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|
/* PPP for Linux
*
* Michael Callahan <callahan@maths.ox.ac.uk>
* Al Longyear <longyear@netcom.com>
* Extensively rewritten by Paul Mackerras <paulus@cs.anu.edu.au>
*
* ==FILEVERSION 990510==
*
* NOTE TO MAINTAINERS:
* If you modify this file at all, please set the number above to the
* date of the modification as YYMMDD (year month day).
* ppp.c is shipped with a PPP distribution as well as with the kernel;
* if everyone increases the FILEVERSION number above, then scripts
* can do the right thing when deciding whether to install a new ppp.c
* file. Don't change the format of that line otherwise, so the
* installation script can recognize it.
*/
/*
Sources:
slip.c
RFC1331: The Point-to-Point Protocol (PPP) for the Transmission of
Multi-protocol Datagrams over Point-to-Point Links
RFC1332: IPCP
ppp-2.0
Flags for this module (any combination is acceptable for testing.):
OPTIMIZE_FLAG_TIME - Number of jiffies to force sending of leading flag
character. This is normally set to ((HZ * 3) / 2).
This is 1.5 seconds. If zero then the leading
flag is always sent.
CHECK_CHARACTERS - Enable the checking on all received characters for
8 data bits, no parity. This adds a small amount of
processing for each received character.
*/
#define OPTIMIZE_FLAG_TIME ((HZ * 3)/2)
#define CHECK_CHARACTERS 1
#define PPP_MAX_RCV_QLEN 32 /* max # frames we queue up for pppd */
/* $Id: ppp.c,v 1.24 1999/03/31 06:07:57 paulus Exp $ */
#include <linux/config.h>
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/types.h>
#include <linux/fcntl.h>
#include <linux/interrupt.h>
#include <linux/ptrace.h>
#include <linux/poll.h>
#include <linux/in.h>
#include <linux/malloc.h>
#include <linux/tty.h>
#include <linux/errno.h>
#include <linux/sched.h> /* to get the struct task_struct */
#include <linux/string.h> /* used in new tty drivers */
#include <linux/signal.h> /* used in new tty drivers */
#include <asm/system.h>
#include <asm/bitops.h>
#include <asm/uaccess.h>
#include <linux/if.h>
#include <linux/if_ether.h>
#include <linux/netdevice.h>
#include <linux/skbuff.h>
#include <linux/inet.h>
#include <linux/ioctl.h>
#include <linux/ip.h>
#include <linux/tcp.h>
#include <linux/if_arp.h>
#include <net/slhc_vj.h>
#define fcstab ppp_crc16_table /* Name of the table in the kernel */
#include <linux/ppp_defs.h>
#include <linux/socket.h>
#include <linux/if_ppp.h>
#include <linux/if_pppvar.h>
#include <linux/ppp-comp.h>
#ifdef CONFIG_KMOD
#include <linux/kmod.h>
#endif
/*
* Local functions
*/
#ifdef CONFIG_MODULES
static int ppp_register_compressor (struct compressor *cp);
static void ppp_unregister_compressor (struct compressor *cp);
#endif
static void ppp_async_init(struct ppp *ppp);
static void ppp_async_release(struct ppp *ppp);
static int ppp_tty_sync_push(struct ppp *ppp);
static int ppp_tty_push(struct ppp *ppp);
static int ppp_async_encode(struct ppp *ppp);
static int ppp_async_send(struct ppp *, struct sk_buff *);
static int ppp_sync_send(struct ppp *, struct sk_buff *);
static void ppp_tty_flush_output(struct ppp *);
static int ppp_ioctl(struct ppp *, unsigned int, unsigned long);
static int ppp_set_compression (struct ppp *ppp, struct ppp_option_data *odp);
static void ppp_proto_ccp(struct ppp *ppp, __u8 *dp, int len, int rcvd);
static void ppp_ccp_closed(struct ppp *ppp);
static int ppp_receive_frame(struct ppp *, struct sk_buff *);
static void ppp_receive_error(struct ppp *ppp);
static void ppp_output_wakeup(struct ppp *ppp);
static void ppp_send_ctrl(struct ppp *ppp, struct sk_buff *skb);
static void ppp_send_frame(struct ppp *ppp, struct sk_buff *skb);
static void ppp_send_frames(struct ppp *ppp);
static struct sk_buff *ppp_vj_compress(struct ppp *ppp, struct sk_buff *skb);
static struct ppp *ppp_find (int pid_value);
static struct ppp *ppp_alloc (void);
static void ppp_generic_init(struct ppp *ppp);
static void ppp_release(struct ppp *ppp);
static void ppp_print_buffer (const char *, const __u8 *, int);
static struct compressor *find_compressor (int type);
#ifndef OPTIMIZE_FLAG_TIME
#define OPTIMIZE_FLAG_TIME 0
#endif
/*
* Parameters which may be changed via insmod.
*/
static int flag_time = OPTIMIZE_FLAG_TIME;
MODULE_PARM(flag_time, "i");
#define CHECK_PPP_MAGIC(ppp) do { \
if (ppp->magic != PPP_MAGIC) { \
printk(ppp_magic_warn, ppp, __FILE__, __LINE__); \
} \
} while (0)
#define CHECK_PPP(a) do { \
CHECK_PPP_MAGIC(ppp); \
if (!ppp->inuse) { \
printk(ppp_warning, __LINE__); \
return a; \
} \
} while (0)
#define CHECK_PPP_VOID() do { \
CHECK_PPP_MAGIC(ppp); \
if (!ppp->inuse) { \
printk(ppp_warning, __LINE__); \
return; \
} \
} while (0)
#define tty2ppp(tty) ((struct ppp *) ((tty)->disc_data))
#define dev2ppp(dev) ((struct ppp *) ((dev)->priv))
#define ppp2tty(ppp) ((ppp)->tty)
#define ppp2dev(ppp) (&(ppp)->dev)
static struct ppp *ppp_list = NULL;
static struct ppp *ppp_last = NULL;
/* Define these strings only once for all macro invocations */
static char ppp_warning[] = KERN_WARNING "PPP: ALERT! not INUSE! %d\n";
static char ppp_magic_warn[] = KERN_WARNING "bad magic for ppp %p at %s:%d\n";
static char szVersion[] = PPP_VERSION;
EXPORT_SYMBOL(ppp_register_compressor);
EXPORT_SYMBOL(ppp_unregister_compressor);
/*************************************************************
* LINE DISCIPLINE SUPPORT
* The following code implements the PPP line discipline
* and supports using PPP on an async serial line.
*************************************************************/
#define in_xmap(ppp,c) (ppp->xmit_async_map[(c) >> 5] & (1 << ((c) & 0x1f)))
#define in_rmap(ppp,c) ((((unsigned int) (__u8) (c)) < 0x20) && \
ppp->recv_async_map & (1 << (c)))
/*
* TTY callbacks
*/
static ssize_t ppp_tty_read(struct tty_struct *, struct file *, __u8 *,
size_t);
static ssize_t ppp_tty_write(struct tty_struct *, struct file *, const __u8 *,
size_t);
static int ppp_tty_ioctl(struct tty_struct *, struct file *, unsigned int,
unsigned long);
static unsigned int ppp_tty_poll(struct tty_struct *tty, struct file *filp,
poll_table * wait);
static int ppp_tty_open (struct tty_struct *);
static void ppp_tty_close (struct tty_struct *);
static int ppp_tty_room (struct tty_struct *tty);
static void ppp_tty_receive (struct tty_struct *tty, const __u8 * cp,
char *fp, int count);
static void ppp_tty_wakeup (struct tty_struct *tty);
__u16 ppp_crc16_table[256] =
{
0x0000, 0x1189, 0x2312, 0x329b, 0x4624, 0x57ad, 0x6536, 0x74bf,
0x8c48, 0x9dc1, 0xaf5a, 0xbed3, 0xca6c, 0xdbe5, 0xe97e, 0xf8f7,
0x1081, 0x0108, 0x3393, 0x221a, 0x56a5, 0x472c, 0x75b7, 0x643e,
0x9cc9, 0x8d40, 0xbfdb, 0xae52, 0xdaed, 0xcb64, 0xf9ff, 0xe876,
0x2102, 0x308b, 0x0210, 0x1399, 0x6726, 0x76af, 0x4434, 0x55bd,
0xad4a, 0xbcc3, 0x8e58, 0x9fd1, 0xeb6e, 0xfae7, 0xc87c, 0xd9f5,
0x3183, 0x200a, 0x1291, 0x0318, 0x77a7, 0x662e, 0x54b5, 0x453c,
0xbdcb, 0xac42, 0x9ed9, 0x8f50, 0xfbef, 0xea66, 0xd8fd, 0xc974,
0x4204, 0x538d, 0x6116, 0x709f, 0x0420, 0x15a9, 0x2732, 0x36bb,
0xce4c, 0xdfc5, 0xed5e, 0xfcd7, 0x8868, 0x99e1, 0xab7a, 0xbaf3,
0x5285, 0x430c, 0x7197, 0x601e, 0x14a1, 0x0528, 0x37b3, 0x263a,
0xdecd, 0xcf44, 0xfddf, 0xec56, 0x98e9, 0x8960, 0xbbfb, 0xaa72,
0x6306, 0x728f, 0x4014, 0x519d, 0x2522, 0x34ab, 0x0630, 0x17b9,
0xef4e, 0xfec7, 0xcc5c, 0xddd5, 0xa96a, 0xb8e3, 0x8a78, 0x9bf1,
0x7387, 0x620e, 0x5095, 0x411c, 0x35a3, 0x242a, 0x16b1, 0x0738,
0xffcf, 0xee46, 0xdcdd, 0xcd54, 0xb9eb, 0xa862, 0x9af9, 0x8b70,
0x8408, 0x9581, 0xa71a, 0xb693, 0xc22c, 0xd3a5, 0xe13e, 0xf0b7,
0x0840, 0x19c9, 0x2b52, 0x3adb, 0x4e64, 0x5fed, 0x6d76, 0x7cff,
0x9489, 0x8500, 0xb79b, 0xa612, 0xd2ad, 0xc324, 0xf1bf, 0xe036,
0x18c1, 0x0948, 0x3bd3, 0x2a5a, 0x5ee5, 0x4f6c, 0x7df7, 0x6c7e,
0xa50a, 0xb483, 0x8618, 0x9791, 0xe32e, 0xf2a7, 0xc03c, 0xd1b5,
0x2942, 0x38cb, 0x0a50, 0x1bd9, 0x6f66, 0x7eef, 0x4c74, 0x5dfd,
0xb58b, 0xa402, 0x9699, 0x8710, 0xf3af, 0xe226, 0xd0bd, 0xc134,
0x39c3, 0x284a, 0x1ad1, 0x0b58, 0x7fe7, 0x6e6e, 0x5cf5, 0x4d7c,
0xc60c, 0xd785, 0xe51e, 0xf497, 0x8028, 0x91a1, 0xa33a, 0xb2b3,
0x4a44, 0x5bcd, 0x6956, 0x78df, 0x0c60, 0x1de9, 0x2f72, 0x3efb,
0xd68d, 0xc704, 0xf59f, 0xe416, 0x90a9, 0x8120, 0xb3bb, 0xa232,
0x5ac5, 0x4b4c, 0x79d7, 0x685e, 0x1ce1, 0x0d68, 0x3ff3, 0x2e7a,
0xe70e, 0xf687, 0xc41c, 0xd595, 0xa12a, 0xb0a3, 0x8238, 0x93b1,
0x6b46, 0x7acf, 0x4854, 0x59dd, 0x2d62, 0x3ceb, 0x0e70, 0x1ff9,
0xf78f, 0xe606, 0xd49d, 0xc514, 0xb1ab, 0xa022, 0x92b9, 0x8330,
0x7bc7, 0x6a4e, 0x58d5, 0x495c, 0x3de3, 0x2c6a, 0x1ef1, 0x0f78
};
EXPORT_SYMBOL(ppp_crc16_table);
#ifdef CHECK_CHARACTERS
static __u32 paritytab[8] =
{
0x96696996, 0x69969669, 0x69969669, 0x96696996,
0x69969669, 0x96696996, 0x96696996, 0x69969669
};
#endif
/*
* This procedure is called at initialization time to register
* the PPP line discipline.
*/
static int
ppp_first_time(void)
{
static struct tty_ldisc ppp_ldisc;
int status;
printk(KERN_INFO
"PPP: version %s (demand dialling)"
"\n", szVersion);
#ifndef MODULE /* slhc module logic has its own copyright announcement */
printk(KERN_INFO
"TCP compression code copyright 1989 Regents of the "
"University of California\n");
#endif
/*
* Register the tty discipline
*/
(void) memset (&ppp_ldisc, 0, sizeof (ppp_ldisc));
ppp_ldisc.magic = TTY_LDISC_MAGIC;
ppp_ldisc.name = "ppp";
ppp_ldisc.open = ppp_tty_open;
ppp_ldisc.close = ppp_tty_close;
ppp_ldisc.read = ppp_tty_read;
ppp_ldisc.write = ppp_tty_write;
ppp_ldisc.ioctl = ppp_tty_ioctl;
ppp_ldisc.poll = ppp_tty_poll;
ppp_ldisc.receive_room = ppp_tty_room;
ppp_ldisc.receive_buf = ppp_tty_receive;
ppp_ldisc.write_wakeup = ppp_tty_wakeup;
status = tty_register_ldisc (N_PPP, &ppp_ldisc);
if (status == 0)
printk(KERN_INFO "PPP line discipline registered.\n");
else
printk(KERN_ERR "error registering line discipline: %d\n",
status);
return status;
}
#ifndef MODULE
/*
* Called at boot time if the PPP driver is compiled into the kernel.
*/
int
ppp_init(struct device *dev)
{
static int first_time = 1;
int answer = 0;
if (first_time) {
first_time = 0;
answer = ppp_first_time();
}
if (answer == 0)
answer = -ENODEV;
return answer;
}
#endif
/*
* Initialize the async-specific parts of the ppp structure.
*/
static void
ppp_async_init(struct ppp *ppp)
{
ppp->escape = 0;
ppp->toss = 0xE0;
ppp->tty_pushing = 0;
memset (ppp->xmit_async_map, 0, sizeof (ppp->xmit_async_map));
ppp->xmit_async_map[0] = 0xffffffff;
ppp->xmit_async_map[3] = 0x60000000;
ppp->recv_async_map = 0xffffffff;
ppp->tpkt = NULL;
ppp->tfcs = PPP_INITFCS;
ppp->optr = ppp->obuf;
ppp->olim = ppp->obuf;
ppp->rpkt = NULL;
ppp->rfcs = PPP_INITFCS;
ppp->tty = NULL;
ppp->backup_tty = NULL;
ppp->bytes_sent = 0;
ppp->bytes_rcvd = 0;
}
/*
* Clean up the async-specific parts of the ppp structure.
*/
static void
ppp_async_release(struct ppp *ppp)
{
struct sk_buff *skb;
if ((skb = ppp->rpkt) != NULL)
kfree_skb(skb);
ppp->rpkt = NULL;
if ((skb = ppp->tpkt) != NULL)
kfree_skb(skb);
ppp->tpkt = NULL;
}
/*
* TTY callback.
*
* Called when the tty discipline is switched to PPP.
*/
static int
ppp_tty_open (struct tty_struct *tty)
{
struct ppp *ppp;
/*
* Allocate a ppp structure to use.
*/
tty->disc_data = NULL;
ppp = ppp_find(current->pid);
if (ppp != NULL) {
/*
* If we are taking over a ppp unit which is currently
* connected to a loopback pty, there's not much to do.
*/
CHECK_PPP(-EINVAL);
} else {
ppp = ppp_alloc();
if (ppp == NULL) {
printk(KERN_ERR "ppp_alloc failed\n");
return -ENFILE;
}
/*
* Initialize the control block
*/
ppp_generic_init(ppp);
ppp_async_init(ppp);
MOD_INC_USE_COUNT;
}
tty->disc_data = ppp;
ppp->tty = tty;
/*
* Flush any pending characters in the driver
*/
if (tty->driver.flush_buffer)
tty->driver.flush_buffer (tty);
return ppp->line;
}
/*
* TTY callback.
*
* Called when the line discipline is changed to something
* else, the tty is closed, or the tty detects a hangup.
*/
static void
ppp_tty_close (struct tty_struct *tty)
{
struct ppp *ppp = tty2ppp(tty);
if (ppp == NULL)
return;
tty->disc_data = NULL;
if (ppp->magic != PPP_MAGIC) {
printk(KERN_WARNING "ppp_tty_close: bogus\n");
return;
}
if (!ppp->inuse) {
printk(KERN_WARNING "ppp_tty_close: not inuse\n");
ppp->tty = ppp->backup_tty = 0;
return;
}
if (tty == ppp->backup_tty)
ppp->backup_tty = 0;
if (tty != ppp->tty)
return;
if (ppp->backup_tty) {
ppp->tty = ppp->backup_tty;
if (ppp_tty_push(ppp))
ppp_output_wakeup(ppp);
wake_up_interruptible(&ppp->read_wait);
} else {
ppp->tty = 0;
ppp->sc_xfer = 0;
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO "ppp: channel %s closing.\n",
ppp2dev(ppp)->name);
ppp_async_release(ppp);
ppp_release(ppp);
MOD_DEC_USE_COUNT;
}
}
/*
* Read a PPP frame from the rcv_q list,
* waiting if necessary
*/
static ssize_t
ppp_tty_read(struct tty_struct *tty, struct file *file, __u8 * buf,
size_t nr)
{
struct ppp *ppp = tty2ppp (tty);
struct sk_buff *skb;
ssize_t len, err;
/*
* Validate the pointers
*/
if (!ppp)
return -EIO;
CHECK_PPP(-ENXIO);
/*
* Before we attempt to write the frame to the user, ensure that the
* user has access to the pages for the total buffer length.
*/
err = verify_area(VERIFY_WRITE, buf, nr);
if (err != 0)
return (err);
/*
* Wait for a frame to arrive if necessary.
* We increment the module use count so that the module
* can't go away while we're sleeping.
*/
MOD_INC_USE_COUNT;
skb = NULL;
for (;;) {
ppp = tty2ppp(tty);
err = 0;
if (!ppp || ppp->magic != PPP_MAGIC || !ppp->inuse
|| tty != ppp->tty)
break;
skb = skb_dequeue(&ppp->rcv_q);
if (skb != 0)
break;
/*
* If no frame is available, return -EAGAIN or wait.
*/
err = -EAGAIN;
if (file->f_flags & O_NONBLOCK)
break;
interruptible_sleep_on(&ppp->read_wait);
err = -EINTR;
if (signal_pending(current))
break;
}
MOD_DEC_USE_COUNT;
if (skb == 0)
return err;
/*
* Ensure that the frame will fit within the caller's buffer.
* If not, just discard the frame.
*/
len = skb->len;
if (len > nr) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG
"ppp: read of %lu bytes too small for %ld "
"frame\n", (unsigned long) nr, (long) len);
ppp->stats.ppp_ierrors++;
err = -EOVERFLOW;
goto out;
}
/*
* Copy the received data from the buffer to the caller's area.
*/
err = len;
if (copy_to_user(buf, skb->data, len))
err = -EFAULT;
out:
kfree_skb(skb);
return err;
}
/*
* Writing to a tty in ppp line discipline sends a PPP frame.
* Used by pppd to send control packets (LCP, etc.).
*/
static ssize_t
ppp_tty_write(struct tty_struct *tty, struct file *file, const __u8 * data,
size_t count)
{
struct ppp *ppp = tty2ppp (tty);
__u8 *new_data;
struct sk_buff *skb;
/*
* Verify the pointers.
*/
if (!ppp)
return -EIO;
if (ppp->magic != PPP_MAGIC)
return -EIO;
CHECK_PPP(-ENXIO);
/*
* Ensure that the caller does not wish to send too much.
*/
if (count > PPP_MTU + PPP_HDRLEN) {
if (ppp->flags & SC_DEBUG)
printk(KERN_WARNING
"ppp_tty_write: truncating user packet "
"from %lu to mtu %d\n", (unsigned long) count,
PPP_MTU + PPP_HDRLEN);
count = PPP_MTU + PPP_HDRLEN;
}
/*
* Allocate a buffer for the data and fetch it from the user space.
*/
skb = alloc_skb(count, GFP_KERNEL);
if (skb == NULL) {
printk(KERN_ERR "ppp_tty_write: no memory\n");
return 0;
}
new_data = skb_put(skb, count);
/*
* Retrieve the user's buffer
*/
if (copy_from_user(new_data, data, count)) {
kfree_skb(skb);
return -EFAULT;
}
/*
* Send the frame
*/
ppp_send_ctrl(ppp, skb);
return (ssize_t) count;
}
/*
* Process the IOCTL call for the tty device.
* Only the ioctls that relate to using ppp on async serial lines
* are processed here; the rest are handled by ppp_ioctl.
*/
static int
ppp_tty_ioctl (struct tty_struct *tty, struct file * file,
unsigned int param2, unsigned long param3)
{
struct ppp *ppp = tty2ppp (tty);
register int temp_i = 0;
int error = -EFAULT;
/*
* Verify the status of the PPP device.
*/
if (!ppp || ppp->magic != PPP_MAGIC || !ppp->inuse)
return -ENXIO;
/*
* The user must have an euid of root to do these requests.
*/
if (!capable(CAP_NET_ADMIN))
return -EPERM;
switch (param2) {
case PPPIOCGASYNCMAP:
/*
* Retrieve the transmit async map
*/
if (put_user(ppp->xmit_async_map[0], (int *) param3))
break;
error = 0;
break;
case PPPIOCSASYNCMAP:
/*
* Set the transmit async map
*/
if (get_user(temp_i, (int *) param3))
break;
ppp->xmit_async_map[0] = temp_i;
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO
"ppp_tty_ioctl: set xmit asyncmap %x\n",
ppp->xmit_async_map[0]);
error = 0;
break;
case PPPIOCSRASYNCMAP:
/*
* Set the receive async map
*/
if (get_user(temp_i, (int *) param3))
break;
ppp->recv_async_map = temp_i;
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO
"ppp_tty_ioctl: set rcv asyncmap %x\n",
ppp->recv_async_map);
error = 0;
break;
case PPPIOCGXASYNCMAP:
/*
* Get the map of characters to be escaped on transmission.
*/
if (copy_to_user((void *) param3, ppp->xmit_async_map,
sizeof (ppp->xmit_async_map)))
break;
error = 0;
break;
case PPPIOCSXASYNCMAP:
/*
* Set the map of characters to be escaped on transmission.
*/
{
__u32 temp_tbl[8];
if (copy_from_user(temp_tbl, (void *) param3,
sizeof (temp_tbl)))
break;
temp_tbl[1] = 0x00000000;
temp_tbl[2] &= ~0x40000000;
temp_tbl[3] |= 0x60000000;
memcpy(ppp->xmit_async_map, temp_tbl,
sizeof (ppp->xmit_async_map));
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO
"ppp_tty_ioctl: set xasyncmap\n");
error = 0;
}
break;
case PPPIOCXFERUNIT:
/*
* Set up this PPP unit to be used next time this
* process sets a tty to PPP line discipline.
*/
ppp->backup_tty = tty;
ppp->sc_xfer = current->pid;
error = 0;
break;
case TCGETS:
case TCGETA:
/*
* Allow users to read, but not set, the serial port parameters
*/
error = n_tty_ioctl (tty, file, param2, param3);
break;
case TCFLSH:
/*
* Flush our buffers, then call the generic code to
* flush the serial port's buffer.
*/
if (param3 == TCIFLUSH || param3 == TCIOFLUSH) {
struct sk_buff *skb;
while ((skb = skb_dequeue(&ppp->rcv_q)) != NULL)
kfree_skb(skb);
}
if (param3 == TCIOFLUSH || param3 == TCOFLUSH)
ppp_tty_flush_output(ppp);
error = n_tty_ioctl (tty, file, param2, param3);
break;
case FIONREAD:
/*
* Returns how many bytes are available for a read().
*/
{
unsigned long flags;
struct sk_buff *skb;
int count = 0;
save_flags(flags);
cli();
skb = skb_peek(&ppp->rcv_q);
if (skb != 0)
count = skb->len;
restore_flags(flags);
if (put_user(count, (int *) param3))
break;
error = 0;
}
break;
default:
/*
* All other ioctl() events will come here.
*/
error = ppp_ioctl(ppp, param2, param3);
break;
}
return error;
}
/*
* TTY callback.
*
* Process the poll() statement for the PPP device.
*/
static unsigned int
ppp_tty_poll(struct tty_struct *tty, struct file *filp, poll_table * wait)
{
struct ppp *ppp = tty2ppp(tty);
unsigned int mask = 0;
if (ppp && ppp->magic == PPP_MAGIC && tty == ppp->tty) {
CHECK_PPP(0);
poll_wait(filp, &ppp->read_wait, wait);
if (skb_peek(&ppp->rcv_q) != NULL)
mask |= POLLIN | POLLRDNORM;
if (tty->flags & (1 << TTY_OTHER_CLOSED)
|| tty_hung_up_p(filp))
mask |= POLLHUP;
mask |= POLLOUT | POLLWRNORM;
}
return mask;
}
/*
* This function is called by the tty driver when the transmit buffer has
* additional space. It is used by the ppp code to continue to transmit
* the current buffer should the buffer have been partially sent.
*/
static void
ppp_tty_wakeup (struct tty_struct *tty)
{
struct ppp *ppp = tty2ppp (tty);
tty->flags &= ~(1 << TTY_DO_WRITE_WAKEUP);
if (!ppp)
return;
CHECK_PPP_VOID();
if (tty != ppp->tty)
return;
if (ppp_tty_push(ppp))
ppp_output_wakeup(ppp);
}
/*
* Send a packet to the peer over a synchronous tty line.
* All encoding and FCS are handled by hardware.
* Addr/Ctrl and Protocol field compression implemented.
* Returns -1 iff the packet could not be accepted at present,
* 0 if the packet was accepted but we can't accept another yet, or
* 1 if we can accept another packet immediately.
* If this procedure returns 0, ppp_output_wakeup will be called
* exactly once.
*/
static int
ppp_sync_send(struct ppp *ppp, struct sk_buff *skb)
{
unsigned char *data;
int islcp;
CHECK_PPP(0);
if (ppp->tpkt != NULL)
return -1;
ppp->tpkt = skb;
data = ppp->tpkt->data;
/*
* LCP packets with code values between 1 (configure-reqest)
* and 7 (code-reject) must be sent as though no options
* had been negotiated.
*/
islcp = PPP_PROTOCOL(data) == PPP_LCP
&& 1 <= data[PPP_HDRLEN] && data[PPP_HDRLEN] <= 7;
/* only reset idle time for data packets */
if (PPP_PROTOCOL(data) < 0x8000)
ppp->last_xmit = jiffies;
++ppp->stats.ppp_opackets;
ppp->stats.ppp_ooctects += ppp->tpkt->len;
if ( !(data[2]) && (ppp->flags & SC_COMP_PROT) ) {
/* compress protocol field */
data[2] = data[1];
data[1] = data[0];
skb_pull(ppp->tpkt,1);
data = ppp->tpkt->data;
}
/*
* Do address/control compression
*/
if ((ppp->flags & SC_COMP_AC) && !islcp
&& PPP_ADDRESS(data) == PPP_ALLSTATIONS
&& PPP_CONTROL(data) == PPP_UI) {
/* strip addr and control field */
skb_pull(ppp->tpkt,2);
}
return ppp_tty_sync_push(ppp);
}
/*
* Push a synchronous frame out to the tty.
* Returns 1 if frame accepted (or discarded), 0 otherwise.
*/
static int
ppp_tty_sync_push(struct ppp *ppp)
{
int sent;
struct tty_struct *tty = ppp2tty(ppp);
unsigned long flags;
CHECK_PPP(0);
if (ppp->tpkt == NULL)
return 0;
/* prevent reentrancy with tty_pushing flag */
save_flags(flags);
cli();
if (ppp->tty_pushing) {
/* record wakeup attempt so we don't lose */
/* a wakeup call while doing push processing */
ppp->woke_up=1;
restore_flags(flags);
return 0;
}
ppp->tty_pushing = 1;
restore_flags(flags);
if (tty == NULL || tty->disc_data != (void *) ppp)
goto flush;
for(;;){
ppp->woke_up=0;
/* Note: Sync driver accepts complete frame or nothing */
tty->flags |= (1 << TTY_DO_WRITE_WAKEUP);
sent = tty->driver.write(tty, 0, ppp->tpkt->data, ppp->tpkt->len);
if (sent < 0) {
/* write error (possible loss of CD) */
/* record error and discard current packet */
ppp->stats.ppp_oerrors++;
break;
}
ppp->stats.ppp_obytes += sent;
if (sent < ppp->tpkt->len) {
/* driver unable to accept frame just yet */
save_flags(flags);
cli();
if (ppp->woke_up) {
/* wake up called while processing */
/* try to send the frame again */
restore_flags(flags);
continue;
}
/* wait for wakeup callback to try send again */
ppp->tty_pushing = 0;
restore_flags(flags);
return 0;
}
break;
}
flush:
/* done with current packet (sent or discarded) */
kfree_skb(ppp->tpkt);
ppp->tpkt = 0;
ppp->tty_pushing = 0;
return 1;
}
/*
* Send a packet to the peer over an async tty line.
* Returns -1 iff the packet could not be accepted at present,
* 0 if the packet was accepted but we can't accept another yet, or
* 1 if we can accept another packet immediately.
* If this procedure returns 0, ppp_output_wakeup will be called
* exactly once.
*/
static int
ppp_async_send(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
ppp_tty_push(ppp);
if (ppp->tpkt != NULL)
return -1;
ppp->tpkt = skb;
ppp->tpkt_pos = 0;
return ppp_tty_push(ppp);
}
/*
* Push as much data as possible out to the tty.
* Returns 1 if we finished encoding the current frame, 0 otherwise.
*/
static int
ppp_tty_push(struct ppp *ppp)
{
int avail, sent, done = 0;
struct tty_struct *tty = ppp2tty(ppp);
if (ppp->flags & SC_SYNC)
return ppp_tty_sync_push(ppp);
CHECK_PPP(0);
if (ppp->tty_pushing) {
ppp->woke_up = 1;
return 0;
}
if (tty == NULL || tty->disc_data != (void *) ppp)
goto flush;
while (ppp->optr < ppp->olim || ppp->tpkt != 0) {
ppp->tty_pushing = 1;
mb();
ppp->woke_up = 0;
avail = ppp->olim - ppp->optr;
if (avail > 0) {
tty->flags |= (1 << TTY_DO_WRITE_WAKEUP);
sent = tty->driver.write(tty, 0, ppp->optr, avail);
if (sent < 0)
goto flush; /* error, e.g. loss of CD */
ppp->stats.ppp_obytes += sent;
ppp->optr += sent;
if (sent < avail) {
wmb();
ppp->tty_pushing = 0;
mb();
if (ppp->woke_up)
continue;
return done;
}
}
if (ppp->tpkt != 0)
done = ppp_async_encode(ppp);
wmb();
ppp->tty_pushing = 0;
}
return done;
flush:
ppp->tty_pushing = 1;
mb();
ppp->stats.ppp_oerrors++;
if (ppp->tpkt != 0) {
kfree_skb(ppp->tpkt);
ppp->tpkt = 0;
done = 1;
}
ppp->optr = ppp->olim;
wmb();
ppp->tty_pushing = 0;
return done;
}
/*
* Procedure to encode the data for async serial transmission.
* Does octet stuffing (escaping) and address/control
* and protocol compression.
* Assumes ppp->opkt != 0 on entry.
* Returns 1 if we finished the current frame, 0 otherwise.
*/
static int
ppp_async_encode(struct ppp *ppp)
{
int fcs, i, count, c;
unsigned char *buf, *buflim;
unsigned char *data;
int islcp;
CHECK_PPP(0);
buf = ppp->obuf;
ppp->olim = buf;
ppp->optr = buf;
i = ppp->tpkt_pos;
data = ppp->tpkt->data;
count = ppp->tpkt->len;
fcs = ppp->tfcs;
/*
* LCP packets with code values between 1 (configure-reqest)
* and 7 (code-reject) must be sent as though no options
* had been negotiated.
*/
islcp = PPP_PROTOCOL(data) == PPP_LCP
&& 1 <= data[PPP_HDRLEN] && data[PPP_HDRLEN] <= 7;
if (i == 0) {
/*
* Start of a new packet - insert the leading FLAG
* character if necessary.
*/
if (islcp || flag_time == 0
|| jiffies - ppp->last_xmit >= flag_time)
*buf++ = PPP_FLAG;
/* only reset idle time for data packets */
if (PPP_PROTOCOL(data) < 0x8000)
ppp->last_xmit = jiffies;
fcs = PPP_INITFCS;
++ppp->stats.ppp_opackets;
ppp->stats.ppp_ooctects += count;
/*
* Do address/control compression
*/
if ((ppp->flags & SC_COMP_AC) != 0 && !islcp
&& PPP_ADDRESS(data) == PPP_ALLSTATIONS
&& PPP_CONTROL(data) == PPP_UI)
i += 2;
}
/*
* Once we put in the last byte, we need to put in the FCS
* and closing flag, so make sure there is at least 7 bytes
* of free space in the output buffer.
*/
buflim = buf + OBUFSIZE - 6;
while (i < count && buf < buflim) {
c = data[i++];
if (i == 3 && c == 0 && (ppp->flags & SC_COMP_PROT))
continue; /* compress protocol field */
fcs = PPP_FCS(fcs, c);
if (in_xmap(ppp, c) || (islcp && c < 0x20)) {
*buf++ = PPP_ESCAPE;
c ^= 0x20;
}
*buf++ = c;
}
if (i == count) {
/*
* We have finished the packet. Add the FCS and flag.
*/
fcs = ~fcs;
c = fcs & 0xff;
if (in_xmap(ppp, c) || (islcp && c < 0x20)) {
*buf++ = PPP_ESCAPE;
c ^= 0x20;
}
*buf++ = c;
c = (fcs >> 8) & 0xff;
if (in_xmap(ppp, c) || (islcp && c < 0x20)) {
*buf++ = PPP_ESCAPE;
c ^= 0x20;
}
*buf++ = c;
*buf++ = PPP_FLAG;
ppp->olim = buf;
kfree_skb(ppp->tpkt);
ppp->tpkt = 0;
return 1;
}
/*
* Remember where we are up to in this packet.
*/
ppp->olim = buf;
ppp->tpkt_pos = i;
ppp->tfcs = fcs;
return 0;
}
/*
* Flush output from our internal buffers.
* Called for the TCFLSH ioctl.
*/
static void
ppp_tty_flush_output(struct ppp *ppp)
{
struct sk_buff *skb;
int done = 0;
while ((skb = skb_dequeue(&ppp->xmt_q)) != NULL)
kfree_skb(skb);
ppp->tty_pushing = 1;
mb();
ppp->optr = ppp->olim;
if (ppp->tpkt != NULL) {
kfree_skb(ppp->tpkt);
ppp->tpkt = 0;
done = 1;
}
wmb();
ppp->tty_pushing = 0;
if (done)
ppp_output_wakeup(ppp);
}
/*
* Callback function from tty driver. Return the amount of space left
* in the receiver's buffer to decide if remote transmitter is to be
* throttled.
*/
static int
ppp_tty_room (struct tty_struct *tty)
{
return 65536; /* We can handle an infinite amount of data. :-) */
}
/*
* Callback function when data is available at the tty driver.
*/
static void
ppp_tty_receive (struct tty_struct *tty, const __u8 * data,
char *flags, int count)
{
register struct ppp *ppp = tty2ppp (tty);
struct sk_buff *skb;
int chr, flg;
unsigned char *p;
if (ppp != 0)
CHECK_PPP_VOID();
/*
* This can happen if stuff comes in on the backup tty.
*/
if (ppp == 0 || tty != ppp->tty)
return;
/*
* Verify the table pointer and ensure that the line is
* still in PPP discipline.
*/
if (ppp->magic != PPP_MAGIC) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG
"PPP: tty_receive called but couldn't find "
"PPP struct.\n");
return;
}
/*
* Print the buffer if desired
*/
if (ppp->flags & SC_LOG_RAWIN)
ppp_print_buffer ("receive buffer", data, count);
ppp->stats.ppp_ibytes += count;
skb = ppp->rpkt;
if ( ppp->flags & SC_SYNC ) {
/* synchronous mode */
if (ppp->toss==0xE0) {
/* this is the 1st frame, reset vj comp */
ppp_receive_error(ppp);
ppp->toss = 0;
}
/*
* Allocate an skbuff for frame.
* The 128 is room for VJ header expansion.
*/
if (skb == NULL)
skb = dev_alloc_skb(ppp->mru + 128 + PPP_HDRLEN);
if (skb == NULL) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "couldn't "
"alloc skb for recv\n");
} else {
/*
* Decompress A/C and protocol compression here.
*/
p = skb_put(skb, 2);
p[0] = PPP_ALLSTATIONS;
p[1] = PPP_UI;
if (*data == PPP_ALLSTATIONS) {
data += 2;
count -= 2;
}
if ((*data & 1) != 0) {
p = skb_put(skb, 1);
p[0] = 0;
}
/* copy frame to socket buffer */
p = skb_put(skb, count);
memcpy(p,data,count);
/*
* Check if we've overflowed the MRU
*/
if (skb->len >= ppp->mru + PPP_HDRLEN + 2
|| skb_tailroom(skb) <= 0) {
++ppp->estats.rx_length_errors;
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "rcv frame too long: "
"len=%d mru=%d hroom=%d troom=%d\n",
skb->len, ppp->mru, skb_headroom(skb),
skb_tailroom(skb));
} else {
if (!ppp_receive_frame(ppp, skb)) {
kfree_skb(skb);
ppp_receive_error(ppp);
}
}
/* Reset for the next frame */
skb = NULL;
}
ppp->rpkt = skb;
return;
}
while (count-- > 0) {
/*
* Collect the character and error condition for the character.
* Set the toss flag for the first character error.
*/
chr = *data++;
if (flags) {
flg = *flags++;
if (flg) {
if (ppp->toss == 0)
ppp->toss = flg;
switch (flg) {
case TTY_OVERRUN:
++ppp->estats.rx_fifo_errors;
break;
case TTY_FRAME:
case TTY_BREAK:
++ppp->estats.rx_frame_errors;
break;
}
continue;
}
}
/*
* Set the flags for d7 being 0/1 and parity being
* even/odd so that the normal processing would have
* all flags set at the end of the session. A
* missing flag bit indicates an error condition.
*/
#ifdef CHECK_CHARACTERS
if (chr & 0x80)
ppp->flags |= SC_RCV_B7_1;
else
ppp->flags |= SC_RCV_B7_0;
if (paritytab[chr >> 5] & (1 << (chr & 0x1F)))
ppp->flags |= SC_RCV_ODDP;
else
ppp->flags |= SC_RCV_EVNP;
#endif
if (chr == PPP_FLAG) {
/*
* FLAG. This is the end of the block. If the block
* ends with ESC FLAG, then the block is to be ignored.
*/
if (ppp->escape)
ppp->toss |= 0x80;
/*
* Process the frame if it was received correctly.
* If there was an error, let the VJ decompressor know.
* There are 4 cases here:
* skb != NULL, toss != 0: error in frame
* skb != NULL, toss == 0: frame ok
* skb == NULL, toss != 0: very first frame,
* error on 1st char, or alloc_skb failed
* skb == NULL, toss == 0: empty frame (~~)
*/
if (ppp->toss || !ppp_receive_frame(ppp, skb)) {
if (ppp->toss && (ppp->flags & SC_DEBUG))
printk(KERN_DEBUG
"ppp: tossing frame (%x)\n",
ppp->toss);
if (skb != NULL)
kfree_skb(skb);
if (!(ppp->toss == 0xE0 || ppp->toss == 0x80))
++ppp->stats.ppp_ierrors;
ppp_receive_error(ppp);
}
/*
* Reset for the next frame.
*/
skb = NULL;
ppp->rfcs = PPP_INITFCS;
ppp->escape = 0;
ppp->toss = 0;
continue;
}
/* If we're tossing, look no further. */
if (ppp->toss != 0)
continue;
/* If this is a control char to be ignored, do so */
if (in_rmap(ppp, chr))
continue;
/*
* Modify the next character if preceded by escape.
* The escape character (0x7d) could be an escaped
* 0x5d, if it follows an escape :-)
*/
if (ppp->escape) {
chr ^= PPP_TRANS;
ppp->escape = 0;
} else if (chr == PPP_ESCAPE) {
ppp->escape = PPP_TRANS;
continue;
}
/*
* Allocate an skbuff on the first character received.
* The 128 is room for VJ header expansion and FCS.
*/
if (skb == NULL) {
skb = dev_alloc_skb(ppp->mru + 128 + PPP_HDRLEN);
if (skb == NULL) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "couldn't "
"alloc skb for recv\n");
ppp->toss = 1;
continue;
}
}
/*
* Decompress A/C and protocol compression here.
*/
if (skb->len == 0 && chr != PPP_ALLSTATIONS) {
p = skb_put(skb, 2);
p[0] = PPP_ALLSTATIONS;
p[1] = PPP_UI;
}
if (skb->len == 2 && (chr & 1) != 0) {
p = skb_put(skb, 1);
p[0] = 0;
}
/*
* Check if we've overflowed the MRU
*/
if (skb->len >= ppp->mru + PPP_HDRLEN + 2
|| skb_tailroom(skb) <= 0) {
++ppp->estats.rx_length_errors;
ppp->toss = 0xC0;
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "rcv frame too long: "
"len=%d mru=%d hroom=%d troom=%d\n",
skb->len, ppp->mru, skb_headroom(skb),
skb_tailroom(skb));
continue;
}
/*
* Store the character and update the FCS.
*/
p = skb_put(skb, 1);
*p = chr;
ppp->rfcs = PPP_FCS(ppp->rfcs, chr);
}
ppp->rpkt = skb;
}
/*************************************************************
* PPP NETWORK INTERFACE SUPPORT
* The following code implements the PPP network
* interface device and handles those parts of
* the PPP processing which are independent of the
* type of hardware link being used, including
* VJ and packet compression.
*************************************************************/
/*
* Network device driver callback routines
*/
static int ppp_init_dev(struct device *dev);
static int ppp_dev_open(struct device *);
static int ppp_dev_ioctl(struct device *dev, struct ifreq *ifr, int cmd);
static int ppp_dev_close(struct device *);
static int ppp_dev_xmit(struct sk_buff *, struct device *);
static struct net_device_stats *ppp_dev_stats (struct device *);
/*
* Information for the protocol decoder
*/
typedef int (*pfn_proto) (struct ppp *, struct sk_buff *);
typedef struct ppp_proto_struct {
int proto;
pfn_proto func;
} ppp_proto_type;
static int rcv_proto_ip (struct ppp *, struct sk_buff *);
static int rcv_proto_ipv6 (struct ppp *, struct sk_buff *);
static int rcv_proto_ipx (struct ppp *, struct sk_buff *);
static int rcv_proto_at (struct ppp *, struct sk_buff *);
static int rcv_proto_vjc_comp (struct ppp *, struct sk_buff *);
static int rcv_proto_vjc_uncomp (struct ppp *, struct sk_buff *);
static int rcv_proto_ccp (struct ppp *, struct sk_buff *);
static int rcv_proto_unknown (struct ppp *, struct sk_buff *);
static
ppp_proto_type proto_list[] = {
{ PPP_IP, rcv_proto_ip },
{ PPP_IPV6, rcv_proto_ipv6 },
{ PPP_IPX, rcv_proto_ipx },
{ PPP_AT, rcv_proto_at },
{ PPP_VJC_COMP, rcv_proto_vjc_comp },
{ PPP_VJC_UNCOMP, rcv_proto_vjc_uncomp },
{ PPP_CCP, rcv_proto_ccp },
{ 0, rcv_proto_unknown } /* !!! MUST BE LAST !!! */
};
/*
* Called when the PPP network interface device is actually created.
*/
static int
ppp_init_dev (struct device *dev)
{
dev->hard_header_len = PPP_HDRLEN;
/* device INFO */
dev->mtu = PPP_MTU;
dev->hard_start_xmit = ppp_dev_xmit;
dev->open = ppp_dev_open;
dev->stop = ppp_dev_close;
dev->get_stats = ppp_dev_stats;
dev->do_ioctl = ppp_dev_ioctl;
dev->addr_len = 0;
dev->tx_queue_len = 10;
dev->type = ARPHRD_PPP;
dev_init_buffers(dev);
dev->flags = IFF_POINTOPOINT | IFF_NOARP | IFF_MULTICAST;
return 0;
}
/*
* Callback from the network layer when the device goes up.
*/
static int
ppp_dev_open (struct device *dev)
{
struct ppp *ppp = dev2ppp(dev);
if (!ppp->inuse || ppp2tty(ppp) == NULL) {
printk(KERN_ERR "ppp: %s not active\n", dev->name);
return -ENXIO;
}
MOD_INC_USE_COUNT;
return 0;
}
/*
* Callback from the network layer when the ppp device goes down.
*/
static int
ppp_dev_close (struct device *dev)
{
struct ppp *ppp = dev2ppp (dev);
CHECK_PPP_MAGIC(ppp);
MOD_DEC_USE_COUNT;
return 0;
}
static inline void
get_vj_stats(struct vjstat *vj, struct slcompress *slc)
{
vj->vjs_packets = slc->sls_o_compressed + slc->sls_o_uncompressed;
vj->vjs_compressed = slc->sls_o_compressed;
vj->vjs_searches = slc->sls_o_searches;
vj->vjs_misses = slc->sls_o_misses;
vj->vjs_errorin = slc->sls_i_error;
vj->vjs_tossed = slc->sls_i_tossed;
vj->vjs_uncompressedin = slc->sls_i_uncompressed;
vj->vjs_compressedin = slc->sls_i_compressed;
}
/*
* Callback from the network layer to process the sockioctl functions.
*/
static int
ppp_dev_ioctl (struct device *dev, struct ifreq *ifr, int cmd)
{
struct ppp *ppp = dev2ppp(dev);
int nb;
union {
struct ppp_stats stats;
struct ppp_comp_stats cstats;
char vers[32];
} u;
CHECK_PPP_MAGIC(ppp);
memset(&u, 0, sizeof(u));
switch (cmd) {
case SIOCGPPPSTATS:
u.stats.p = ppp->stats;
if (ppp->slcomp != NULL)
get_vj_stats(&u.stats.vj, ppp->slcomp);
nb = sizeof(u.stats);
break;
case SIOCGPPPCSTATS:
if (ppp->sc_xc_state != NULL)
(*ppp->sc_xcomp->comp_stat)
(ppp->sc_xc_state, &u.cstats.c);
if (ppp->sc_rc_state != NULL)
(*ppp->sc_rcomp->decomp_stat)
(ppp->sc_rc_state, &u.cstats.d);
nb = sizeof(u.cstats);
break;
case SIOCGPPPVER:
strcpy(u.vers, szVersion);
nb = strlen(u.vers) + 1;
break;
default:
return -EINVAL;
}
if (copy_to_user((void *) ifr->ifr_ifru.ifru_data, &u, nb))
return -EFAULT;
return 0;
}
/*
* Process the generic PPP ioctls, i.e. those which are not specific
* to any particular type of hardware link.
*/
static int
ppp_ioctl(struct ppp *ppp, unsigned int param2, unsigned long param3)
{
register int temp_i = 0, oldflags;
int error = -EFAULT;
unsigned long flags;
struct ppp_idle cur_ddinfo;
struct npioctl npi;
CHECK_PPP(-ENXIO);
/*
* The user must have an euid of root to do these requests.
*/
if (!capable(CAP_NET_ADMIN))
return -EPERM;
switch (param2) {
case PPPIOCSMRU:
/*
* Set the MRU value
*/
if (get_user(temp_i, (int *) param3))
break;
if (temp_i < PPP_MRU)
temp_i = PPP_MRU;
ppp->mru = temp_i;
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO
"ppp_ioctl: set mru to %x\n", temp_i);
error = 0;
break;
case PPPIOCGFLAGS:
/*
* Fetch the current flags
*/
temp_i = ppp->flags & SC_MASK;
#ifndef CHECK_CHARACTERS /* Don't generate errors if we don't check chars. */
temp_i |= SC_RCV_B7_1 | SC_RCV_B7_0 |
SC_RCV_ODDP | SC_RCV_EVNP;
#endif
if (put_user(temp_i, (int *) param3))
break;
error = 0;
break;
case PPPIOCSFLAGS:
/*
* Set the flags for the various options
*/
if (get_user(temp_i, (int *) param3))
break;
if (ppp->flags & ~temp_i & SC_CCP_OPEN)
ppp_ccp_closed(ppp);
save_flags(flags);
cli();
oldflags = ppp->flags;
temp_i = (temp_i & SC_MASK) | (oldflags & ~SC_MASK);
ppp->flags = temp_i;
restore_flags(flags);
if ((oldflags | temp_i) & SC_DEBUG)
printk(KERN_INFO
"ppp_ioctl: set flags to %x\n", temp_i);
error = 0;
break;
case PPPIOCSCOMPRESS:
/*
* Set the compression mode
*/
error = ppp_set_compression
(ppp, (struct ppp_option_data *) param3);
break;
case PPPIOCGUNIT:
/*
* Obtain the unit number for this device.
*/
if (put_user(ppp->line, (int *) param3))
break;
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO
"ppp_ioctl: get unit: %d\n", ppp->line);
error = 0;
break;
case PPPIOCSDEBUG:
/*
* Set the debug level
*/
if (get_user(temp_i, (int *) param3))
break;
temp_i = (temp_i & 0x1F) << 16;
if ((ppp->flags | temp_i) & SC_DEBUG)
printk(KERN_INFO
"ppp_ioctl: set dbg flags to %x\n", temp_i);
save_flags(flags);
cli();
ppp->flags = (ppp->flags & ~0x1F0000) | temp_i;
restore_flags(flags);
error = 0;
break;
case PPPIOCGDEBUG:
/*
* Get the debug level
*/
temp_i = (ppp->flags >> 16) & 0x1F;
if (put_user(temp_i, (int *) param3))
break;
error = 0;
break;
case PPPIOCGIDLE:
/*
* Get the times since the last send/receive frame operation
*/
/* change absolute times to relative times. */
cur_ddinfo.xmit_idle = (jiffies - ppp->last_xmit) / HZ;
cur_ddinfo.recv_idle = (jiffies - ppp->last_recv) / HZ;
if (copy_to_user((void *) param3, &cur_ddinfo,
sizeof (cur_ddinfo)))
break;
error = 0;
break;
case PPPIOCSMAXCID:
/*
* Set the maximum VJ header compression slot number.
*/
if (get_user(temp_i, (int *) param3))
break;
error = -EINVAL;
if (temp_i < 2 || temp_i > 255)
break;
++temp_i;
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO "ppp_ioctl: set maxcid to %d\n",
temp_i);
if (ppp->slcomp != NULL)
slhc_free(ppp->slcomp);
ppp->slcomp = slhc_init(16, temp_i);
error = -ENOMEM;
if (ppp->slcomp == NULL) {
printk(KERN_ERR "ppp: no memory for VJ compression\n");
break;
}
error = 0;
break;
case PPPIOCGNPMODE:
case PPPIOCSNPMODE:
if (copy_from_user(&npi, (void *) param3, sizeof(npi)))
break;
switch (npi.protocol) {
case PPP_IP:
npi.protocol = NP_IP;
break;
case PPP_IPX:
npi.protocol = NP_IPX;
break;
case PPP_AT:
npi.protocol = NP_AT;
break;
default:
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "pppioc[gs]npmode: "
"invalid proto %d\n", npi.protocol);
error = -EINVAL;
goto out;
}
if (param2 == PPPIOCGNPMODE) {
npi.mode = ppp->sc_npmode[npi.protocol];
if (copy_to_user((void *) param3, &npi, sizeof(npi)))
break;
} else {
ppp->sc_npmode[npi.protocol] = npi.mode;
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "ppp: set np %d to %d\n",
npi.protocol, npi.mode);
mark_bh(NET_BH);
}
error = 0;
break;
default:
/*
* All other ioctl() events will come here.
*/
if (ppp->flags & SC_DEBUG)
printk(KERN_ERR
"ppp_ioctl: invalid ioctl: %x, addr %lx\n",
param2, param3);
error = -ENOIOCTLCMD;
break;
}
out:
return error;
}
/*
* Process the set-compression ioctl.
*/
static int
ppp_set_compression (struct ppp *ppp, struct ppp_option_data *odp)
{
struct compressor *cp;
int error, nb;
unsigned long flags;
__u8 *ptr;
__u8 ccp_option[CCP_MAX_OPTION_LENGTH];
struct ppp_option_data data;
/*
* Fetch the compression parameters
*/
error = -EFAULT;
if (copy_from_user(&data, odp, sizeof (data)))
goto out;
nb = data.length;
ptr = data.ptr;
if ((unsigned) nb >= CCP_MAX_OPTION_LENGTH)
nb = CCP_MAX_OPTION_LENGTH;
if (copy_from_user(ccp_option, ptr, nb))
goto out;
error = -EINVAL;
if (ccp_option[1] < 2) /* preliminary check on the length byte */
goto out;
save_flags(flags);
cli();
ppp->flags &= ~(data.transmit? SC_COMP_RUN: SC_DECOMP_RUN);
restore_flags(flags);
cp = find_compressor (ccp_option[0]);
#ifdef CONFIG_KMOD
if (cp == NULL) {
char modname[32];
sprintf(modname, "ppp-compress-%d", ccp_option[0]);
request_module(modname);
cp = find_compressor(ccp_option[0]);
}
#endif /* CONFIG_KMOD */
if (cp == NULL) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG
"%s: no compressor for [%x %x %x], %x\n",
ppp->name, ccp_option[0], ccp_option[1],
ccp_option[2], nb);
goto out; /* compressor not loaded */
}
/*
* Found a handler for the protocol - try to allocate
* a compressor or decompressor.
*/
error = 0;
if (data.transmit) {
if (ppp->sc_xc_state != NULL)
(*ppp->sc_xcomp->comp_free)(ppp->sc_xc_state);
ppp->sc_xc_state = NULL;
ppp->sc_xcomp = cp;
ppp->sc_xc_state = cp->comp_alloc(ccp_option, nb);
if (ppp->sc_xc_state == NULL) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: comp_alloc failed\n",
ppp->name);
error = -ENOBUFS;
}
} else {
if (ppp->sc_rc_state != NULL)
(*ppp->sc_rcomp->decomp_free)(ppp->sc_rc_state);
ppp->sc_rc_state = NULL;
ppp->sc_rcomp = cp;
ppp->sc_rc_state = cp->decomp_alloc(ccp_option, nb);
if (ppp->sc_rc_state == NULL) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: decomp_alloc failed\n",
ppp->name);
error = -ENOBUFS;
}
}
out:
return error;
}
/*
* Handle a CCP packet.
*
* The CCP packet is passed along to the pppd process just like any
* other PPP frame. The difference is that some processing needs to be
* immediate or the compressors will become confused on the peer.
*/
static void ppp_proto_ccp(struct ppp *ppp, __u8 *dp, int len, int rcvd)
{
int slen = CCP_LENGTH(dp);
__u8 *opt = dp + CCP_HDRLEN;
int opt_len = slen - CCP_HDRLEN;
unsigned long flags;
if (slen > len)
return;
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "ppp_proto_ccp rcvd=%d code=%x flags=%x\n",
rcvd, CCP_CODE(dp), ppp->flags);
save_flags(flags);
switch (CCP_CODE(dp)) {
case CCP_CONFREQ:
case CCP_TERMREQ:
case CCP_TERMACK:
/*
* CCP must be going down - disable compression
*/
if (ppp->flags & SC_CCP_UP) {
cli();
ppp->flags &= ~(SC_CCP_UP |
SC_COMP_RUN |
SC_DECOMP_RUN);
}
break;
case CCP_CONFACK:
if ((ppp->flags & SC_CCP_OPEN) == 0)
break;
if (ppp->flags & SC_CCP_UP)
break;
if (slen < (CCP_HDRLEN + CCP_OPT_MINLEN))
break;
if (slen < (CCP_OPT_LENGTH (opt) + CCP_HDRLEN))
break;
if (!rcvd) {
/*
* we're agreeing to send compressed packets.
*/
if (ppp->sc_xc_state == NULL)
break;
if ((*ppp->sc_xcomp->comp_init)
(ppp->sc_xc_state,
opt, opt_len,
ppp->line, 0, ppp->flags & SC_DEBUG)) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: comp running\n",
ppp->name);
cli();
ppp->flags |= SC_COMP_RUN;
}
break;
}
/*
* peer is agreeing to send compressed packets.
*/
if (ppp->sc_rc_state == NULL)
break;
if ((*ppp->sc_rcomp->decomp_init)
(ppp->sc_rc_state,
opt, opt_len,
ppp->line, 0, ppp->mru, ppp->flags & SC_DEBUG)) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: decomp running\n",
ppp->name);
cli();
ppp->flags |= SC_DECOMP_RUN;
ppp->flags &= ~(SC_DC_ERROR | SC_DC_FERROR);
}
break;
case CCP_RESETACK:
/*
* CCP Reset-ack resets compressors and decompressors
* as it passes through.
*/
if ((ppp->flags & SC_CCP_UP) == 0)
break;
if (!rcvd) {
if (ppp->sc_xc_state && (ppp->flags & SC_COMP_RUN)) {
(*ppp->sc_xcomp->comp_reset)(ppp->sc_xc_state);
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: comp reset\n",
ppp->name);
}
} else {
if (ppp->sc_rc_state && (ppp->flags & SC_DECOMP_RUN)) {
(*ppp->sc_rcomp->decomp_reset)(ppp->sc_rc_state);
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: decomp reset\n",
ppp->name);
cli();
ppp->flags &= ~SC_DC_ERROR;
}
}
break;
}
restore_flags(flags);
}
/*
* CCP is down; free (de)compressor state if necessary.
*/
static void
ppp_ccp_closed(struct ppp *ppp)
{
unsigned long flags;
save_flags(flags);
cli();
ppp->flags &= ~(SC_CCP_OPEN | SC_CCP_UP | SC_COMP_RUN | SC_DECOMP_RUN);
restore_flags(flags);
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: ccp closed\n", ppp->name);
if (ppp->sc_xc_state) {
(*ppp->sc_xcomp->comp_free) (ppp->sc_xc_state);
ppp->sc_xc_state = NULL;
}
if (ppp->sc_rc_state) {
(*ppp->sc_rcomp->decomp_free) (ppp->sc_rc_state);
ppp->sc_rc_state = NULL;
}
}
/*************************************************************
* RECEIVE-SIDE ROUTINES
*************************************************************/
/*
* On entry, a received frame is in skb.
* Check it and dispose as appropriate.
*/
static int
ppp_receive_frame(struct ppp *ppp, struct sk_buff *skb)
{
__u8 *data;
int count;
int proto;
int new_count;
struct sk_buff *new_skb;
ppp_proto_type *proto_ptr;
/*
* An empty frame is ignored. This occurs if the FLAG sequence
* precedes and follows each frame.
*/
if (skb == NULL)
return 1;
if (skb->len == 0) {
kfree_skb(skb);
return 1;
}
data = skb->data;
count = skb->len;
/*
* Generate an error if the frame is too small.
*/
if (count < PPP_HDRLEN + 2) {
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG
"ppp: got runt ppp frame, %d chars\n", count);
++ppp->estats.rx_length_errors;
return 0;
}
if ( !(ppp->flags & SC_SYNC) ) {
/*
* Verify the FCS of the frame and discard the FCS characters
* from the end of the buffer.
*/
if (ppp->rfcs != PPP_GOODFCS) {
if (ppp->flags & SC_DEBUG) {
printk(KERN_DEBUG
"ppp: frame with bad fcs, length = %d\n",
count);
ppp_print_buffer("bad frame", data, count);
}
++ppp->estats.rx_crc_errors;
return 0;
}
count -= 2; /* ignore the fcs characters */
skb_trim(skb, count);
}
/*
* Process the active decompressor.
*/
if (ppp->sc_rc_state != NULL &&
(ppp->flags & SC_DECOMP_RUN) &&
((ppp->flags & (SC_DC_FERROR | SC_DC_ERROR)) == 0)) {
if (PPP_PROTOCOL(data) == PPP_COMP) {
/*
* If the frame is compressed then decompress it.
*/
new_skb = dev_alloc_skb(ppp->mru + 128 + PPP_HDRLEN);
if (new_skb == NULL) {
printk(KERN_ERR "ppp_recv_frame: no memory\n");
new_count = DECOMP_ERROR;
} else {
new_count = (*ppp->sc_rcomp->decompress)
(ppp->sc_rc_state, data, count,
new_skb->data, ppp->mru + PPP_HDRLEN);
}
if (new_count > 0) {
/* Frame was decompressed OK */
kfree_skb(skb);
skb = new_skb;
count = new_count;
data = skb_put(skb, count);
} else {
/*
* On a decompression error, we pass the
* compressed frame up to pppd as an
* error indication.
*/
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO "%s: decomp err %d\n",
ppp->name, new_count);
if (new_skb != 0)
kfree_skb(new_skb);
if (ppp->slcomp != 0)
slhc_toss(ppp->slcomp);
++ppp->stats.ppp_ierrors;
if (new_count == DECOMP_FATALERROR) {
ppp->flags |= SC_DC_FERROR;
} else {
ppp->flags |= SC_DC_ERROR;
}
}
} else {
/*
* The frame is not compressed. Pass it to the
* decompression code so it can update its
* dictionary if necessary.
*/
(*ppp->sc_rcomp->incomp)(ppp->sc_rc_state,
data, count);
}
}
else if (PPP_PROTOCOL(data) == PPP_COMP && (ppp->flags & SC_DEBUG))
printk(KERN_INFO "%s: not decomp, rc_state=%p flags=%x\n",
ppp->name, ppp->sc_rc_state, ppp->flags);
/*
* Count the frame and print it
*/
++ppp->stats.ppp_ipackets;
ppp->stats.ppp_ioctects += count;
if (ppp->flags & SC_LOG_INPKT)
ppp_print_buffer ("receive frame", data, count);
/*
* Find the procedure to handle this protocol.
* The last one is marked as protocol 0 which is the 'catch-all'
* to feed it to the pppd daemon.
*/
proto = PPP_PROTOCOL(data);
proto_ptr = proto_list;
while (proto_ptr->proto != 0 && proto_ptr->proto != proto)
++proto_ptr;
/*
* Update the appropriate statistic counter.
*/
if (!(*proto_ptr->func)(ppp, skb)) {
kfree_skb(skb);
++ppp->stats.ppp_discards;
}
return 1;
}
/*
* An input error has been detected, so we need to inform
* the VJ decompressor.
*/
static void
ppp_receive_error(struct ppp *ppp)
{
CHECK_PPP_VOID();
if (ppp->slcomp != 0)
slhc_toss(ppp->slcomp);
}
/*
* Put the input frame into the networking system for the indicated protocol
*/
static int
ppp_rcv_rx(struct ppp *ppp, __u16 proto, struct sk_buff *skb)
{
/*
* Fill in a few fields of the skb and give it to netif_rx().
*/
skb->dev = ppp2dev(ppp); /* We are the device */
skb->protocol = htons(proto);
skb_pull(skb, PPP_HDRLEN); /* pull off ppp header */
skb->mac.raw = skb->data;
ppp->last_recv = jiffies;
netif_rx (skb);
return 1;
}
/*
* Process the receipt of an IP frame
*/
static int
rcv_proto_ip(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
if ((ppp2dev(ppp)->flags & IFF_UP) && (skb->len > 0)
&& ppp->sc_npmode[NP_IP] == NPMODE_PASS)
return ppp_rcv_rx(ppp, ETH_P_IP, skb);
return 0;
}
/*
* Process the receipt of an IPv6 frame
*/
static int
rcv_proto_ipv6(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
if ((ppp2dev(ppp)->flags & IFF_UP) && (skb->len > 0)
&& ppp->sc_npmode[NP_IPV6] == NPMODE_PASS)
return ppp_rcv_rx(ppp, ETH_P_IPV6, skb);
return 0;
}
/*
* Process the receipt of an IPX frame
*/
static int
rcv_proto_ipx(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
if (((ppp2dev(ppp)->flags & IFF_UP) != 0) && (skb->len > 0)
&& ppp->sc_npmode[NP_IPX] == NPMODE_PASS)
return ppp_rcv_rx(ppp, ETH_P_IPX, skb);
return 0;
}
/*
* Process the receipt of an Appletalk frame
*/
static int
rcv_proto_at(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
if ((ppp2dev(ppp)->flags & IFF_UP) && (skb->len > 0)
&& ppp->sc_npmode[NP_AT] == NPMODE_PASS)
return ppp_rcv_rx(ppp, ETH_P_PPPTALK, skb);
return 0;
}
/*
* Process the receipt of an VJ Compressed frame
*/
static int
rcv_proto_vjc_comp(struct ppp *ppp, struct sk_buff *skb)
{
int new_count;
CHECK_PPP(0);
if ((ppp->flags & SC_REJ_COMP_TCP) || ppp->slcomp == NULL)
return 0;
new_count = slhc_uncompress(ppp->slcomp, skb->data + PPP_HDRLEN,
skb->len - PPP_HDRLEN);
if (new_count <= 0) {
if (ppp->flags & SC_DEBUG)
printk(KERN_NOTICE
"ppp: error in VJ decompression\n");
return 0;
}
new_count += PPP_HDRLEN;
if (new_count > skb->len)
skb_put(skb, new_count - skb->len);
else
skb_trim(skb, new_count);
return rcv_proto_ip(ppp, skb);
}
/*
* Process the receipt of an VJ Un-compressed frame
*/
static int
rcv_proto_vjc_uncomp(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
if ((ppp->flags & SC_REJ_COMP_TCP) || ppp->slcomp == NULL)
return 0;
if (slhc_remember(ppp->slcomp, skb->data + PPP_HDRLEN,
skb->len - PPP_HDRLEN) <= 0) {
if (ppp->flags & SC_DEBUG)
printk(KERN_NOTICE "ppp: error in VJ memorizing\n");
return 0;
}
return rcv_proto_ip(ppp, skb);
}
static int
rcv_proto_ccp(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
ppp_proto_ccp (ppp, skb->data + PPP_HDRLEN, skb->len - PPP_HDRLEN, 1);
return rcv_proto_unknown(ppp, skb);
}
/*
* Receive all unclassified protocols.
*/
static int
rcv_proto_unknown(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP(0);
/*
* Limit queue length by dropping old frames.
*/
skb_queue_tail(&ppp->rcv_q, skb);
while (ppp->rcv_q.qlen > PPP_MAX_RCV_QLEN) {
struct sk_buff *skb = skb_dequeue(&ppp->rcv_q);
if (skb)
kfree_skb(skb);
}
wake_up_interruptible (&ppp->read_wait);
if (ppp->tty->fasync != NULL)
kill_fasync (ppp->tty->fasync, SIGIO);
return 1;
}
/*************************************************************
* TRANSMIT-SIDE ROUTINES
*************************************************************/
/* local function to store a value into the LQR frame */
extern inline __u8 * store_long (register __u8 *p, register int value) {
*p++ = (__u8) (value >> 24);
*p++ = (__u8) (value >> 16);
*p++ = (__u8) (value >> 8);
*p++ = (__u8) value;
return p;
}
/*
* Compress and send an frame to the peer.
* Should be called with xmit_busy == 1, having been set by the caller.
* That is, we use xmit_busy as a lock to prevent reentry of this
* procedure.
*/
static void
ppp_send_frame(struct ppp *ppp, struct sk_buff *skb)
{
int proto;
__u8 *data;
int count;
__u8 *p;
int ret;
CHECK_PPP_VOID();
data = skb->data;
count = skb->len;
/* dump the buffer */
if (ppp->flags & SC_LOG_OUTPKT)
ppp_print_buffer ("write frame", data, count);
/*
* Handle various types of protocol-specific compression
* and other processing, including:
* - VJ TCP header compression
* - updating LQR packets
* - updating CCP state on CCP packets
*/
proto = PPP_PROTOCOL(data);
switch (proto) {
case PPP_IP:
if ((ppp->flags & SC_COMP_TCP) && ppp->slcomp != NULL)
skb = ppp_vj_compress(ppp, skb);
break;
case PPP_LQR:
/*
* Update the LQR frame with the current MIB information.
* This way the information is accurate and up-to-date.
*/
if (count < 48)
break;
p = data + 40; /* Point to last two items. */
p = store_long(p, ppp->stats.ppp_opackets + 1);
p = store_long(p, ppp->stats.ppp_ooctects + count);
++ppp->stats.ppp_olqrs;
break;
case PPP_CCP:
/*
* Outbound compression control frames
*/
ppp_proto_ccp(ppp, data + PPP_HDRLEN, count - PPP_HDRLEN, 0);
break;
}
data = skb->data;
count = skb->len;
/*
* Compress the whole frame if possible.
*/
if (((ppp->flags & SC_COMP_RUN) != 0) &&
(ppp->sc_xc_state != (void *) 0) &&
(proto != PPP_LCP) &&
(proto != PPP_CCP)) {
struct sk_buff *new_skb;
int new_count;
/* Allocate an skb for the compressed frame. */
new_skb = alloc_skb(ppp->mtu + PPP_HDRLEN, GFP_ATOMIC);
if (new_skb == NULL) {
printk(KERN_ERR "ppp_send_frame: no memory\n");
kfree_skb(skb);
ppp->xmit_busy = 0;
return;
}
/* Compress the frame. */
new_count = (*ppp->sc_xcomp->compress)
(ppp->sc_xc_state, data, new_skb->data,
count, ppp->mtu + PPP_HDRLEN);
/* Did it compress? */
if (new_count > 0 && (ppp->flags & SC_CCP_UP)) {
skb_put(new_skb, new_count);
kfree_skb(skb);
skb = new_skb;
} else {
/*
* The frame could not be compressed, or it could not
* be sent in compressed form because CCP is down.
*/
kfree_skb(new_skb);
}
}
/*
* Send the frame
*/
if ( ppp->flags & SC_SYNC )
ret = ppp_sync_send(ppp, skb);
else
ret = ppp_async_send(ppp, skb);
if (ret > 0) {
/* we can release the lock */
ppp->xmit_busy = 0;
} else if (ret < 0) {
/* can't happen, since the caller got the xmit_busy lock */
printk(KERN_ERR "ppp: ppp_async_send didn't accept pkt\n");
}
}
/*
* Apply VJ TCP header compression to a packet.
*/
static struct sk_buff *
ppp_vj_compress(struct ppp *ppp, struct sk_buff *skb)
{
__u8 *orig_data, *data;
struct sk_buff *new_skb;
int len, proto;
new_skb = alloc_skb(skb->len, GFP_ATOMIC);
if (new_skb == NULL) {
printk(KERN_ERR "ppp: no memory for vj compression\n");
return skb;
}
orig_data = data = skb->data + PPP_HDRLEN;
len = slhc_compress(ppp->slcomp, data, skb->len - PPP_HDRLEN,
new_skb->data + PPP_HDRLEN, &data,
(ppp->flags & SC_NO_TCP_CCID) == 0);
if (data == orig_data) {
/* Couldn't compress the data */
kfree_skb(new_skb);
return skb;
}
/* The data has been changed */
if (data[0] & SL_TYPE_COMPRESSED_TCP) {
proto = PPP_VJC_COMP;
data[0] ^= SL_TYPE_COMPRESSED_TCP;
} else {
if (data[0] >= SL_TYPE_UNCOMPRESSED_TCP)
proto = PPP_VJC_UNCOMP;
else
proto = PPP_IP;
data[0] = orig_data[0];
}
data = skb_put(new_skb, len + PPP_HDRLEN);
data[0] = PPP_ALLSTATIONS;
data[1] = PPP_UI;
data[2] = 0;
data[3] = proto;
kfree_skb(skb);
return new_skb;
}
static inline void
ppp_send_frames(struct ppp *ppp)
{
struct sk_buff *skb;
while (!test_and_set_bit(0, &ppp->xmit_busy)) {
skb = skb_dequeue(&ppp->xmt_q);
if (skb == NULL) {
ppp->xmit_busy = 0;
break;
}
ppp_send_frame(ppp, skb);
}
if (!ppp->xmit_busy && ppp->dev.tbusy) {
ppp->dev.tbusy = 0;
mark_bh(NET_BH);
}
}
/*
* Called from the hardware (tty) layer when it can accept
* another packet.
*/
static void
ppp_output_wakeup(struct ppp *ppp)
{
CHECK_PPP_VOID();
if (!ppp->xmit_busy) {
printk(KERN_ERR "ppp_output_wakeup called but xmit_busy==0\n");
return;
}
ppp->xmit_busy = 0;
ppp_send_frames(ppp);
}
/*
* Send a control frame (from pppd).
*/
static void
ppp_send_ctrl(struct ppp *ppp, struct sk_buff *skb)
{
CHECK_PPP_VOID();
/*
* Put the packet on the queue, then send as many as we can.
*/
skb_queue_tail(&ppp->xmt_q, skb);
ppp_send_frames(ppp);
}
/*************************************************************
* NETWORK OUTPUT
* This routine accepts requests from the network layer
* and attempts to deliver the packets.
*************************************************************/
/*
* Send a frame to the peer.
* Returns 1 iff the frame was not accepted.
*/
static int
ppp_dev_xmit(struct sk_buff *skb, struct device *dev)
{
struct ppp *ppp = dev2ppp(dev);
struct tty_struct *tty = ppp2tty(ppp);
enum NPmode npmode;
int proto;
unsigned char *hdr;
/* just a little sanity check. */
if (skb == NULL)
return 0;
if (skb->data == NULL) {
kfree_skb(skb);
return 0;
}
/*
* Avoid timing problem should tty hangup while data is
* queued to be sent.
*/
if (!ppp->inuse) {
dev_kfree_skb(skb);
return 0;
}
/*
* Validate the tty interface
*/
if (tty == NULL) {
if (ppp->flags & SC_DEBUG)
printk(KERN_ERR
"ppp_dev_xmit: %s not connected to a TTY!\n",
dev->name);
dev_kfree_skb(skb);
return 0;
}
/*
* Work out the appropriate network-protocol mode for this packet.
*/
npmode = NPMODE_PASS; /* default */
switch (ntohs(skb->protocol)) {
case ETH_P_IP:
proto = PPP_IP;
npmode = ppp->sc_npmode[NP_IP];
break;
case ETH_P_IPV6:
proto = PPP_IPV6;
npmode = ppp->sc_npmode[NP_IPV6];
break;
case ETH_P_IPX:
proto = PPP_IPX;
npmode = ppp->sc_npmode[NP_IPX];
break;
case ETH_P_PPPTALK:
case ETH_P_ATALK:
proto = PPP_AT;
npmode = ppp->sc_npmode[NP_AT];
break;
default:
if (ppp->flags & SC_DEBUG)
printk(KERN_INFO "%s: packet for unknown proto %x\n",
ppp->name, ntohs(skb->protocol));
dev_kfree_skb(skb);
return 0;
}
/*
* Drop, accept or reject the packet depending on the mode.
*/
switch (npmode) {
case NPMODE_PASS:
break;
case NPMODE_QUEUE:
/*
* We may not send the packet now, so drop it.
* XXX It would be nice to be able to return it to the
* network system to be queued and retransmitted later.
*/
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s: returning frame\n", ppp->name);
dev_kfree_skb(skb);
return 0;
case NPMODE_ERROR:
case NPMODE_DROP:
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG
"ppp_dev_xmit: dropping (npmode = %d) on %s\n",
npmode, ppp->name);
dev_kfree_skb(skb);
return 0;
}
/*
* The dev->tbusy field acts as a lock to allow only
* one packet to be processed at a time. If we can't
* get the lock, try again later.
* We deliberately queue as little as possible inside
* the ppp driver in order to minimize the latency
* for high-priority packets.
*/
if (test_and_set_bit(0, &ppp->xmit_busy)) {
dev->tbusy = 1; /* can't take it now */
return 1;
}
dev->tbusy = 0;
/*
* Put the 4-byte PPP header on the packet.
* If there isn't room for it, we have to copy the packet.
*/
if (skb_headroom(skb) < PPP_HDRLEN) {
struct sk_buff *new_skb;
new_skb = alloc_skb(skb->len + PPP_HDRLEN, GFP_ATOMIC);
if (new_skb == NULL) {
printk(KERN_ERR "%s: skb hdr alloc failed\n",
ppp->name);
dev_kfree_skb(skb);
ppp->xmit_busy = 0;
ppp_send_frames(ppp);
return 0;
}
skb_reserve(new_skb, PPP_HDRLEN);
memcpy(skb_put(new_skb, skb->len), skb->data, skb->len);
dev_kfree_skb(skb);
skb = new_skb;
}
hdr = skb_push(skb, PPP_HDRLEN);
hdr[0] = PPP_ALLSTATIONS;
hdr[1] = PPP_UI;
hdr[2] = proto >> 8;
hdr[3] = proto;
ppp_send_frame(ppp, skb);
if (!ppp->xmit_busy)
ppp_send_frames(ppp);
return 0;
}
/*
* Generate the statistic information for the /proc/net/dev listing.
*/
static struct net_device_stats *
ppp_dev_stats (struct device *dev)
{
struct ppp *ppp = dev2ppp (dev);
ppp->estats.rx_packets = ppp->stats.ppp_ipackets;
ppp->estats.rx_errors = ppp->stats.ppp_ierrors;
ppp->estats.tx_packets = ppp->stats.ppp_opackets;
ppp->estats.tx_errors = ppp->stats.ppp_oerrors;
ppp->estats.rx_bytes = ppp->stats.ppp_ibytes;
ppp->estats.tx_bytes = ppp->stats.ppp_obytes;
return &ppp->estats;
}
/*************************************************************
* UTILITIES
* Miscellany called by various functions above.
*************************************************************/
/* Locate the previous instance of the PPP channel */
static struct ppp *
ppp_find(int pid_value)
{
struct ppp *ppp;
/* try to find the device which this pid is already using */
for (ppp = ppp_list; ppp != 0; ppp = ppp->next) {
if (ppp->inuse && ppp->sc_xfer == pid_value) {
ppp->sc_xfer = 0;
break;
}
}
return ppp;
}
/* allocate or create a PPP channel */
static struct ppp *
ppp_alloc(void)
{
int if_num;
int status;
struct device *dev;
struct ppp *ppp;
/* try to find an free device */
for (ppp = ppp_list; ppp != 0; ppp = ppp->next) {
if (!test_and_set_bit(0, &ppp->inuse)) {
dev = ppp2dev(ppp);
if (dev->flags & IFF_UP) {
clear_bit(0, &ppp->inuse);
continue;
}
/* Reregister device */
unregister_netdev(dev);
if (register_netdev(dev) == 0)
return ppp;
printk(KERN_DEBUG "could not reregister ppp device\n");
/* leave inuse set in this case */
}
}
/*
* There are no available units, so make a new one.
*/
ppp = (struct ppp *) kmalloc(sizeof(struct ppp), GFP_KERNEL);
if (ppp == 0) {
printk(KERN_ERR "ppp: struct ppp allocation failed\n");
return 0;
}
memset(ppp, 0, sizeof(*ppp));
/* initialize channel control data */
ppp->magic = PPP_MAGIC;
ppp->next = NULL;
ppp->inuse = 1;
ppp->read_wait = NULL;
/*
* Make up a suitable name for this device
*/
dev = ppp2dev(ppp);
dev->name = ppp->name;
if_num = dev_alloc_name(dev, "ppp%d");
if (if_num < 0) {
printk(KERN_ERR "ppp: dev_alloc_name failed (%d)\n", if_num);
kfree(ppp);
return 0;
}
ppp->line = if_num;
ppp->slcomp = NULL;
dev->next = NULL;
dev->init = ppp_init_dev;
dev->name = ppp->name;
dev->priv = (void *) ppp;
/* register device so that we can be ifconfig'd */
/* ppp_init_dev() will be called as a side-effect */
status = register_netdev (dev);
if (status == 0) {
printk(KERN_INFO "registered device %s\n", dev->name);
} else {
printk(KERN_ERR
"ppp_alloc - register_netdev(%s) = %d failure.\n",
dev->name, status);
kfree(ppp);
ppp = NULL;
}
/* link this unit into our list */
if (ppp_list == 0)
ppp_list = ppp;
else
ppp_last->next = ppp;
ppp_last = ppp;
return ppp;
}
/*
* Initialize the generic parts of the ppp structure.
*/
static void
ppp_generic_init(struct ppp *ppp)
{
int indx;
ppp->flags = 0;
ppp->mtu = PPP_MTU;
ppp->mru = PPP_MRU;
skb_queue_head_init(&ppp->xmt_q);
skb_queue_head_init(&ppp->rcv_q);
ppp->last_xmit = jiffies;
ppp->last_recv = jiffies;
ppp->xmit_busy = 0;
/* clear statistics */
memset(&ppp->stats, 0, sizeof (struct pppstat));
memset(&ppp->estats, 0, sizeof(struct net_device_stats));
/* PPP compression data */
ppp->sc_xc_state = NULL;
ppp->sc_rc_state = NULL;
for (indx = 0; indx < NUM_NP; ++indx)
ppp->sc_npmode[indx] = NPMODE_PASS;
}
/*
* Called to clean up the generic parts of the ppp structure.
*/
static void
ppp_release(struct ppp *ppp)
{
struct sk_buff *skb;
CHECK_PPP_MAGIC(ppp);
if (ppp->flags & SC_DEBUG)
printk(KERN_DEBUG "%s released\n", ppp->name);
ppp_ccp_closed(ppp);
/* Ensure that the pppd process is not hanging on select()/poll() */
wake_up_interruptible(&ppp->read_wait);
if (ppp->slcomp) {
slhc_free(ppp->slcomp);
ppp->slcomp = NULL;
}
while ((skb = skb_dequeue(&ppp->rcv_q)) != NULL)
kfree_skb(skb);
while ((skb = skb_dequeue(&ppp->xmt_q)) != NULL)
kfree_skb(skb);
ppp->inuse = 0;
if (ppp->dev.tbusy) {
ppp->dev.tbusy = 0;
mark_bh(NET_BH);
}
}
/*
* Utility procedures to print a buffer in hex/ascii
*/
static void
ppp_print_hex (register __u8 * out, const __u8 * in, int count)
{
register __u8 next_ch;
static char hex[] = "0123456789ABCDEF";
while (count-- > 0) {
next_ch = *in++;
*out++ = hex[(next_ch >> 4) & 0x0F];
*out++ = hex[next_ch & 0x0F];
++out;
}
}
static void
ppp_print_char (register __u8 * out, const __u8 * in, int count)
{
register __u8 next_ch;
while (count-- > 0) {
next_ch = *in++;
if (next_ch < 0x20 || next_ch > 0x7e)
*out++ = '.';
else {
*out++ = next_ch;
if (next_ch == '%') /* printk/syslogd has a bug !! */
*out++ = '%';
}
}
*out = '\0';
}
static void
ppp_print_buffer (const char *name, const __u8 *buf, int count)
{
__u8 line[44];
if (name != NULL)
printk(KERN_DEBUG "ppp: %s, count = %d\n", name, count);
while (count > 8) {
memset (line, 32, 44);
ppp_print_hex (line, buf, 8);
ppp_print_char (&line[8 * 3], buf, 8);
printk(KERN_DEBUG "%s\n", line);
count -= 8;
buf += 8;
}
if (count > 0) {
memset (line, 32, 44);
ppp_print_hex (line, buf, count);
ppp_print_char (&line[8 * 3], buf, count);
printk(KERN_DEBUG "%s\n", line);
}
}
/*************************************************************
* Compressor module interface
*************************************************************/
struct compressor_link {
struct compressor_link *next;
struct compressor *comp;
};
static struct compressor_link *ppp_compressors = (struct compressor_link *) 0;
static struct compressor *find_compressor (int type)
{
struct compressor_link *lnk;
unsigned long flags;
save_flags(flags);
cli();
lnk = ppp_compressors;
while (lnk != (struct compressor_link *) 0) {
if ((int) (__u8) lnk->comp->compress_proto == type) {
restore_flags(flags);
return lnk->comp;
}
lnk = lnk->next;
}
restore_flags(flags);
return (struct compressor *) 0;
}
#ifdef CONFIG_MODULES
static int ppp_register_compressor (struct compressor *cp)
{
struct compressor_link *new;
unsigned long flags;
new = (struct compressor_link *)
kmalloc (sizeof (struct compressor_link), GFP_KERNEL);
if (new == (struct compressor_link *) 0)
return 1;
save_flags(flags);
cli();
if (find_compressor (cp->compress_proto)) {
restore_flags(flags);
kfree (new);
return 0;
}
new->next = ppp_compressors;
new->comp = cp;
ppp_compressors = new;
restore_flags(flags);
return 0;
}
static void ppp_unregister_compressor (struct compressor *cp)
{
struct compressor_link *prev = (struct compressor_link *) 0;
struct compressor_link *lnk;
unsigned long flags;
save_flags(flags);
cli();
lnk = ppp_compressors;
while (lnk != (struct compressor_link *) 0) {
if (lnk->comp == cp) {
if (prev)
prev->next = lnk->next;
else
ppp_compressors = lnk->next;
kfree (lnk);
break;
}
prev = lnk;
lnk = lnk->next;
}
restore_flags(flags);
}
#endif
/*************************************************************
* Module support routines
*************************************************************/
#ifdef MODULE
int
init_module(void)
{
int status;
/* register our line disciplines */
status = ppp_first_time();
if (status != 0)
printk(KERN_INFO "PPP: ppp_init() failure %d\n", status);
return status;
}
void
cleanup_module(void)
{
int status;
struct ppp *ppp, *next_ppp;
int busy = 0;
/*
* Ensure that the devices are not in operation.
*/
for (ppp = ppp_list; ppp != 0; ppp = ppp->next) {
CHECK_PPP_MAGIC(ppp);
if (ppp->inuse || (ppp->dev.flags & IFF_UP))
++busy;
}
if (busy)
printk(KERN_CRIT "PPP: removing despite %d units in use!\n",
busy);
/*
* Release the tty registration of the line discipline so that
* ttys can no longer be put into PPP line discipline.
*/
status = tty_register_ldisc (N_PPP, NULL);
if (status != 0)
printk(KERN_ERR
"PPP: Unable to unregister ppp line discipline "
"(err = %d)\n", status);
else
printk(KERN_INFO
"PPP: ppp line discipline successfully unregistered\n");
/*
* De-register the devices so that there is no problem with them
*/
for (ppp = ppp_list; ppp != 0; ppp = next_ppp) {
next_ppp = ppp->next;
unregister_netdev(&ppp->dev);
kfree (ppp);
}
}
#endif
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