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RGBtoHDMI/tools/vasm/supp.c

714 wiersze
13 KiB
C
Czysty Wina Historia

/* supp.c miscellaneous support routines */
/* (c) in 2008-2021 by Frank Wille */
#include <math.h>
#include "vasm.h"
#include "supp.h"
void initlist(struct list *l)
/* initializes a list structure */
{
l->first = (struct node *)&l->dummy;
l->dummy = NULL;
l->last = (struct node *)&l->first;
}
void addtail(struct list *l,struct node *n)
/* add node as last element of list */
{
struct node *ln = l->last;
n->next = ln->next;
ln->next = n;
n->pred = ln;
l->last = n;
}
struct node *remnode(struct node *n)
/* remove a node from a list */
{
n->next->pred = n->pred;
n->pred->next = n->next;
return n;
}
struct node *remhead(struct list *l)
/* remove first node in list and return a pointer to it */
{
struct node *n = l->first;
if (n->next) {
l->first = n->next;
n->next->pred = n->pred;
return n;
}
return NULL;
}
void *mymalloc(size_t sz)
{
size_t *p;
/* workaround for Electric Fence on 64-bit RISC */
if (sz)
sz = (sz + sizeof(size_t) - 1) & ~(sizeof(size_t) - 1);
if (debug) {
if (sz == 0) {
printf("Warning! Allocating 0 bytes. Adjusted to 1 byte.\n");
sz = 1;
}
p = malloc(sz+2*sizeof(size_t));
if (!p)
general_error(17);
p++;
*p++ = sz;
memset(p,0xdd,sz); /* make it crash, when using uninitialized memory */
}
else {
p = malloc(sz?sz:1);
if(!p)
general_error(17);
}
return p;
}
void *mycalloc(size_t sz)
{
void *p = mymalloc(sz);
memset(p,0,sz);
return p;
}
void *myrealloc(void *old,size_t sz)
{
size_t *p;
if (debug) {
p = realloc(old?((size_t *)old)-2:0,sz+2*sizeof(size_t));
if (!p)
general_error(17);
p++;
*p++ = sz;
}
else {
p = realloc(old,sz);
if (!p)
general_error(17);
}
return p;
}
void myfree(void *p)
{
if (p) {
if (debug) {
size_t *myp = (size_t *)p;
size_t sz = *(--myp);
memset(p,0xff,sz); /* make it crash, when reusing deallocated memory */
free(--myp);
}
else
free(p);
}
}
int field_overflow(int signedbits,size_t numbits,taddr bitval)
{
if (signedbits) {
uint64_t mask = ~MAKEMASK(numbits - 1);
uint64_t val = (int64_t)bitval;
return (bitval < 0) ? (val & mask) != mask : (val & mask) != 0;
}
else
return (((uint64_t)(utaddr)bitval) & ~MAKEMASK(numbits)) != 0;
}
taddr bf_sign_extend(taddr val,int numbits)
/* sign-extend a bitfield value which fits into numbits bits */
{
taddr himask = ~MAKEMASK(numbits);
if (!(val & himask) && (val & (1LL<<(numbits-1))))
val |= himask; /* extend bitfield-sign over the taddr type */
return val;
}
uint64_t readval(int be,void *src,size_t size)
/* read value with given endianess */
{
unsigned char *s = src;
uint64_t val = 0;
if (size > sizeof(uint64_t))
ierror(0);
if (be) {
while (size--) {
val <<= 8;
val += (uint64_t)*s++;
}
}
else {
s += size;
while (size--) {
val <<= 8;
val += (uint64_t)*(--s);
}
}
return val;
}
void *setval(int be,void *dest,size_t size,uint64_t val)
/* write value to destination with desired endianess */
{
uint8_t *d = dest;
if (size > sizeof(uint64_t))
ierror(0);
if (be) {
d += size;
dest = d;
while (size--) {
*(--d) = (uint8_t)val;
val >>= 8;
}
}
else {
while (size--) {
*d++ = (uint8_t)val;
val >>= 8;
}
dest = d;
}
return dest;
}
void *setval_signext(int be,void *dest,size_t extsz,size_t valsz,int64_t val)
/* write a sign-extended value to destination with desired endianess */
{
uint8_t *d = dest;
int sign = val<0 ? 0xff : 0;
if (valsz > sizeof(uint64_t))
ierror(0);
if (be) {
memset(d,sign,extsz);
d += extsz + valsz;
dest = d;
while (valsz--) {
*(--d) = (uint8_t)val;
val >>= 8;
}
}
else {
while (valsz--) {
*d++ = (uint8_t)val;
val >>= 8;
}
memset(d,sign,extsz);
dest = d + extsz;
}
return dest;
}
uint64_t readbits(int be,void *p,unsigned bfsize,unsigned offset,unsigned size)
/* read value from a bitfield (max. 64 bits) */
{
if ((bfsize&7)==0 && offset+size<=bfsize) {
uint64_t mask = (1 << size) - 1;
uint64_t val = readval(be,p,bfsize>>3);
return be ? ((val >> (bfsize-(offset+size))) & mask)
: ((val >> offset) & mask);
}
ierror(0);
return 0;
}
void setbits(int be,void *p,unsigned bfsize,unsigned offset,unsigned size,
uint64_t d)
/* write value to a bitfield (max. 64 bits) */
{
if ((bfsize&7)==0 && offset+size<=bfsize) {
uint64_t mask = MAKEMASK(size);
uint64_t val = readval(be,p,bfsize>>3);
int s = be ? bfsize - (offset + size) : offset;
setval(be,p,bfsize>>3,(val & ~(mask<<s)) | ((d & mask) << s));
}
else
ierror(0);
}
int countbits(taddr val)
/* count number of bits in val */
{
int cnt = 0;
int len = sizeof(taddr) << 3;
while (len--) {
if (val & 1)
cnt++;
val >>= 1;
}
return cnt;
}
void copy_cpu_taddr(void *dest,taddr val,size_t bytes)
/* copy 'bytes' low-order bytes from val to dest in cpu's endianess */
{
uint8_t *d = dest;
int i;
if (bytes > sizeof(taddr))
ierror(0);
if (BIGENDIAN) {
for (i=bytes-1; i>=0; i--,val>>=8)
d[i] = (uint8_t)val;
}
else if (LITTLEENDIAN) {
for (i=0; i<(int)bytes; i++,val>>=8)
d[i] = (uint8_t)val;
}
else
ierror(0);
}
int patch_nreloc(atom *a,rlist *rl,int signedflag,taddr val,int be)
/* patch relocated value into the atom, when rlist contains an nreloc */
{
nreloc *nrel;
char *p;
if (rl->type > LAST_STANDARD_RELOC) {
unsupp_reloc_error(rl);
return 0;
}
nrel = (nreloc *)rl->reloc;
if (field_overflow(signedflag,nrel->size,val)) {
output_atom_error(12,a,rl->type,(unsigned long)nrel->mask,nrel->sym->name,
(unsigned long)nrel->addend,nrel->size);
return 0;
}
if (a->type == DATA)
p = (char *)a->content.db->data + nrel->byteoffset;
else if (a->type == SPACE)
p = (char *)a->content.sb->fill; /* @@@ ignore offset completely? */
else
return 1;
setbits(be,p,(nrel->bitoffset+nrel->size+7)&~7,
nrel->bitoffset,nrel->size,val);
return 1;
}
#if FLOAT_PARSER
void conv2ieee32(int be,uint8_t *buf,tfloat f)
/* single precision */
{
union {
float sp;
uint32_t x;
} conv;
conv.sp = (float)f;
setval(be,buf,4,conv.x);
}
void conv2ieee64(int be,uint8_t *buf,tfloat f)
/* double precision */
{
union {
double dp;
uint64_t x;
} conv;
conv.dp = (double)f;
setval(be,buf,8,conv.x);
}
/* check if float can be represented by bits, signed or unsigned,
ignoring the fractional part */
int flt_chkrange(tfloat f,int bits)
{
if (bits <= sizeof(taddr)*8) {
tfloat max = (utaddr)1LL<<(bits-1);
return (f<2.0*max && f>=-max);
}
ierror(0); /* FIXME - shouldn't happen? */
return 0;
}
#endif /* FLOAT_PARSER */
void fw8(FILE *f,uint8_t x)
{
if (fputc(x,f) == EOF)
output_error(2); /* write error */
}
void fw16(FILE *f,uint16_t x,int be)
{
if (be) {
fw8(f,(x>>8) & 0xff);
fw8(f,x & 0xff);
}
else {
fw8(f,x & 0xff);
fw8(f,(x>>8) & 0xff);
}
}
void fw32(FILE *f,uint32_t x,int be)
{
if (be) {
fw8(f,(x>>24) & 0xff);
fw8(f,(x>>16) & 0xff);
fw8(f,(x>>8) & 0xff);
fw8(f,x & 0xff);
}
else {
fw8(f,x & 0xff);
fw8(f,(x>>8) & 0xff);
fw8(f,(x>>16) & 0xff);
fw8(f,(x>>24) & 0xff);
}
}
void fwdata(FILE *f,const void *d,size_t n)
{
if (n) {
if (!fwrite(d,1,n,f))
output_error(2); /* write error */
}
}
void fwsblock(FILE *f,sblock *sb)
{
size_t i;
for (i=0; i<sb->space; i++) {
if (!fwrite(sb->fill,sb->size,1,f))
output_error(2); /* write error */
}
}
void fwspace(FILE *f,size_t n)
{
size_t i;
for (i=0; i<n; i++) {
if (fputc(0,f) == EOF)
output_error(2); /* write error */
}
}
void fwalign(FILE *f,taddr n,taddr align)
{
fwspace(f,balign(n,align));
}
int fwalignpattern(FILE *f,taddr n,uint8_t *pat,int patlen)
{
int align_warning = 0;
while (n % patlen) {
align_warning = 1;
fw8(f,0);
n--;
}
/* write alignment pattern */
while (n >= patlen) {
if (!fwrite(pat,patlen,1,f))
output_error(2); /* write error */
n -= patlen;
}
while (n--) {
align_warning = 1;
fw8(f,0);
}
#if 0
if (align_warning)
output_error(9,sec->name,(unsigned long)n,(unsigned long)patlen,
ULLTADDR(pc));
#endif
return align_warning;
}
taddr fwpcalign(FILE *f,atom *a,section *sec,taddr pc)
{
taddr n = balign(pc,a->align);
taddr patlen;
uint8_t *pat;
if (n == 0)
return pc;
if (a->type==SPACE && a->content.sb->space==0) { /* space align atom */
if (a->content.sb->maxalignbytes!=0 && n>a->content.sb->maxalignbytes)
return pc;
pat = a->content.sb->fill;
patlen = a->content.sb->size;
}
else {
pat = sec->pad;
patlen = sec->padbytes;
}
pc += n;
fwalignpattern(f,n,pat,patlen);
return pc;
}
size_t filesize(FILE *fp)
/* @@@ Warning! filesize() only works reliably on binary streams! @@@ */
{
long oldpos,size;
if ((oldpos = ftell(fp)) >= 0)
if (fseek(fp,0,SEEK_END) >= 0)
if ((size = ftell(fp)) >= 0)
if (fseek(fp,oldpos,SEEK_SET) >= 0)
return ((size_t)size);
return -1;
}
int abs_path(char *path)
/* return true, when path is absolute */
{
return *path=='/' || *path=='\\' || strchr(path,':')!=NULL;
}
int stricmp(const char *str1,const char *str2)
{
while (tolower((unsigned char)*str1) == tolower((unsigned char)*str2)) {
if (!*str1) return 0;
str1++; str2++;
}
return tolower(*(unsigned char *)str1) - tolower(*(unsigned char *)str2);
}
int strnicmp(const char *str1,const char *str2,size_t n)
{
if (n==0) return 0;
while (--n && tolower((unsigned char)*str1) == tolower((unsigned char)*str2)) {
if (!*str1) return 0;
str1++; str2++;
}
return tolower(*(unsigned char *)str1) - tolower(*(unsigned char *)str2);
}
char *mystrdup(char *name)
{
char *p=mymalloc(strlen(name)+1);
strcpy(p,name);
return p;
}
char *cnvstr(const char *name,int l)
/* converts a pair of pointer/length to a null-terminated string */
{
char *p=mymalloc(l+1);
memcpy(p,name,l);
p[l]=0;
return p;
}
char *strtolower(char *s)
/* convert a whole string to lower case */
{
char *p;
for (p=s; *p; p++)
*p = tolower((unsigned char)*p);
return s;
}
int str_is_graph(const char *s)
/* tests if whole string has printable characters and no spaces */
{
while (*s != '\0') {
if (!isgraph((unsigned char)*s))
return 0;
s++;
}
return 1;
}
const char *trim(const char *s)
/* trim blanks before s */
{
while (isspace((unsigned char )*(s-1)))
s--;
return s;
}
char *get_str_arg(const char *s)
/* get string argument from the command line, optionally in quotes */
{
int term = 0;
char *e;
if (*s == '\"')
term = *s++;
if (!(e = strchr(s,term)))
e = strchr(s,0);
return cnvstr(s,e-s);
}
taddr balign(taddr addr,taddr a)
/* return number of bytes required to achieve alignment */
{
if (a) {
if (addr %= a)
return a - addr;
}
return 0;
}
taddr palign(taddr addr,taddr a)
/* return number of bytes required to achieve alignment */
{
return balign(addr,1<<a);
}
taddr pcalign(atom *a,taddr pc)
{
taddr n = balign(pc,a->align);
if (a->type==SPACE && a->content.sb->maxalignbytes!=0)
if (n > a->content.sb->maxalignbytes)
n = 0;
return pc + n;
}
int make_padding(taddr val,uint8_t *pad,int maxlen)
/* fill a padding array from a given padding value, return length in bytes */
{
utaddr uval;
int len;
for (len=0,uval=(utaddr)val; uval!=0; uval>>=8,len++);
if (len > maxlen)
len = maxlen;
copy_cpu_taddr(pad,val,len);
return len;
}
taddr get_sym_value(symbol *s)
/* determine symbol's value, returns alignment for common symbols */
{
if (s->flags & COMMON) {
return (taddr)s->align;
}
else if (s->type == LABSYM) {
return s->pc;
}
else if (s->type == EXPRESSION) {
if (s->expr) {
taddr val;
eval_expr(s->expr,&val,NULL,0);
return val;
}
else
ierror(0);
}
return 0;
}
taddr get_sym_size(symbol *s)
/* determine symbol's size */
{
if (s->size) {
taddr val;
eval_expr(s->size,&val,NULL,0);
return val;
}
return 0;
}
utaddr get_sec_size(section *sec)
{
/* section size is assumed to be in in (sec->pc - sec->org), otherwise
we would have to calculate it from the atoms and store it there */
return sec ? (utaddr)sec->pc - (utaddr)sec->org : 0;
}
int get_sec_type(section *s)
/* determine section type from its attributes */
{
char *a = s->attr;
if (s->flags & ABSOLUTE)
return S_ABS;
while (*a) {
switch (*a++) {
case 'c':
return S_TEXT;
case 'd':
return S_DATA;
case 'u':
return S_BSS;
}
}
return S_MISS; /* type is missing */
}
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