#include <stdio.h>
#include <sys/stat.h>
#define ENCODE
#define VERBOSE
#include "nrv2b.c"
FILE *infile, *outfile;
#define DEBUG 0
struct input_file {
void *buf;
size_t len;
};
struct output_file {
void *buf;
size_t len;
size_t hdr_len;
size_t max_len;
};
struct zinfo_common {
char type[4];
char pad[12];
};
struct zinfo_copy {
char type[4];
uint32_t offset;
uint32_t len;
uint32_t align;
};
struct zinfo_pack {
char type[4];
uint32_t offset;
uint32_t len;
uint32_t align;
};
struct zinfo_payload {
char type[4];
uint32_t pad1;
uint32_t pad2;
uint32_t align;
};
struct zinfo_add {
char type[4];
uint32_t offset;
uint32_t divisor;
uint32_t pad;
};
union zinfo_record {
struct zinfo_common common;
struct zinfo_copy copy;
struct zinfo_pack pack;
struct zinfo_payload payload;
struct zinfo_add add;
};
struct zinfo_file {
union zinfo_record *zinfo;
unsigned int num_entries;
};
static unsigned long align ( unsigned long value, unsigned long align ) {
return ( ( value + align - 1 ) & ~( align - 1 ) );
}
static int read_file ( const char *filename, void **buf, size_t *len ) {
FILE *file;
struct stat stat;
file = fopen ( filename, "r" );
if ( ! file ) {
fprintf ( stderr, "Could not open %s: %s\n", filename,
strerror ( errno ) );
goto err;
}
if ( fstat ( fileno ( file ), &stat ) < 0 ) {
fprintf ( stderr, "Could not stat %s: %s\n", filename,
strerror ( errno ) );
goto err;
}
*len = stat.st_size;
*buf = malloc ( *len );
if ( ! *buf ) {
fprintf ( stderr, "Could not malloc() %zd bytes for %s: %s\n",
*len, filename, strerror ( errno ) );
goto err;
}
if ( fread ( *buf, 1, *len, file ) != *len ) {
fprintf ( stderr, "Could not read %zd bytes from %s: %s\n",
*len, filename, strerror ( errno ) );
goto err;
}
fclose ( file );
return 0;
err:
if ( file )
fclose ( file );
return -1;
}
static int read_input_file ( const char *filename,
struct input_file *input ) {
return read_file ( filename, &input->buf, &input->len );
}
static int read_zinfo_file ( const char *filename,
struct zinfo_file *zinfo ) {
void *buf;
size_t len;
if ( read_file ( filename, &buf, &len ) < 0 )
return -1;
if ( ( len % sizeof ( *(zinfo->zinfo) ) ) != 0 ) {
fprintf ( stderr, ".zinfo file %s has invalid length %zd\n",
filename, len );
return -1;
}
zinfo->zinfo = buf;
zinfo->num_entries = ( len / sizeof ( *(zinfo->zinfo) ) );
return 0;
}
static int alloc_output_file ( size_t max_len, struct output_file *output ) {
output->len = 0;
output->max_len = ( max_len );
output->buf = malloc ( max_len );
if ( ! output->buf ) {
fprintf ( stderr, "Could not allocate %zd bytes for output\n",
max_len );
return -1;
}
memset ( output->buf, 0xff, sizeof ( output->buf ) );
return 0;
}
static int process_zinfo_copy ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
struct zinfo_copy *copy = &zinfo->copy;
size_t offset = copy->offset;
size_t len = copy->len;
if ( ( offset + len ) > input->len ) {
fprintf ( stderr, "Input buffer overrun on copy\n" );
return -1;
}
output->len = align ( output->len, copy->align );
if ( ( output->len + len ) > output->max_len ) {
fprintf ( stderr, "Output buffer overrun on copy\n" );
return -1;
}
if ( DEBUG ) {
fprintf ( stderr, "COPY [%#zx,%#zx) to [%#zx,%#zx)\n",
offset, ( offset + len ), output->len,
( output->len + len ) );
}
memcpy ( ( output->buf + output->len ),
( input->buf + offset ), len );
output->len += len;
return 0;
}
static int process_zinfo_pack ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
struct zinfo_pack *pack = &zinfo->pack;
size_t offset = pack->offset;
size_t len = pack->len;
unsigned long packed_len;
if ( ( offset + len ) > input->len ) {
fprintf ( stderr, "Input buffer overrun on pack\n" );
return -1;
}
output->len = align ( output->len, pack->align );
if ( output->len > output->max_len ) {
fprintf ( stderr, "Output buffer overrun on pack\n" );
return -1;
}
if ( ucl_nrv2b_99_compress ( ( input->buf + offset ), len,
( output->buf + output->len ),
&packed_len, 0 ) != UCL_E_OK ) {
fprintf ( stderr, "Compression failure\n" );
return -1;
}
if ( DEBUG ) {
fprintf ( stderr, "PACK [%#zx,%#zx) to [%#zx,%#zx)\n",
offset, ( offset + len ), output->len,
( size_t )( output->len + packed_len ) );
}
output->len += packed_len;
if ( output->len > output->max_len ) {
fprintf ( stderr, "Output buffer overrun on pack\n" );
return -1;
}
return 0;
}
static int process_zinfo_payl ( struct input_file *input
__attribute__ (( unused )),
struct output_file *output,
union zinfo_record *zinfo ) {
struct zinfo_payload *payload = &zinfo->payload;
output->len = align ( output->len, payload->align );
output->hdr_len = output->len;
if ( DEBUG ) {
fprintf ( stderr, "PAYL at %#zx\n", output->hdr_len );
}
return 0;
}
static int process_zinfo_add ( struct input_file *input
__attribute__ (( unused )),
struct output_file *output,
size_t len,
struct zinfo_add *add, size_t offset,
size_t datasize ) {
void *target;
signed long addend;
unsigned long size;
signed long val;
unsigned long mask;
offset += add->offset;
if ( ( offset + datasize ) > output->len ) {
fprintf ( stderr, "Add at %#zx outside output buffer\n",
offset );
return -1;
}
target = ( output->buf + offset );
size = ( align ( len, add->divisor ) / add->divisor );
switch ( datasize ) {
case 1:
addend = *( ( int8_t * ) target );
break;
case 2:
addend = *( ( int16_t * ) target );
break;
case 4:
addend = *( ( int32_t * ) target );
break;
default:
fprintf ( stderr, "Unsupported add datasize %zd\n",
datasize );
return -1;
}
val = size + addend;
/* The result of 1UL << ( 8 * sizeof(unsigned long) ) is undefined */
mask = ( ( datasize < sizeof ( mask ) ) ?
( ( 1UL << ( 8 * datasize ) ) - 1 ) : ~0UL );
if ( val < 0 ) {
fprintf ( stderr, "Add %s%#x+%#lx at %#zx %sflows field\n",
( ( addend < 0 ) ? "-" : "" ), abs ( addend ), size,
offset, ( ( addend < 0 ) ? "under" : "over" ) );
return -1;
}
if ( val & ~mask ) {
fprintf ( stderr, "Add %s%#x+%#lx at %#zx overflows %zd-byte "
"field (%d bytes too big)\n",
( ( addend < 0 ) ? "-" : "" ), abs ( addend ), size,
offset, datasize,
( int )( ( val - mask - 1 ) * add->divisor ) );
return -1;
}
switch ( datasize ) {
case 1:
*( ( uint8_t * ) target ) = val;
break;
case 2:
*( ( uint16_t * ) target ) = val;
break;
case 4:
*( ( uint32_t * ) target ) = val;
break;
}
if ( DEBUG ) {
fprintf ( stderr, "ADDx [%#zx,%#zx) (%s%#x+(%#zx/%#x)) = "
"%#lx\n", offset, ( offset + datasize ),
( ( addend < 0 ) ? "-" : "" ), abs ( addend ),
len, add->divisor, val );
}
return 0;
}
static int process_zinfo_addb ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output, output->len,
&zinfo->add, 0, 1 );
}
static int process_zinfo_addw ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output, output->len,
&zinfo->add, 0, 2 );
}
static int process_zinfo_addl ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output, output->len,
&zinfo->add, 0, 4 );
}
static int process_zinfo_adhb ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output, output->hdr_len,
&zinfo->add, 0, 1 );
}
static int process_zinfo_adhw ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output, output->hdr_len,
&zinfo->add, 0, 2 );
}
static int process_zinfo_adhl ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output, output->hdr_len,
&zinfo->add, 0, 4 );
}
static int process_zinfo_adpb ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output,
( output->len - output->hdr_len ),
&zinfo->add, 0, 1 );
}
static int process_zinfo_adpw ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output,
( output->len - output->hdr_len ),
&zinfo->add, 0, 2 );
}
static int process_zinfo_adpl ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output,
( output->len - output->hdr_len ),
&zinfo->add, 0, 4 );
}
static int process_zinfo_appb ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output,
( output->len - output->hdr_len ),
&zinfo->add, output->hdr_len, 1 );
}
static int process_zinfo_appw ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output,
( output->len - output->hdr_len ),
&zinfo->add, output->hdr_len, 2 );
}
static int process_zinfo_appl ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
return process_zinfo_add ( input, output,
( output->len - output->hdr_len ),
&zinfo->add, output->hdr_len, 4 );
}
struct zinfo_processor {
char *type;
int ( * process ) ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo );
};
static struct zinfo_processor zinfo_processors[] = {
{ "COPY", process_zinfo_copy },
{ "PACK", process_zinfo_pack },
{ "PAYL", process_zinfo_payl },
{ "ADDB", process_zinfo_addb },
{ "ADDW", process_zinfo_addw },
{ "ADDL", process_zinfo_addl },
{ "ADHB", process_zinfo_adhb },
{ "ADHW", process_zinfo_adhw },
{ "ADHL", process_zinfo_adhl },
{ "ADPB", process_zinfo_adpb },
{ "ADPW", process_zinfo_adpw },
{ "ADPL", process_zinfo_adpl },
{ "APPB", process_zinfo_appb },
{ "APPW", process_zinfo_appw },
{ "APPL", process_zinfo_appl },
};
static int process_zinfo ( struct input_file *input,
struct output_file *output,
union zinfo_record *zinfo ) {
struct zinfo_common *common = &zinfo->common;
struct zinfo_processor *processor;
char type[ sizeof ( common->type ) + 1 ] = "";
unsigned int i;
strncat ( type, common->type, sizeof ( type ) - 1 );
for ( i = 0 ; i < ( sizeof ( zinfo_processors ) /
sizeof ( zinfo_processors[0] ) ) ; i++ ) {
processor = &zinfo_processors[i];
if ( strcmp ( processor->type, type ) == 0 )
return processor->process ( input, output, zinfo );
}
fprintf ( stderr, "Unknown zinfo record type \"%s\"\n", &type[0] );
return -1;
}
static int write_output_file ( struct output_file *output ) {
if ( fwrite ( output->buf, 1, output->len, stdout ) != output->len ) {
fprintf ( stderr, "Could not write %zd bytes of output: %s\n",
output->len, strerror ( errno ) );
return -1;
}
return 0;
}
int main ( int argc, char **argv ) {
struct input_file input;
struct output_file output;
struct zinfo_file zinfo;
unsigned int i;
if ( argc != 3 ) {
fprintf ( stderr, "Syntax: %s file.bin file.zinfo "
"> file.zbin\n", argv[0] );
exit ( 1 );
}
if ( read_input_file ( argv[1], &input ) < 0 )
exit ( 1 );
if ( read_zinfo_file ( argv[2], &zinfo ) < 0 )
exit ( 1 );
if ( alloc_output_file ( ( input.len * 4 ), &output ) < 0 )
exit ( 1 );
for ( i = 0 ; i < zinfo.num_entries ; i++ ) {
if ( process_zinfo ( &input, &output,
&zinfo.zinfo[i] ) < 0 )
exit ( 1 );
}
if ( write_output_file ( &output ) < 0 )
exit ( 1 );
return 0;
}
