kernel-ark/drivers/isdn/hysdn/hysdn_boot.c
Andrew Morton c721bccece [PATCH] hysdn: remove custom types
hysdn defines its own types: ulong, uint, uchar and word.

Problem is, the module_param macros rely upon some of those identifiers having
special meanings too.  The net effect is that module_param() and friends
cannot be used in ISDN because of this namespace clash.

So remove the hysdn-private defines and open-code them all.

Cc: Karsten Keil <kkeil@suse.de>
Cc: Rusty Russell <rusty@rustcorp.com.au>
Signed-off-by: Andrew Morton <akpm@osdl.org>
Signed-off-by: Linus Torvalds <torvalds@osdl.org>
2006-03-25 08:22:52 -08:00

400 lines
14 KiB
C

/* $Id: hysdn_boot.c,v 1.4.6.4 2001/09/23 22:24:54 kai Exp $
*
* Linux driver for HYSDN cards
* specific routines for booting and pof handling
*
* Author Werner Cornelius (werner@titro.de) for Hypercope GmbH
* Copyright 1999 by Werner Cornelius (werner@titro.de)
*
* This software may be used and distributed according to the terms
* of the GNU General Public License, incorporated herein by reference.
*
*/
#include <linux/vmalloc.h>
#include <linux/slab.h>
#include <asm/uaccess.h>
#include "hysdn_defs.h"
#include "hysdn_pof.h"
/********************************/
/* defines for pof read handler */
/********************************/
#define POF_READ_FILE_HEAD 0
#define POF_READ_TAG_HEAD 1
#define POF_READ_TAG_DATA 2
/************************************************************/
/* definition of boot specific data area. This data is only */
/* needed during boot and so allocated dynamically. */
/************************************************************/
struct boot_data {
unsigned short Cryptor; /* for use with Decrypt function */
unsigned short Nrecs; /* records remaining in file */
unsigned char pof_state;/* actual state of read handler */
unsigned char is_crypted;/* card data is crypted */
int BufSize; /* actual number of bytes bufferd */
int last_error; /* last occurred error */
unsigned short pof_recid;/* actual pof recid */
unsigned long pof_reclen;/* total length of pof record data */
unsigned long pof_recoffset;/* actual offset inside pof record */
union {
unsigned char BootBuf[BOOT_BUF_SIZE];/* buffer as byte count */
tPofRecHdr PofRecHdr; /* header for actual record/chunk */
tPofFileHdr PofFileHdr; /* header from POF file */
tPofTimeStamp PofTime; /* time information */
} buf;
};
/*****************************************************/
/* start decryption of successive POF file chuncks. */
/* */
/* to be called at start of POF file reading, */
/* before starting any decryption on any POF record. */
/*****************************************************/
static void
StartDecryption(struct boot_data *boot)
{
boot->Cryptor = CRYPT_STARTTERM;
} /* StartDecryption */
/***************************************************************/
/* decrypt complete BootBuf */
/* NOTE: decryption must be applied to all or none boot tags - */
/* to HI and LO boot loader and (all) seq tags, because */
/* global Cryptor is started for whole POF. */
/***************************************************************/
static void
DecryptBuf(struct boot_data *boot, int cnt)
{
unsigned char *bufp = boot->buf.BootBuf;
while (cnt--) {
boot->Cryptor = (boot->Cryptor >> 1) ^ ((boot->Cryptor & 1U) ? CRYPT_FEEDTERM : 0);
*bufp++ ^= (unsigned char)boot->Cryptor;
}
} /* DecryptBuf */
/********************************************************************************/
/* pof_handle_data executes the required actions dependent on the active record */
/* id. If successful 0 is returned, a negative value shows an error. */
/********************************************************************************/
static int
pof_handle_data(hysdn_card * card, int datlen)
{
struct boot_data *boot = card->boot; /* pointer to boot specific data */
long l;
unsigned char *imgp;
int img_len;
/* handle the different record types */
switch (boot->pof_recid) {
case TAG_TIMESTMP:
if (card->debug_flags & LOG_POF_RECORD)
hysdn_addlog(card, "POF created %s", boot->buf.PofTime.DateTimeText);
break;
case TAG_CBOOTDTA:
DecryptBuf(boot, datlen); /* we need to encrypt the buffer */
case TAG_BOOTDTA:
if (card->debug_flags & LOG_POF_RECORD)
hysdn_addlog(card, "POF got %s len=%d offs=0x%lx",
(boot->pof_recid == TAG_CBOOTDTA) ? "CBOOTDATA" : "BOOTDTA",
datlen, boot->pof_recoffset);
if (boot->pof_reclen != POF_BOOT_LOADER_TOTAL_SIZE) {
boot->last_error = EPOF_BAD_IMG_SIZE; /* invalid length */
return (boot->last_error);
}
imgp = boot->buf.BootBuf; /* start of buffer */
img_len = datlen; /* maximum length to transfer */
l = POF_BOOT_LOADER_OFF_IN_PAGE -
(boot->pof_recoffset & (POF_BOOT_LOADER_PAGE_SIZE - 1));
if (l > 0) {
/* buffer needs to be truncated */
imgp += l; /* advance pointer */
img_len -= l; /* adjust len */
}
/* at this point no special handling for data wrapping over buffer */
/* is necessary, because the boot image always will be adjusted to */
/* match a page boundary inside the buffer. */
/* The buffer for the boot image on the card is filled in 2 cycles */
/* first the 1024 hi-words are put in the buffer, then the low 1024 */
/* word are handled in the same way with different offset. */
if (img_len > 0) {
/* data available for copy */
if ((boot->last_error =
card->writebootimg(card, imgp,
(boot->pof_recoffset > POF_BOOT_LOADER_PAGE_SIZE) ? 2 : 0)) < 0)
return (boot->last_error);
}
break; /* end of case boot image hi/lo */
case TAG_CABSDATA:
DecryptBuf(boot, datlen); /* we need to encrypt the buffer */
case TAG_ABSDATA:
if (card->debug_flags & LOG_POF_RECORD)
hysdn_addlog(card, "POF got %s len=%d offs=0x%lx",
(boot->pof_recid == TAG_CABSDATA) ? "CABSDATA" : "ABSDATA",
datlen, boot->pof_recoffset);
if ((boot->last_error = card->writebootseq(card, boot->buf.BootBuf, datlen) < 0))
return (boot->last_error); /* error writing data */
if (boot->pof_recoffset + datlen >= boot->pof_reclen)
return (card->waitpofready(card)); /* data completely spooled, wait for ready */
break; /* end of case boot seq data */
default:
if (card->debug_flags & LOG_POF_RECORD)
hysdn_addlog(card, "POF got data(id=0x%lx) len=%d offs=0x%lx", boot->pof_recid,
datlen, boot->pof_recoffset);
break; /* simply skip record */
} /* switch boot->pof_recid */
return (0);
} /* pof_handle_data */
/******************************************************************************/
/* pof_write_buffer is called when the buffer has been filled with the needed */
/* number of data bytes. The number delivered is additionally supplied for */
/* verification. The functions handles the data and returns the needed number */
/* of bytes for the next action. If the returned value is 0 or less an error */
/* occurred and booting must be aborted. */
/******************************************************************************/
int
pof_write_buffer(hysdn_card * card, int datlen)
{
struct boot_data *boot = card->boot; /* pointer to boot specific data */
if (!boot)
return (-EFAULT); /* invalid call */
if (boot->last_error < 0)
return (boot->last_error); /* repeated error */
if (card->debug_flags & LOG_POF_WRITE)
hysdn_addlog(card, "POF write: got %d bytes ", datlen);
switch (boot->pof_state) {
case POF_READ_FILE_HEAD:
if (card->debug_flags & LOG_POF_WRITE)
hysdn_addlog(card, "POF write: checking file header");
if (datlen != sizeof(tPofFileHdr)) {
boot->last_error = -EPOF_INTERNAL;
break;
}
if (boot->buf.PofFileHdr.Magic != TAGFILEMAGIC) {
boot->last_error = -EPOF_BAD_MAGIC;
break;
}
/* Setup the new state and vars */
boot->Nrecs = (unsigned short)(boot->buf.PofFileHdr.N_PofRecs); /* limited to 65535 */
boot->pof_state = POF_READ_TAG_HEAD; /* now start with single tags */
boot->last_error = sizeof(tPofRecHdr); /* new length */
break;
case POF_READ_TAG_HEAD:
if (card->debug_flags & LOG_POF_WRITE)
hysdn_addlog(card, "POF write: checking tag header");
if (datlen != sizeof(tPofRecHdr)) {
boot->last_error = -EPOF_INTERNAL;
break;
}
boot->pof_recid = boot->buf.PofRecHdr.PofRecId; /* actual pof recid */
boot->pof_reclen = boot->buf.PofRecHdr.PofRecDataLen; /* total length */
boot->pof_recoffset = 0; /* no starting offset */
if (card->debug_flags & LOG_POF_RECORD)
hysdn_addlog(card, "POF: got record id=0x%lx length=%ld ",
boot->pof_recid, boot->pof_reclen);
boot->pof_state = POF_READ_TAG_DATA; /* now start with tag data */
if (boot->pof_reclen < BOOT_BUF_SIZE)
boot->last_error = boot->pof_reclen; /* limit size */
else
boot->last_error = BOOT_BUF_SIZE; /* maximum */
if (!boot->last_error) { /* no data inside record */
boot->pof_state = POF_READ_TAG_HEAD; /* now start with single tags */
boot->last_error = sizeof(tPofRecHdr); /* new length */
}
break;
case POF_READ_TAG_DATA:
if (card->debug_flags & LOG_POF_WRITE)
hysdn_addlog(card, "POF write: getting tag data");
if (datlen != boot->last_error) {
boot->last_error = -EPOF_INTERNAL;
break;
}
if ((boot->last_error = pof_handle_data(card, datlen)) < 0)
return (boot->last_error); /* an error occurred */
boot->pof_recoffset += datlen;
if (boot->pof_recoffset >= boot->pof_reclen) {
boot->pof_state = POF_READ_TAG_HEAD; /* now start with single tags */
boot->last_error = sizeof(tPofRecHdr); /* new length */
} else {
if (boot->pof_reclen - boot->pof_recoffset < BOOT_BUF_SIZE)
boot->last_error = boot->pof_reclen - boot->pof_recoffset; /* limit size */
else
boot->last_error = BOOT_BUF_SIZE; /* maximum */
}
break;
default:
boot->last_error = -EPOF_INTERNAL; /* unknown state */
break;
} /* switch (boot->pof_state) */
return (boot->last_error);
} /* pof_write_buffer */
/*******************************************************************************/
/* pof_write_open is called when an open for boot on the cardlog device occurs. */
/* The function returns the needed number of bytes for the next operation. If */
/* the returned number is less or equal 0 an error specified by this code */
/* occurred. Additionally the pointer to the buffer data area is set on success */
/*******************************************************************************/
int
pof_write_open(hysdn_card * card, unsigned char **bufp)
{
struct boot_data *boot; /* pointer to boot specific data */
if (card->boot) {
if (card->debug_flags & LOG_POF_OPEN)
hysdn_addlog(card, "POF open: already opened for boot");
return (-ERR_ALREADY_BOOT); /* boot already active */
}
/* error no mem available */
if (!(boot = kmalloc(sizeof(struct boot_data), GFP_KERNEL))) {
if (card->debug_flags & LOG_MEM_ERR)
hysdn_addlog(card, "POF open: unable to allocate mem");
return (-EFAULT);
}
card->boot = boot;
card->state = CARD_STATE_BOOTING;
memset(boot, 0, sizeof(struct boot_data));
card->stopcard(card); /* first stop the card */
if (card->testram(card)) {
if (card->debug_flags & LOG_POF_OPEN)
hysdn_addlog(card, "POF open: DPRAM test failure");
boot->last_error = -ERR_BOARD_DPRAM;
card->state = CARD_STATE_BOOTERR; /* show boot error */
return (boot->last_error);
}
boot->BufSize = 0; /* Buffer is empty */
boot->pof_state = POF_READ_FILE_HEAD; /* read file header */
StartDecryption(boot); /* if POF File should be encrypted */
if (card->debug_flags & LOG_POF_OPEN)
hysdn_addlog(card, "POF open: success");
*bufp = boot->buf.BootBuf; /* point to buffer */
return (sizeof(tPofFileHdr));
} /* pof_write_open */
/********************************************************************************/
/* pof_write_close is called when an close of boot on the cardlog device occurs. */
/* The return value must be 0 if everything has happened as desired. */
/********************************************************************************/
int
pof_write_close(hysdn_card * card)
{
struct boot_data *boot = card->boot; /* pointer to boot specific data */
if (!boot)
return (-EFAULT); /* invalid call */
card->boot = NULL; /* no boot active */
kfree(boot);
if (card->state == CARD_STATE_RUN)
card->set_errlog_state(card, 1); /* activate error log */
if (card->debug_flags & LOG_POF_OPEN)
hysdn_addlog(card, "POF close: success");
return (0);
} /* pof_write_close */
/*********************************************************************************/
/* EvalSysrTokData checks additional records delivered with the Sysready Message */
/* when POF has been booted. A return value of 0 is used if no error occurred. */
/*********************************************************************************/
int
EvalSysrTokData(hysdn_card *card, unsigned char *cp, int len)
{
u_char *p;
u_char crc;
if (card->debug_flags & LOG_POF_RECORD)
hysdn_addlog(card, "SysReady Token data length %d", len);
if (len < 2) {
hysdn_addlog(card, "SysReady Token Data to short");
return (1);
}
for (p = cp, crc = 0; p < (cp + len - 2); p++)
if ((crc & 0x80))
crc = (((u_char) (crc << 1)) + 1) + *p;
else
crc = ((u_char) (crc << 1)) + *p;
crc = ~crc;
if (crc != *(cp + len - 1)) {
hysdn_addlog(card, "SysReady Token Data invalid CRC");
return (1);
}
len--; /* don't check CRC byte */
while (len > 0) {
if (*cp == SYSR_TOK_END)
return (0); /* End of Token stream */
if (len < (*(cp + 1) + 2)) {
hysdn_addlog(card, "token 0x%x invalid length %d", *cp, *(cp + 1));
return (1);
}
switch (*cp) {
case SYSR_TOK_B_CHAN: /* 1 */
if (*(cp + 1) != 1)
return (1); /* length invalid */
card->bchans = *(cp + 2);
break;
case SYSR_TOK_FAX_CHAN: /* 2 */
if (*(cp + 1) != 1)
return (1); /* length invalid */
card->faxchans = *(cp + 2);
break;
case SYSR_TOK_MAC_ADDR: /* 3 */
if (*(cp + 1) != 6)
return (1); /* length invalid */
memcpy(card->mac_addr, cp + 2, 6);
break;
default:
hysdn_addlog(card, "unknown token 0x%02x length %d", *cp, *(cp + 1));
break;
}
len -= (*(cp + 1) + 2); /* adjust len */
cp += (*(cp + 1) + 2); /* and pointer */
}
hysdn_addlog(card, "no end token found");
return (1);
} /* EvalSysrTokData */