closer together.

Change-Id: Ifc050b7bd253aecbe46e3bd7d7cc75bd86e45555
2015-09-23 12:00:46 +00:00

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/* ProcFS - root.c - generators for static files in the root directory */
#include "inc.h"
#if defined (__i386__)
#include <machine/pci.h>
#endif
#include <minix/dmap.h>
static void root_hz(void);
static void root_uptime(void);
static void root_loadavg(void);
static void root_kinfo(void);
static void root_meminfo(void);
#if defined(__i386__)
static void root_pci(void);
#endif
static void root_dmap(void);
static void root_ipcvecs(void);
static void root_mounts(void);
struct file root_files[] = {
{ "hz", REG_ALL_MODE, (data_t) root_hz },
{ "uptime", REG_ALL_MODE, (data_t) root_uptime },
{ "loadavg", REG_ALL_MODE, (data_t) root_loadavg },
{ "kinfo", REG_ALL_MODE, (data_t) root_kinfo },
{ "meminfo", REG_ALL_MODE, (data_t) root_meminfo },
#if defined(__i386__)
{ "pci", REG_ALL_MODE, (data_t) root_pci },
#endif
{ "dmap", REG_ALL_MODE, (data_t) root_dmap },
#if defined(__i386__)
{ "cpuinfo", REG_ALL_MODE, (data_t) root_cpuinfo },
#endif
{ "ipcvecs", REG_ALL_MODE, (data_t) root_ipcvecs },
{ "mounts", REG_ALL_MODE, (data_t) root_mounts },
{ NULL, 0, NULL }
};
/*
* Print the system clock frequency.
*/
static void
root_hz(void)
{
buf_printf("%lu\n", (unsigned long)sys_hz());
}
/*
* Print load averages.
*/
static void
root_loadavg(void)
{
struct load loads[3];
ldiv_t avg[3];
if (procfs_getloadavg(loads, 3) != 3)
return;
avg[0] = ldiv(100L * loads[0].proc_load / loads[0].ticks, 100);
avg[1] = ldiv(100L * loads[1].proc_load / loads[1].ticks, 100);
avg[2] = ldiv(100L * loads[2].proc_load / loads[2].ticks, 100);
buf_printf("%ld.%02ld %ld.%02ld %ld.%02ld\n",
avg[0].quot, avg[0].rem, avg[1].quot, avg[1].rem,
avg[2].quot, avg[2].rem);
}
/*
* Print the current uptime.
*/
static void
root_uptime(void)
{
ldiv_t division;
division = ldiv(100L * getticks() / sys_hz(), 100L);
buf_printf("%ld.%0.2ld\n", division.quot, division.rem);
}
/*
* Print general kernel information.
*/
static void
root_kinfo(void)
{
struct kinfo kinfo;
if (sys_getkinfo(&kinfo) != OK)
return;
buf_printf("%u %u\n", kinfo.nr_procs, kinfo.nr_tasks);
}
/*
* Print general memory information.
*/
static void
root_meminfo(void)
{
struct vm_stats_info vsi;
if (vm_info_stats(&vsi) != OK)
return;
buf_printf("%u %lu %lu %lu %lu\n", vsi.vsi_pagesize, vsi.vsi_total,
vsi.vsi_free, vsi.vsi_largest, vsi.vsi_cached);
}
#if defined(__i386__)
/*
* Print information about PCI devices present in the system.
*/
static void
root_pci(void)
{
u16_t vid, did, subvid, subdid;
u8_t bcr, scr, pifr, rev;
char *slot_name, *dev_name;
int r, devind;
static int first = TRUE;
/* This should be taken care of behind the scenes by the PCI lib. */
if (first) {
pci_init();
first = FALSE;
}
/* Iterate over all devices, printing info for each of them. */
r = pci_first_dev(&devind, &vid, &did);
while (r == 1) {
slot_name = pci_slot_name(devind);
dev_name = pci_dev_name(vid, did);
bcr = pci_attr_r8(devind, PCI_BCR);
scr = pci_attr_r8(devind, PCI_SCR);
pifr = pci_attr_r8(devind, PCI_PIFR);
rev = pci_attr_r8(devind, PCI_REV);
subvid = pci_attr_r16(devind, PCI_SUBVID);
subdid = pci_attr_r16(devind, PCI_SUBDID);
buf_printf("%s %x/%x/%x/%x %04X:%04X:%04X:%04X %s\n",
slot_name ? slot_name : "-1.-1.-1.-1",
bcr, scr, pifr, rev,
vid, did, subvid, subdid,
dev_name ? dev_name : "");
r = pci_next_dev(&devind, &vid, &did);
}
}
#endif /* defined(__i386__) */
/*
* Print a list of drivers that have been assigned major device numbers.
*/
static void
root_dmap(void)
{
struct dmap dmap[NR_DEVICES];
int i;
if (getsysinfo(VFS_PROC_NR, SI_DMAP_TAB, dmap, sizeof(dmap)) != OK)
return;
for (i = 0; i < NR_DEVICES; i++) {
if (dmap[i].dmap_driver == NONE)
continue;
buf_printf("%u %s %u\n", i, dmap[i].dmap_label,
dmap[i].dmap_driver);
}
}
/*
* Print a list of IPC vectors with their addresses.
*/
static void
root_ipcvecs(void)
{
extern struct minix_ipcvecs _minix_ipcvecs;
/*
* Only print this if the kernel provides the info; otherwise binaries
* will be using their own in-libc vectors that are normal symbols in
* the binary.
*/
if (!(get_minix_kerninfo()->ki_flags & MINIX_KIF_IPCVECS))
return;
/*
* Print the vectors with an descriptive name and the additional (k)
* to distinguish them from regular symbols.
*/
#define PRINT_ENTRYPOINT(name) \
buf_printf("%08lx T %s(k)\n", \
(unsigned long)_minix_ipcvecs.name, #name)
PRINT_ENTRYPOINT(sendrec);
PRINT_ENTRYPOINT(send);
PRINT_ENTRYPOINT(notify);
PRINT_ENTRYPOINT(senda);
PRINT_ENTRYPOINT(sendnb);
PRINT_ENTRYPOINT(receive);
PRINT_ENTRYPOINT(do_kernel_call);
}
/*
* Print the list of mounted file systems.
*/
static void
root_mounts(void)
{
struct statvfs buf[NR_MNTS];
int i, count;
if ((count = getvfsstat(buf, sizeof(buf), ST_NOWAIT)) < 0)
return;
for (i = 0; i < count; i++) {
buf_printf("%s on %s type %s (%s)\n", buf[i].f_mntfromname,
buf[i].f_mntonname, buf[i].f_fstypename,
(buf[i].f_flag & ST_RDONLY) ? "ro" : "rw");
}
}
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