minix/commands/partition/partition.c

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/* partition 1.13 - Make a partition table Author: Kees J. Bot
* 27 Apr 1992
*/
#define nil ((void*)0)
#include <stdio.h>
#include <sys/types.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#include <minix/config.h>
#include <minix/const.h>
#include <minix/partition.h>
#include <minix/u64.h>
#include <machine/partition.h>
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#include <sys/stat.h>
#include <string.h>
#include <errno.h>
#include <sys/ioctl.h>
#include <limits.h>
#define SECTOR_SIZE 512
#define arraysize(a) (sizeof(a)/sizeof((a)[0]))
#define arraylimit(a) ((a) + arraysize(a))
char *arg0;
void report(const char *label)
{
fprintf(stderr, "%s: %s: %s\n", arg0, label, strerror(errno));
}
void fatal(const char *label)
{
report(label);
exit(1);
}
#ifndef makedev
#define minor(dev) (((dev) >> MINOR) & BYTE)
#define major(dev) (((dev) >> MAJOR) & BYTE)
#define makedev(major, minor) \
((dev_t) (((major) << MAJOR) | ((minor) << MINOR)))
#endif
int aflag; /* Add a new partition to the current table. */
int mflag; /* Minix rules, no need for alignment. */
int rflag; /* Report current partitions. */
int fflag; /* Force making a table even if too small. */
int nflag; /* Play-act, don't really do it. */
int cylinders, heads, sectors; /* Device's geometry */
int pad; /* Partitions must be padded. */
/* Descriptions of the device to divide and the partitions to make, including
* gaps between partitions.
*/
char *device;
struct part_entry primary, table[2 * NR_PARTITIONS + 1];
int npart;
/* Extra flags at construction time. */
#define EXPAND_FLAG 0x01 /* Add the remaining sectors to this one */
#define EXIST_FLAG 0x02 /* Use existing partition */
void find_exist(struct part_entry *exist, int sysind, int nr)
{
int f;
u16_t signature;
struct part_entry oldtable[NR_PARTITIONS];
int n, i;
u32_t minlow, curlow;
struct part_entry *cur;
char *nr_s[] = { "", "second ", "third ", "fourth" };
if ((f= open(device, O_RDONLY)) < 0
|| lseek(f, (off_t) PART_TABLE_OFF, SEEK_SET) == -1
|| read(f, oldtable, sizeof(oldtable)) < 0
|| read(f, &signature, sizeof(signature)) < 0
|| close(f) < 0
) fatal(device);
minlow= 0;
n= 0;
for (;;) {
curlow= -1;
cur= nil;
for (i= 0; i < NR_PARTITIONS; i++) {
if (signature == 0xAA55
&& oldtable[i].sysind != NO_PART
&& oldtable[i].lowsec >= minlow
&& oldtable[i].lowsec < curlow
) {
cur= &oldtable[i];
curlow= oldtable[i].lowsec;
}
}
if (n == nr) break;
n++;
minlow= curlow+1;
}
if (cur == nil || cur->sysind != sysind) {
fprintf(stderr,
"%s: Can't find a %sexisting partition of type 0x%02X\n",
arg0, nr_s[nr], sysind);
exit(1);
}
*exist = *cur;
}
void write_table(void)
{
int f;
u16_t signature= 0xAA55;
struct part_entry newtable[NR_PARTITIONS];
int i;
if (nflag) {
printf("(Table not written)\n");
return;
}
for (i= 0; i < NR_PARTITIONS; i++) newtable[i]= table[1 + 2*i];
if ((f= open(device, O_WRONLY)) < 0
|| lseek(f, (off_t) PART_TABLE_OFF, SEEK_SET) == -1
|| write(f, newtable, sizeof(newtable)) < 0
|| write(f, &signature, sizeof(signature)) < 0
|| close(f) < 0
) fatal(device);
}
void sec2dos(unsigned long sec, unsigned char *dos)
/* Translate a sector number into the three bytes DOS uses. */
{
unsigned secspcyl= heads * sectors;
unsigned cyl;
cyl= sec / secspcyl;
dos[2]= cyl;
dos[1]= ((sec % sectors) + 1) | ((cyl >> 2) & 0xC0);
dos[0]= (sec % secspcyl) / sectors;
}
void show_chs(unsigned long pos)
{
int cyl, head, sec;
if (pos == -1) {
cyl= head= 0;
sec= -1;
} else {
cyl= pos / (heads * sectors);
head= (pos / sectors) - (cyl * heads);
sec= pos % sectors;
}
printf(" %4d/%03d/%02d", cyl, head, sec);
}
void show_part(struct part_entry *p)
{
static int banner= 0;
int n;
n= p - table;
if ((n % 2) == 0) return;
if (!banner) {
printf(
"Part First Last Base Size Kb\n");
banner= 1;
}
printf("%3d ", (n-1) / 2);
show_chs(p->lowsec);
show_chs(p->lowsec + p->size - 1);
printf(" %8lu %8lu %7lu\n", p->lowsec, p->size, p->size / 2);
}
void usage(void)
{
fprintf(stderr,
"Usage: partition [-mfn] device [type:]length[+*] ...\n");
exit(1);
}
#define between(a, c, z) ((unsigned) ((c) - (a)) <= ((z) - (a)))
void parse(char *descr)
{
int seen= 0, sysind, flags, c;
unsigned long lowsec, size;
lowsec= 0;
if (strchr(descr, ':') == nil) {
/* A hole. */
if ((npart % 2) != 0) {
fprintf(stderr, "%s: Two holes can't be adjacent.\n",
arg0);
exit(1);
}
sysind= NO_PART;
seen|= 1;
} else {
/* A partition. */
if ((npart % 2) == 0) {
/* Need a hole before this partition. */
if (npart == 0) {
/* First hole contains the partition table. */
table[0].size= 1;
}
npart++;
}
sysind= 0;
for (;;) {
c= *descr++;
if (between('0', c, '9'))
c= (c - '0') + 0x0;
else
if (between('a', c, 'z'))
c= (c - 'a') + 0xa;
else
if (between('A', c, 'Z'))
c= (c - 'A') + 0xA;
else
break;
sysind= 0x10 * sysind + c;
seen|= 1;
}
if (c != ':') usage();
}
flags= 0;
if (strncmp(descr, "exist", 5) == 0 && (npart % 2) == 1) {
struct part_entry exist;
find_exist(&exist, sysind, (npart - 1) / 2);
sysind= exist.sysind;
lowsec= exist.lowsec;
size= exist.size;
flags |= EXIST_FLAG;
descr += 5;
c= *descr++;
seen|= 2;
} else {
size= 0;
while (between('0', (c= *descr++), '9')) {
size= 10 * size + (c - '0');
seen|= 2;
}
}
for (;;) {
if (c == '*')
flags|= ACTIVE_FLAG;
else
if (c == '+' && !(flags & EXIST_FLAG))
flags|= EXPAND_FLAG;
else
break;
c= *descr++;
}
if (seen != 3 || c != 0) usage();
if (npart == arraysize(table)) {
fprintf(stderr, "%s: too many partitions, only %d possible.\n",
arg0, NR_PARTITIONS);
exit(1);
}
table[npart].bootind= flags;
table[npart].sysind= sysind;
table[npart].lowsec= lowsec;
table[npart].size= size;
npart++;
}
void geometry(void)
/* Get the geometry of the drive the device lives on, and the base and size
* of the device.
*/
{
int fd;
struct partition geometry;
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struct stat sb;
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if ((fd= open(device, O_RDONLY)) < 0) fatal(device);
/* Get the geometry of the drive, and the device's base and size. */
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if (ioctl(fd, DIOCGETP, &geometry) < 0)
{
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/* Use the same fake geometry as part. */
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if (fstat(fd, &sb) < 0)
fatal(device);
geometry.base= cvul64(0);
geometry.size= cvul64(sb.st_size);
geometry.sectors= 32;
geometry.heads= 64;
geometry.cylinders= (sb.st_size-1)/SECTOR_SIZE/
(geometry.sectors*geometry.heads) + 1;
}
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close(fd);
primary.lowsec= div64u(geometry.base, SECTOR_SIZE);
primary.size= div64u(geometry.size, SECTOR_SIZE);
cylinders= geometry.cylinders;
heads= geometry.heads;
sectors= geometry.sectors;
/* Is this a primary partition table? If so then pad partitions. */
pad= (!mflag && primary.lowsec == 0);
}
void boundary(struct part_entry *pe, int exp)
/* Expand or reduce a primary partition to a track or cylinder boundary to
* avoid giving the fdisk's of simpler operating systems a fit.
*/
{
unsigned n;
n= !pad ? 1 : pe == &table[0] ? sectors : heads * sectors;
if (exp) pe->size+= n - 1;
pe->size= ((pe->lowsec + pe->size) / n * n) - pe->lowsec;
}
void distribute(void)
/* Fit the partitions onto the device. Try to start and end them on a
* cylinder boundary if so required. The first partition is to start on
* track 1, not on cylinder 1.
*/
{
struct part_entry *pe, *exp;
long count;
unsigned long base, size, oldbase;
do {
exp= nil;
base= primary.lowsec;
count= primary.size;
for (pe= table; pe < arraylimit(table); pe++) {
oldbase= base;
if (pe->bootind & EXIST_FLAG) {
if (base > pe->lowsec) {
fprintf(stderr,
"%s: fixed partition %d is preceded by too big partitions/holes\n",
arg0, ((pe - table) - 1) / 2);
exit(1);
}
exp= nil; /* XXX - Extend before? */
} else {
pe->lowsec= base;
boundary(pe, 1);
if (pe->bootind & EXPAND_FLAG) exp= pe;
}
base= pe->lowsec + pe->size;
count-= base - oldbase;
}
if (count < 0) {
if (fflag) break;
fprintf(stderr, "%s: %s is %ld sectors too small\n",
arg0, device, -count);
exit(1);
}
if (exp != nil) {
/* Add leftover space to the partition marked for
* expanding.
*/
exp->size+= count;
boundary(exp, 0);
exp->bootind&= ~EXPAND_FLAG;
}
} while (exp != nil);
for (pe= table; pe < arraylimit(table); pe++) {
if (pe->sysind == NO_PART) {
memset(pe, 0, sizeof(*pe));
} else {
sec2dos(pe->lowsec, &pe->start_head);
sec2dos(pe->lowsec + pe->size - 1, &pe->last_head);
pe->bootind&= ACTIVE_FLAG;
}
show_part(pe);
}
}
int main(int argc, char **argv)
{
int i;
if ((arg0= strrchr(argv[0], '/')) == nil) arg0= argv[0]; else arg0++;
i= 1;
while (i < argc && argv[i][0] == '-') {
char *opt= argv[i++] + 1;
if (opt[0] == '-' && opt[1] == 0) break;
while (*opt != 0) switch (*opt++) {
case 'a': aflag= 1; break;
case 'm': mflag= 1; break;
case 'r': rflag= 1; break;
case 'f': fflag= 1; break;
case 'n': nflag= 1; break;
default: usage();
}
}
if (rflag) {
if (aflag) usage();
if ((argc - i) != 1) usage();
fprintf(stderr, "%s: -r is not yet implemented\n");
exit(1);
} else {
if ((argc - i) < 1) usage();
if (aflag) fprintf(stderr, "%s: -a is not yet implemented\n");
device= argv[i++];
geometry();
while (i < argc) parse(argv[i++]);
distribute();
write_table();
}
exit(0);
}