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#include <errno.h>
#include <assert.h>
#include <realmode.h>
#include <gateA20.h>
#include <memsizes.h>
#include <basemem_packet.h>
#include <gpxe/uaccess.h>
#include <gpxe/segment.h>
#include <gpxe/init.h>
#include <gpxe/netdevice.h>
#include <gpxe/fakedhcp.h>
#include <gpxe/image.h>
#include <gpxe/features.h>
/** @file
*
* NBI image format.
*
* The Net Boot Image format is defined by the "Draft Net Boot Image
* Proposal 0.3" by Jamie Honan, Gero Kuhlmann and Ken Yap. It is now
* considered to be a legacy format, but it still included because a
* large amount of software (e.g. nymph, LTSP) makes use of NBI files.
*
* Etherboot does not implement the INT 78 callback interface
* described by the NBI specification. For a callback interface on
* x86 architecture, use PXE.
*
*/
FEATURE ( FEATURE_IMAGE, "NBI", DHCP_EB_FEATURE_NBI, 1 );
struct image_type nbi_image_type __image_type ( PROBE_NORMAL );
/**
* An NBI image header
*
* Note that the length field uses a peculiar encoding; use the
* NBI_LENGTH() macro to decode the actual header length.
*
*/
struct imgheader {
unsigned long magic; /**< Magic number (NBI_MAGIC) */
union {
unsigned char length; /**< Nibble-coded header length */
unsigned long flags; /**< Image flags */
};
segoff_t location; /**< 16-bit seg:off header location */
union {
segoff_t segoff; /**< 16-bit seg:off entry point */
unsigned long linear; /**< 32-bit entry point */
} execaddr;
} __attribute__ (( packed ));
/** NBI magic number */
#define NBI_MAGIC 0x1B031336UL
/* Interpretation of the "length" fields */
#define NBI_NONVENDOR_LENGTH(len) ( ( (len) & 0x0f ) << 2 )
#define NBI_VENDOR_LENGTH(len) ( ( (len) & 0xf0 ) >> 2 )
#define NBI_LENGTH(len) ( NBI_NONVENDOR_LENGTH(len) + NBI_VENDOR_LENGTH(len) )
/* Interpretation of the "flags" fields */
#define NBI_PROGRAM_RETURNS(flags) ( (flags) & ( 1 << 8 ) )
#define NBI_LINEAR_EXEC_ADDR(flags) ( (flags) & ( 1 << 31 ) )
/** NBI header length */
#define NBI_HEADER_LENGTH 512
/**
* An NBI segment header
*
* Note that the length field uses a peculiar encoding; use the
* NBI_LENGTH() macro to decode the actual header length.
*
*/
struct segheader {
unsigned char length; /**< Nibble-coded header length */
unsigned char vendortag; /**< Vendor-defined private tag */
unsigned char reserved;
unsigned char flags; /**< Segment flags */
unsigned long loadaddr; /**< Load address */
unsigned long imglength; /**< Segment length in NBI file */
unsigned long memlength; /**< Segment length in memory */
};
/* Interpretation of the "flags" fields */
#define NBI_LOADADDR_FLAGS(flags) ( (flags) & 0x03 )
#define NBI_LOADADDR_ABS 0x00
#define NBI_LOADADDR_AFTER 0x01
#define NBI_LOADADDR_END 0x02
#define NBI_LOADADDR_BEFORE 0x03
#define NBI_LAST_SEGHEADER(flags) ( (flags) & ( 1 << 2 ) )
/* Define a type for passing info to a loaded program */
struct ebinfo {
uint8_t major, minor; /* Version */
uint16_t flags; /* Bit flags */
};
/** Info passed to NBI image */
static struct ebinfo loaderinfo = {
VERSION_MAJOR, VERSION_MINOR,
0
};
/**
* Prepare a segment for an NBI image
*
* @v image NBI image
* @v offset Offset within NBI image
* @v filesz Length of initialised-data portion of the segment
* @v memsz Total length of the segment
* @v src Source for initialised data
* @ret rc Return status code
*/
static int nbi_prepare_segment ( struct image *image, size_t offset __unused,
userptr_t dest, size_t filesz, size_t memsz ){
int rc;
if ( ( rc = prep_segment ( dest, filesz, memsz ) ) != 0 ) {
DBGC ( image, "NBI %p could not prepare segment: %s\n",
image, strerror ( rc ) );
return rc;
}
return 0;
}
/**
* Load a segment for an NBI image
*
* @v image NBI image
* @v offset Offset within NBI image
* @v filesz Length of initialised-data portion of the segment
* @v memsz Total length of the segment
* @v src Source for initialised data
* @ret rc Return status code
*/
static int nbi_load_segment ( struct image *image, size_t offset,
userptr_t dest, size_t filesz,
size_t memsz __unused ) {
memcpy_user ( dest, 0, image->data, offset, filesz );
return 0;
}
/**
* Process segments of an NBI image
*
* @v image NBI image
* @v imgheader Image header information
* @v process Function to call for each segment
* @ret rc Return status code
*/
static int nbi_process_segments ( struct image *image,
struct imgheader *imgheader,
int ( * process ) ( struct image *image,
size_t offset,
userptr_t dest,
size_t filesz,
size_t memsz ) ) {
struct segheader sh;
size_t offset = 0;
size_t sh_off;
userptr_t dest;
size_t filesz;
size_t memsz;
int rc;
/* Copy image header to target location */
dest = real_to_user ( imgheader->location.segment,
imgheader->location.offset );
filesz = memsz = NBI_HEADER_LENGTH;
if ( ( rc = process ( image, offset, dest, filesz, memsz ) ) != 0 )
return rc;
offset += filesz;
/* Process segments in turn */
sh_off = NBI_LENGTH ( imgheader->length );
do {
/* Read segment header */
copy_from_user ( &sh, image->data, sh_off, sizeof ( sh ) );
if ( sh.length == 0 ) {
/* Avoid infinite loop? */
DBGC ( image, "NBI %p invalid segheader length 0\n",
image );
return -ENOEXEC;
}
/* Calculate segment load address */
switch ( NBI_LOADADDR_FLAGS ( sh.flags ) ) {
case NBI_LOADADDR_ABS:
dest = phys_to_user ( sh.loadaddr );
break;
case NBI_LOADADDR_AFTER:
dest = userptr_add ( dest, memsz + sh.loadaddr );
break;
case NBI_LOADADDR_BEFORE:
dest = userptr_add ( dest, -sh.loadaddr );
break;
case NBI_LOADADDR_END:
/* Not correct according to the spec, but
* maintains backwards compatibility with
* previous versions of Etherboot.
*/
dest = phys_to_user ( ( extmemsize() + 1024 ) * 1024
- sh.loadaddr );
break;
default:
/* Cannot be reached */
assert ( 0 );
}
/* Process this segment */
filesz = sh.imglength;
memsz = sh.memlength;
if ( ( offset + filesz ) > image->len ) {
DBGC ( image, "NBI %p segment outside file\n", image );
return -ENOEXEC;
}
if ( ( rc = process ( image, offset, dest,
filesz, memsz ) ) != 0 ) {
return rc;
}
offset += filesz;
/* Next segheader */
sh_off += NBI_LENGTH ( sh.length );
if ( sh_off >= NBI_HEADER_LENGTH ) {
DBGC ( image, "NBI %p header overflow\n", image );
return -ENOEXEC;
}
} while ( ! NBI_LAST_SEGHEADER ( sh.flags ) );
if ( offset != image->len ) {
DBGC ( image, "NBI %p length wrong (file %zd, metadata %zd)\n",
image, image->len, offset );
return -ENOEXEC;
}
return 0;
}
/**
* Load an NBI image into memory
*
* @v image NBI image
* @ret rc Return status code
*/
static int nbi_load ( struct image *image ) {
struct imgheader imgheader;
int rc;
/* If we don't have enough data give up */
if ( image->len < NBI_HEADER_LENGTH ) {
DBGC ( image, "NBI %p too short for an NBI image\n", image );
return -ENOEXEC;
}
/* Check image header */
copy_from_user ( &imgheader, image->data, 0, sizeof ( imgheader ) );
if ( imgheader.magic != NBI_MAGIC ) {
DBGC ( image, "NBI %p has no NBI signature\n", image );
return -ENOEXEC;
}
/* This is an NBI image, valid or otherwise */
if ( ! image->type )
image->type = &nbi_image_type;
DBGC ( image, "NBI %p placing header at %hx:%hx\n", image,
imgheader.location.segment, imgheader.location.offset );
/* NBI files can have overlaps between segments; the bss of
* one segment may overlap the initialised data of another. I
* assume this is a design flaw, but there are images out
* there that we need to work with. We therefore do two
* passes: first to initialise the segments, then to copy the
* data. This avoids zeroing out already-copied data.
*/
if ( ( rc = nbi_process_segments ( image, &imgheader,
nbi_prepare_segment ) ) != 0 )
return rc;
if ( ( rc = nbi_process_segments ( image, &imgheader,
nbi_load_segment ) ) != 0 )
return rc;
/* Record header address in image private data field */
image->priv.user = real_to_user ( imgheader.location.segment,
imgheader.location.offset );
return 0;
}
/**
* Boot a 16-bit NBI image
*
* @v imgheader Image header information
* @ret rc Return status code, if image returns
*/
static int nbi_boot16 ( struct image *image, struct imgheader *imgheader ) {
int discard_D, discard_S, discard_b;
int rc;
DBGC ( image, "NBI %p executing 16-bit image at %04x:%04x\n", image,
imgheader->execaddr.segoff.segment,
imgheader->execaddr.segoff.offset );
gateA20_unset();
__asm__ __volatile__ (
REAL_CODE ( "pushw %%ds\n\t" /* far pointer to bootp data */
"pushw %%bx\n\t"
"pushl %%esi\n\t" /* location */
"pushw %%cs\n\t" /* lcall execaddr */
"call 1f\n\t"
"jmp 2f\n\t"
"\n1:\n\t"
"pushl %%edi\n\t"
"lret\n\t"
"\n2:\n\t"
"addw $8,%%sp\n\t" /* clean up stack */ )
: "=a" ( rc ), "=D" ( discard_D ), "=S" ( discard_S ),
"=b" ( discard_b )
: "D" ( imgheader->execaddr.segoff ),
"S" ( imgheader->location ),
"b" ( __from_data16 ( basemem_packet ) )
: "ecx", "edx", "ebp" );
gateA20_set();
return rc;
}
/**
* Boot a 32-bit NBI image
*
* @v imgheader Image header information
* @ret rc Return status code, if image returns
*/
static int nbi_boot32 ( struct image *image, struct imgheader *imgheader ) {
int discard_D, discard_S, discard_b;
int rc;
DBGC ( image, "NBI %p executing 32-bit image at %lx\n",
image, imgheader->execaddr.linear );
/* no gateA20_unset for PM call */
/* Jump to OS with flat physical addressing */
__asm__ __volatile__ (
PHYS_CODE ( "pushl %%ebx\n\t" /* bootp data */
"pushl %%esi\n\t" /* imgheader */
"pushl %%eax\n\t" /* loaderinfo */
"call *%%edi\n\t"
"addl $12, %%esp\n\t" /* clean up stack */ )
: "=a" ( rc ), "=D" ( discard_D ), "=S" ( discard_S ),
"=b" ( discard_b )
: "D" ( imgheader->execaddr.linear ),
"S" ( ( imgheader->location.segment << 4 ) +
imgheader->location.offset ),
"b" ( virt_to_phys ( basemem_packet ) ),
"a" ( virt_to_phys ( &loaderinfo ) )
: "ecx", "edx", "ebp", "memory" );
return rc;
}
/**
* Guess boot network device
*
* @ret netdev Boot network device
*/
static struct net_device * guess_boot_netdev ( void ) {
struct net_device *boot_netdev;
/* Just use the first network device */
for_each_netdev ( boot_netdev ) {
return boot_netdev;
}
return NULL;
}
/**
* Prepare DHCP parameter block for NBI image
*
* @v image NBI image
* @ret rc Return status code
*/
static int nbi_prepare_dhcp ( struct image *image ) {
struct net_device *boot_netdev;
int rc;
boot_netdev = guess_boot_netdev();
if ( ! boot_netdev ) {
DBGC ( image, "NBI %p could not identify a network device\n",
image );
return -ENODEV;
}
if ( ( rc = create_fakedhcpack ( boot_netdev, basemem_packet,
sizeof ( basemem_packet ) ) ) != 0 ) {
DBGC ( image, "NBI %p failed to build DHCP packet\n", image );
return rc;
}
return 0;
}
/**
* Execute a loaded NBI image
*
* @v image NBI image
* @ret rc Return status code
*/
static int nbi_exec ( struct image *image ) {
struct imgheader imgheader;
int may_return;
int rc;
copy_from_user ( &imgheader, image->priv.user, 0,
sizeof ( imgheader ) );
/* Prepare DHCP option block */
if ( ( rc = nbi_prepare_dhcp ( image ) ) != 0 )
return rc;
/* Shut down now if NBI image will not return */
may_return = NBI_PROGRAM_RETURNS ( imgheader.flags );
if ( ! may_return )
shutdown();
/* Execute NBI image */
if ( NBI_LINEAR_EXEC_ADDR ( imgheader.flags ) ) {
rc = nbi_boot32 ( image, &imgheader );
} else {
rc = nbi_boot16 ( image, &imgheader );
}
if ( ! may_return ) {
/* Cannot continue after shutdown() called */
DBGC ( image, "NBI %p returned %d from non-returnable image\n",
image, rc );
while ( 1 ) {}
}
DBGC ( image, "NBI %p returned %d\n", image, rc );
return rc;
}
/** NBI image type */
struct image_type nbi_image_type __image_type ( PROBE_NORMAL ) = {
.name = "NBI",
.load = nbi_load,
.exec = nbi_exec,
};
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