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phunix/servers/vfs/dmap.c
Cristiano Giuffrida c5b309ff07 Merge of Wu's GSOC 09 branch (src.20090525.r4372.wu) 
Main changes:
- COW optimization for safecopy.
- safemap, a grant-based interface for sharing memory regions between processes.
- Integration with safemap and complete rework of DS, supporting new data types
  natively (labels, memory ranges, memory mapped ranges).
- For further information:
  http://wiki.minix3.org/en/SummerOfCode2009/MemoryGrants

Additional changes not included in the original Wu's branch:
- Fixed unhandled case in VM when using COW optimization for safecopy in case
  of a block that has already been shared as SMAP.
- Better interface and naming scheme for sys_saferevmap and ds_retrieve_map
  calls.
- Better input checking in syslib: check for page alignment when creating
  memory mapping grants.
- DS notifies subscribers when an entry is deleted.
- Documented the behavior of indirect grants in case of memory mapping.
- Test suite in /usr/src/test/safeperf|safecopy|safemap|ds/* reworked
  and extended.
- Minor fixes and general cleanup.
- TO-DO: Grant ids should be generated and managed the way endpoints are to make
sure grant slots are never misreused.
2010-01-14 15:24:16 +00:00

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/* This file contains the table with device <-> driver mappings. It also
* contains some routines to dynamically add and/ or remove device drivers
* or change mappings.
*/
#include "fs.h"
#include "fproc.h"
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <unistd.h>
#include <minix/com.h>
#include <minix/ds.h>
#include "param.h"
/* Some devices may or may not be there in the next table. */
#define DT(enable, opcl, io, driver, flags, label) \
{ (enable?(opcl):no_dev), (enable?(io):0), \
(enable?(driver):0), (flags), label, FALSE },
#define NC(x) (NR_CTRLRS >= (x))
/* The order of the entries here determines the mapping between major device
* numbers and tasks. The first entry (major device 0) is not used. The
* next entry is major device 1, etc. Character and block devices can be
* intermixed at random. The ordering determines the device numbers in /dev/.
* Note that FS knows the device number of /dev/ram/ to load the RAM disk.
* Also note that the major device numbers used in /dev/ are NOT the same as
* the process numbers of the device drivers.
*/
/*
Driver enabled Open/Cls I/O Driver # Flags Device File
-------------- -------- ------ ----------- ----- ------ ----
*/
struct dmap dmap[NR_DEVICES]; /* actual map */
PRIVATE struct dmap init_dmap[] = {
DT(1, no_dev, 0, 0, 0, "") /* 0 = not used */
DT(1, gen_opcl, gen_io, MEM_PROC_NR, 0, "memory") /* 1 = /dev/mem */
DT(0, no_dev, 0, 0, DMAP_MUTABLE, "") /* 2 = /dev/fd0 */
DT(0, no_dev, 0, 0, DMAP_MUTABLE, "") /* 3 = /dev/c0 */
DT(1, tty_opcl, gen_io, TTY_PROC_NR, 0, "") /* 4 = /dev/tty00 */
DT(1, ctty_opcl,ctty_io, TTY_PROC_NR, 0, "") /* 5 = /dev/tty */
DT(0, no_dev, 0, NONE, DMAP_MUTABLE, "") /* 6 = /dev/lp */
#if (MACHINE == IBM_PC)
DT(1, no_dev, 0, 0, DMAP_MUTABLE, "") /* 7 = /dev/ip */
DT(0, no_dev, 0, NONE, DMAP_MUTABLE, "") /* 8 = /dev/c1 */
DT(0, 0, 0, 0, DMAP_MUTABLE, "") /* 9 = not used */
DT(0, no_dev, 0, 0, DMAP_MUTABLE, "") /*10 = /dev/c2 */
DT(0, no_dev, 0, 0, DMAP_MUTABLE, "") /*11 = /dev/filter*/
DT(0, no_dev, 0, NONE, DMAP_MUTABLE, "") /*12 = /dev/c3 */
DT(0, no_dev, 0, NONE, DMAP_MUTABLE, "") /*13 = /dev/audio */
DT(0, 0, 0, 0, DMAP_MUTABLE, "") /*14 = not used */
DT(1, gen_opcl, gen_io, LOG_PROC_NR, 0, "") /*15 = /dev/klog */
DT(0, no_dev, 0, NONE, DMAP_MUTABLE, "") /*16 = /dev/random*/
DT(0, 0, 0, 0, DMAP_MUTABLE, "") /*17 = not used */
#endif /* IBM_PC */
};
/*===========================================================================*
* do_mapdriver *
*===========================================================================*/
PUBLIC int do_mapdriver()
{
int r, force, major, proc_nr_n;
unsigned long tasknr;
vir_bytes label_vir;
size_t label_len;
char label[LABEL_MAX];
if (!super_user)
{
printf("FS: unauthorized call of do_mapdriver by proc %d\n",
who_e);
return(EPERM); /* only su (should be only RS or some drivers)
* may call do_mapdriver.
*/
}
/* Get the label */
label_vir= (vir_bytes)m_in.md_label;
label_len= m_in.md_label_len;
if (label_len+1 > sizeof(label))
{
printf("vfs:do_mapdriver: label too long\n");
return EINVAL;
}
r= sys_vircopy(who_e, D, label_vir, SELF, D, (vir_bytes)label,
label_len);
if (r != OK)
{
printf("vfs:do_mapdriver: sys_vircopy failed: %d\n", r);
return EINVAL;
}
label[label_len]= '\0';
r= ds_retrieve_label_num(label, &tasknr);
if (r != OK)
{
printf("vfs:do_mapdriver: ds doesn't know '%s'\n", label);
return EINVAL;
}
if (isokendpt(tasknr, &proc_nr_n) != OK)
{
printf("vfs:do_mapdriver: bad endpoint %d\n", tasknr);
return(EINVAL);
}
/* Try to update device mapping. */
major= m_in.md_major;
force= m_in.md_force;
r= map_driver(label, major, tasknr, m_in.md_style, force);
if (r == OK)
{
/* If a driver has completed its exec(), it can be announced
* to be up.
*/
if(force || fproc[proc_nr_n].fp_execced) {
dev_up(major);
} else {
dmap[major].dmap_flags |= DMAP_BABY;
}
}
return(r);
}
/*===========================================================================*
* map_driver *
*===========================================================================*/
PUBLIC int map_driver(label, major, proc_nr_e, style, force)
char *label; /* name of the driver */
int major; /* major number of the device */
endpoint_t proc_nr_e; /* process number of the driver */
int style; /* style of the device */
int force;
{
/* Set a new device driver mapping in the dmap table. Given that correct
* arguments are given, this only works if the entry is mutable and the
* current driver is not busy. If the proc_nr is set to NONE, we're supposed
* to unmap it.
*
* Normal error codes are returned so that this function can be used from
* a system call that tries to dynamically install a new driver.
*/
int proc_nr_n;
size_t len;
struct dmap *dp;
/* Get pointer to device entry in the dmap table. */
if (major < 0 || major >= NR_DEVICES) return(ENODEV);
dp = &dmap[major];
/* Check if we're supposed to unmap it. If so, do it even
* if busy or unmutable, as unmap is called when driver has
* exited.
*/
if(proc_nr_e == NONE) {
dp->dmap_opcl = no_dev;
dp->dmap_io = no_dev_io;
dp->dmap_driver = NONE;
dp->dmap_flags = DMAP_MUTABLE; /* When gone, not busy or reserved. */
return(OK);
}
/* See if updating the entry is allowed. */
if (! (dp->dmap_flags & DMAP_MUTABLE)) return(EPERM);
if (dp->dmap_flags & DMAP_BUSY) return(EBUSY);
if (!force)
{
/* Check process number of new driver. */
if (isokendpt(proc_nr_e, &proc_nr_n) != OK)
return(EINVAL);
}
if (label != NULL) {
len= strlen(label);
if (len+1 > sizeof(dp->dmap_label))
panic(__FILE__, "map_driver: label too long", len);
strcpy(dp->dmap_label, label);
}
/* Try to update the entry. */
switch (style) {
case STYLE_DEV: dp->dmap_opcl = gen_opcl; break;
case STYLE_TTY: dp->dmap_opcl = tty_opcl; break;
case STYLE_CLONE: dp->dmap_opcl = clone_opcl; break;
default: return(EINVAL);
}
dp->dmap_io = gen_io;
dp->dmap_driver = proc_nr_e;
if (dp->dmap_async_driver)
dp->dmap_io= asyn_io;
return(OK);
}
/*===========================================================================*
* dmap_unmap_by_endpt *
*===========================================================================*/
PUBLIC void dmap_unmap_by_endpt(int proc_nr_e)
{
int i, r;
for (i=0; i<NR_DEVICES; i++)
if(dmap[i].dmap_driver && dmap[i].dmap_driver == proc_nr_e)
if((r=map_driver(NULL, i, NONE, 0, 0)) != OK)
printf("FS: unmap of p %d / d %d failed: %d\n", proc_nr_e,i,r);
return;
}
/*===========================================================================*
* build_dmap *
*===========================================================================*/
PUBLIC void build_dmap()
{
/* Initialize the table with all device <-> driver mappings. Then, map
* the boot driver to a controller and update the dmap table to that
* selection. The boot driver and the controller it handles are set at
* the boot monitor.
*/
int i;
struct dmap *dp;
/* Build table with device <-> driver mappings. */
for (i=0; i<NR_DEVICES; i++) {
dp = &dmap[i];
if (i < sizeof(init_dmap)/sizeof(struct dmap) &&
init_dmap[i].dmap_opcl != no_dev) { /* a preset driver */
dp->dmap_opcl = init_dmap[i].dmap_opcl;
dp->dmap_io = init_dmap[i].dmap_io;
dp->dmap_driver = init_dmap[i].dmap_driver;
dp->dmap_flags = init_dmap[i].dmap_flags;
strcpy(dp->dmap_label, init_dmap[i].dmap_label);
dp->dmap_async_driver= FALSE;
} else { /* no default */
dp->dmap_opcl = no_dev;
dp->dmap_io = no_dev_io;
dp->dmap_driver = NONE;
dp->dmap_flags = DMAP_MUTABLE;
}
}
dmap[13].dmap_async_driver= TRUE; /* Audio */
dmap[15].dmap_async_driver= TRUE; /* Log */
dmap[15].dmap_io= asyn_io;
dmap[16].dmap_async_driver= TRUE; /* Random */
}
/*===========================================================================*
* dmap_driver_match *
*===========================================================================*/
PUBLIC int dmap_driver_match(endpoint_t proc, int major)
{
if (major < 0 || major >= NR_DEVICES) return(0);
if(dmap[major].dmap_driver != NONE && dmap[major].dmap_driver == proc)
return 1;
return 0;
}
/*===========================================================================*
* dmap_endpt_up *
*===========================================================================*/
PUBLIC void dmap_endpt_up(int proc_e)
{
int i;
for (i=0; i<NR_DEVICES; i++) {
if(dmap[i].dmap_driver != NONE
&& dmap[i].dmap_driver == proc_e
&& (dmap[i].dmap_flags & DMAP_BABY)) {
dmap[i].dmap_flags &= ~DMAP_BABY;
dev_up(i);
}
}
return;
}
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