mirror of
https://github.com/elliotnunn/NetBoot.git
synced 2024-12-09 07:49:21 +00:00
637 lines
17 KiB
C
637 lines
17 KiB
C
/* output_aout.c a.out output driver for vasm */
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/* (c) in 2008-2016,2020 by Frank Wille */
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#include "vasm.h"
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#include "output_aout.h"
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#if defined(OUTAOUT) && defined(MID)
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static char *copyright="vasm a.out output module 0.8 (c) 2008-2016,2020 Frank Wille";
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static section *sections[3];
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static utaddr secsize[3];
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static utaddr secoffs[3];
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static int sectype[] = { N_TEXT, N_DATA, N_BSS };
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static int secweak[] = { N_WEAKT, N_WEAKD, N_WEAKB };
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static struct SymTabList aoutsymlist;
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static struct StrTabList aoutstrlist;
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static struct list treloclist;
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static struct list dreloclist;
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static int mid = -1;
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static int isPIC = 1;
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#define SECT_ALIGN 4 /* .text and .data are aligned to 32 bits */
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static int aout_getinfo(symbol *sym)
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{
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int type;
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switch (TYPE(sym)) {
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case TYPE_UNKNOWN:
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case TYPE_FILE:
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case TYPE_SECTION: /* this will be ignored later */
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type = AUX_UNKNOWN;
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break;
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case TYPE_OBJECT:
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type = AUX_OBJECT;
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break;
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case TYPE_FUNCTION:
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type = AUX_FUNC;
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break;
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default:
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ierror(0);
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break;
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}
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return type;
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}
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static int aout_getbind(symbol *sym)
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{
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if (sym->flags & WEAK)
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return BIND_WEAK;
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else if (sym->type!=IMPORT && !(sym->flags & EXPORT))
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return BIND_LOCAL;
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else if ((sym->type!=IMPORT && (sym->flags & EXPORT)) ||
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(sym->type==IMPORT && (sym->flags & COMMON)))
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return BIND_GLOBAL;
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else
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ierror(0);
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return -1;
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}
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static uint32_t aoutstd_getrinfo(rlist **rl,int xtern,char *sname,int be)
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/* Convert vasm relocation type into standard a.out relocations, */
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/* as used by M68k and x86 targets. */
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/* For xtern=-1, return true when this relocation requires a base symbol. */
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{
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nreloc *nr;
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if (nr = (nreloc *)(*rl)->reloc) {
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rlist *rl2 = (*rl)->next;
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uint32_t r=0,s=4;
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nreloc *nr2;
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int b=0;
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switch ((*rl)->type) {
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case REL_ABS: b=-1; break;
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case REL_PC: b=RSTDB_pcrel; break;
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case REL_SD: b=RSTDB_baserel; break;
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default: goto unsupp_reloc;
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}
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if (xtern == -1) /* just query symbol-based relocation */
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return b==RSTDB_baserel || b==RSTDB_jmptable;
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nr2 = rl2!=NULL ? (nreloc *)rl2->reloc : NULL;
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if (nr->bitoffset==0 && (nr2==NULL || nr2->byteoffset!=nr->byteoffset)
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&& (nr->mask & MAKEMASK(nr->size)) == MAKEMASK(nr->size)) {
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switch (nr->size) {
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case 8: s=0; break;
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case 16: s=1; break;
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case 32: s=2; break;
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}
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}
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#ifdef VASM_CPU_JAGRISC
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else if (nr->size==16 && nr2!=NULL && nr2->size==16 &&
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nr2->byteoffset==nr->byteoffset &&
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((nr->mask==0xffff && nr2->mask==0xffff0000) ||
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(nr->mask==0xffff0000 && nr2->mask==0xffff)) &&
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((nr->bitoffset==0 && nr2->bitoffset==16) ||
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(nr->bitoffset==16 && nr2->bitoffset==0))) {
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/* Jaguar RISC MOVEI instruction with swapped words, indicated by
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a set RSTDB_copy bit. */
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b = RSTDB_copy;
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s = 2;
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*rl = (*rl)->next; /* skip additional entry */
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}
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#endif
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if (b!=0 && s<4) {
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if (b > 0)
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setbits(be,&r,sizeof(r)<<3,(unsigned)b,1,1);
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setbits(be,&r,sizeof(r)<<3,RSTDB_length,RSTDS_length,s);
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setbits(be,&r,sizeof(r)<<3,RSTDB_extern,RSTDS_extern,xtern?1:0);
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return readbits(be,&r,sizeof(r)<<3,RELB_reloc,RELS_reloc);
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}
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}
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unsupp_reloc:
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unsupp_reloc_error(*rl);
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return ~0;
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}
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static void aout_initwrite(section *firstsec)
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{
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section *sec;
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if (mid == -1)
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mid = MID;
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initlist(&aoutstrlist.l);
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aoutstrlist.hashtab = mycalloc(STRHTABSIZE*sizeof(struct StrTabNode *));
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aoutstrlist.nextoffset = 4; /* first string is always at offset 4 */
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initlist(&aoutsymlist.l);
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aoutsymlist.hashtab = mycalloc(SYMHTABSIZE*sizeof(struct SymbolNode *));
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aoutsymlist.nextindex = 0;
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initlist(&treloclist);
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initlist(&dreloclist);
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/* find exactly one .text, .data and .bss section for a.out */
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sections[S_TEXT] = sections[S_DATA] = sections[S_BSS] = NULL;
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secsize[S_TEXT] = secsize[S_DATA] = secsize[S_BSS] = 0;
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for (sec=firstsec; sec; sec=sec->next) {
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int i;
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/* section size is assumed to be in in (sec->pc - sec->org), otherwise
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we would have to calculate it from the atoms and store it there */
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if (get_sec_size(sec) > 0 || (sec->flags & HAS_SYMBOLS)) {
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i = get_sec_type(sec);
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if (i == S_MISS) {
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output_error(3,sec->attr); /* section attributes not supported */
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i = S_TEXT;
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}
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if (i == S_ABS)
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continue; /* ignore ORG sections for later */
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if (!sections[i]) {
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sections[i] = sec;
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secsize[i] = get_sec_size(sec);
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sec->idx = i; /* section index 0:text, 1:data, 2:bss */
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}
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else
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output_error(7,sec->name);
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}
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}
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/* now scan for absolute ORG-sections and add their aligned size to .text */
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for (sec=firstsec; sec; sec=sec->next) {
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if (sec->flags & ABSOLUTE)
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secsize[S_TEXT] += balign(secsize[S_TEXT],sec->align) + get_sec_size(sec);
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}
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secoffs[S_TEXT] = 0;
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secoffs[S_DATA] = secsize[S_TEXT] + balign(secsize[S_TEXT],SECT_ALIGN);
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secoffs[S_BSS] = secoffs[S_DATA] + secsize[S_DATA] +
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balign(secsize[S_DATA],SECT_ALIGN);
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}
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static uint32_t aout_addstr(char *s)
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/* add a new symbol name to the string table and return its offset */
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{
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struct StrTabNode **chain;
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struct StrTabNode *sn;
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if (s == NULL)
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return 0;
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if (*s == '\0')
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return 0;
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/* search string in hash table */
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chain = &aoutstrlist.hashtab[hashcode(s)%STRHTABSIZE];
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while (sn = *chain) {
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if (!strcmp(s,sn->str))
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return (sn->offset); /* it's already in, return offset */
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chain = &sn->hashchain;
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}
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/* new string table entry */
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*chain = sn = mymalloc(sizeof(struct StrTabNode));
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sn->hashchain = NULL;
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sn->str = s;
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sn->offset = aoutstrlist.nextoffset;
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addtail(&aoutstrlist.l,&sn->n);
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aoutstrlist.nextoffset += strlen(s) + 1;
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return sn->offset;
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}
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static struct SymbolNode *aout_addsym(char *name,uint8_t type,int8_t other,
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int16_t desc,uint32_t value,int be)
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/* append a new symbol to the symbol list */
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{
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struct SymbolNode *sym = mycalloc(sizeof(struct SymbolNode));
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sym->name = name!=NULL ? name : emptystr;
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sym->index = aoutsymlist.nextindex++;
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setval(be,&sym->s.n_strx,4,aout_addstr(name));
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sym->s.n_type = type;
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sym->s.n_other = other;
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setval(be,&sym->s.n_desc,2,desc);
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setval(be,&sym->s.n_value,4,value);
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addtail(&aoutsymlist.l,&sym->n);
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return sym;
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}
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static uint32_t aout_addsymhash(char *name,taddr value,int bind,
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int info,int type,int desc,int be)
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/* add a new symbol, return its symbol table index */
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{
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struct SymbolNode **chain,*sym;
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chain = &aoutsymlist.hashtab[hashcode(name?name:emptystr)%SYMHTABSIZE];
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while (sym = *chain)
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chain = &sym->hashchain;
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/* new symbol table entry */
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*chain = sym = aout_addsym(name,type,((bind&0xf)<<4)|(info&0xf),
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desc,value,be);
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return sym->index;
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}
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static int aout_findsym(char *name,int be)
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/* find a symbol by its name, return symbol table index or -1 */
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{
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struct SymbolNode **chain = &aoutsymlist.hashtab[hashcode(name)%SYMHTABSIZE];
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struct SymbolNode *sym;
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while (sym = *chain) {
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if (!strcmp(name,sym->name) && !(sym->s.n_type & N_STAB))
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return ((int)sym->index);
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chain = &sym->hashchain;
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}
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return (-1);
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}
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static void aout_symconvert(symbol *sym,int symbind,int syminfo,int be)
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/* convert vasm symbol into a.out symbol(s) */
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{
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taddr val = get_sym_value(sym);
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taddr size = get_sym_size(sym);
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int ext = (symbind == BIND_GLOBAL) ? N_EXT : 0;
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int type = 0;
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if (TYPE(sym) == TYPE_SECTION) {
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return; /* section symbols are ignored in a.out! */
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}
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else if (TYPE(sym) == TYPE_FILE) {
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type = N_FN | N_EXT; /* special case: file name symbol */
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size = 0;
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}
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else {
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if (sym->flags & COMMON) {
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/* common symbol */
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#if 0 /* GNU binutils prefers N_UNDF with val!=0 instead of N_COMM! */
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type = N_COMM | ext;
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#else
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type = N_UNDF | N_EXT;
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#endif
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val = size;
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size = 0;
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}
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else if (sym->flags & WEAK) {
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/* weak symbol */
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switch (sym->type) {
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case LABSYM: type=secweak[sym->sec->idx]; break;
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case IMPORT: type=N_WEAKU; break;
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case EXPRESSION: type=N_WEAKA; break;
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default: ierror(0); break;
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}
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}
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else if (sym->sec) {
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/* address symbol */
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if (!(sym->sec->flags & ABSOLUTE)) {
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type = sectype[sym->sec->idx] | ext;
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val += secoffs[sym->sec->idx]; /* a.out requires to add sec. offset */
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}
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else /* absolute ORG section: convert labels to ABS symbols */
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type = N_ABS | ext;
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}
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else if (sym->type==EXPRESSION) {
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if (sym->flags & EXPORT) {
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/* absolute symbol */
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type = N_ABS | ext;
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}
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else
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return; /* ignore local expressions */
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}
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/* @@@ else if (indirect symbols?) {
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aout_addsymhash(sym->name,0,symbind,0,N_INDR|ext,0,be);
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aout_addsymhash(sym->indir_name,0,0,0,N_UNDF|N_EXT,0,be);
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return;
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}*/
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else
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ierror(0);
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}
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aout_addsymhash(sym->name,val,symbind,syminfo,type,0,be);
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if (size) {
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/* append N_SIZE symbol declaring the previous symbol's size */
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aout_addsymhash(sym->name,size,symbind,syminfo,N_SIZE,0,be);
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}
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}
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static void aout_addsymlist(symbol *sym,int bind,int type,int be)
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/* add all symbols with specified bind and type to the a.out symbol list */
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{
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for (; sym; sym=sym->next) {
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/* ignore symbols preceded by a '.' and internal symbols */
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if ((sym->type!=IMPORT || (sym->flags&WEAK) || (sym->flags&COMMON))
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&& *sym->name != '.' && *sym->name!=' ' && !(sym->flags&VASMINTERN)) {
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int syminfo = aout_getinfo(sym);
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int symbind = aout_getbind(sym);
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if (symbind == bind && (!type || (syminfo == type))) {
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aout_symconvert(sym,symbind,syminfo,be);
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}
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}
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}
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}
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static void aout_debugsyms(int be)
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/* add stabs to the a.out symbol list */
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{
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struct stabdef *nlist = first_nlist;
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uint32_t val;
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while (nlist != NULL) {
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val = nlist->value;
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if (nlist->base != NULL) {
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/* include section base offset in symbol value */
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if (LOCREF(nlist->base)) {
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if (!(nlist->base->sec->flags & ABSOLUTE))
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val += secoffs[nlist->base->sec->idx];
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}
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else
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ierror(0); /* @@@ handle external references! How? */
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}
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aout_addsym(nlist->name.ptr,nlist->type,nlist->other,nlist->desc,val,be);
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nlist = nlist->next;
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}
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}
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static void aout_addreloclist(struct list *rlst,uint32_t raddr,
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uint32_t rindex,uint32_t rinfo,int be)
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/* add new relocation_info to .text or .data reloc-list */
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{
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struct RelocNode *rn = mymalloc(sizeof(struct RelocNode));
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setval(be,rn->r.r_address,4,raddr);
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setbits(be,rn->r.r_info,32,RELB_symbolnum,RELS_symbolnum,rindex);
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setbits(be,rn->r.r_info,32,RELB_reloc,RELS_reloc,rinfo);
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addtail(rlst,&rn->n);
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if (isPIC && !readbits(be,rn->r.r_info,32,RSTDB_pcrel,1)
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&& !readbits(be,rn->r.r_info,32,RSTDB_baserel,1)) {
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/* the relocation is probably absolute, so it is no PIC anymore */
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isPIC = 0;
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}
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}
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static uint32_t aout_convert_rlist(int be,atom *a,int secid,
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struct list *rlst,taddr pc,
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uint32_t (*getrinfo)
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(rlist **,int,char *,int))
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/* convert all of an atom's relocs into a.out relocations */
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{
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uint32_t rsize = 0;
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rlist *rl;
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if (a->type == DATA)
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rl = a->content.db->relocs;
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else if (a->type == SPACE)
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rl = a->content.sb->relocs;
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else
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rl = NULL;
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if (rl == NULL)
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return 0; /* no relocs or not the right atom type */
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do {
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nreloc *r = (nreloc *)rl->reloc;
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symbol *refsym = r->sym;
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taddr val = get_sym_value(refsym);
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taddr add = nreloc_real_addend(r);
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#if SDAHACK
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int based = getrinfo(&rl,-1,sections[secid]->name,be) != 0;
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#endif
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if (LOCREF(refsym)) {
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/* this is a local relocation */
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int rsecid = refsym->sec->idx;
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aout_addreloclist(rlst,pc+r->byteoffset,sectype[rsecid],
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getrinfo(&rl,0,sections[secid]->name,be),
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be);
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#if SDAHACK
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if (!based) /* @@@ 'based' does not really happen under Unix */
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#endif
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val += secoffs[rsecid];
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rsize += sizeof(struct relocation_info);
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}
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else if (EXTREF(refsym)) {
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/* this is an external symbol reference */
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int symidx;
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if ((symidx = aout_findsym(refsym->name,be)) == -1)
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symidx = aout_addsymhash(refsym->name,0,0,0,N_UNDF|N_EXT,0,be);
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aout_addreloclist(rlst,pc+r->byteoffset,symidx,
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getrinfo(&rl,1,sections[secid]->name,be),
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be);
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rsize += sizeof(struct relocation_info);
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}
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else
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ierror(0);
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/* patch addend for a.out */
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if (rl->type == REL_PC)
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val -= pc + r->byteoffset;
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if (a->type == DATA)
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setval(be,a->content.db->data+r->byteoffset,r->size>>3,val+add);
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else if (a->type==SPACE && a->content.sb->space!=0) {
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setval(be,a->content.sb->fill,r->size>>3,val+add);
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a->content.sb->space = 0; /* we only need to patch 'fill' once */
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}
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}
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while (rl = rl->next);
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return rsize;
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}
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static uint32_t aout_addrelocs(int be,int secid,struct list *rlst,
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uint32_t (*getrinfo)(rlist **,int,char *,int))
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/* creates a.out relocations for a single section (.text or .data) */
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{
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uint32_t rtabsize=0;
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if (sections[secid]) {
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atom *a;
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taddr pc=0,npc;
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for (a=sections[secid]->first; a; a=a->next) {
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npc = pcalign(a,pc);
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rtabsize += aout_convert_rlist(be,a,secid,rlst,npc,getrinfo);
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pc = npc + atom_size(a,sections[secid],npc);
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}
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}
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return rtabsize;
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}
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static void aout_header(FILE *f,uint32_t mag,uint32_t flag,
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uint32_t tsize,uint32_t dsize,uint32_t bsize,
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uint32_t syms,uint32_t entry,
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uint32_t trsize,uint32_t drsize,int be)
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/* write an a.out header */
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{
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struct aout_hdr h;
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SETMIDMAG(&h,mag,mid,flag);
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setval(be,h.a_text,4,tsize);
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setval(be,h.a_data,4,dsize);
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setval(be,h.a_bss,4,bsize);
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setval(be,h.a_syms,4,syms);
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setval(be,h.a_entry,4,entry);
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setval(be,h.a_trsize,4,trsize);
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setval(be,h.a_drsize,4,drsize);
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fwdata(f,&h,sizeof(struct aout_hdr));
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}
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static void aout_writesection(FILE *f,section *sec,taddr sec_align)
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{
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if (sec) {
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atom *a;
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taddr pc=0,npc;
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for (a=sec->first; a; a=a->next) {
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npc = fwpcalign(f,a,sec,pc);
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if (a->type == DATA)
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fwdata(f,a->content.db->data,a->content.db->size);
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else if (a->type == SPACE)
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fwsblock(f,a->content.sb);
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pc = npc + atom_size(a,sec,npc);
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}
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fwalign(f,pc,sec_align);
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}
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}
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static void aout_writeorg(FILE *f,section *sec,taddr sec_align)
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/* write all absolute ORG-sections appended to .text */
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{
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taddr pc = get_sec_size(sections[S_TEXT]);
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taddr npc;
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atom *a;
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for (; sec; sec=sec->next) {
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if (sec->flags & ABSOLUTE) {
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fwalign(f,pc,sec->align);
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for (a=sec->first; a; a=a->next) {
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npc = fwpcalign(f,a,sec,pc);
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if (a->type == DATA)
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fwdata(f,a->content.db->data,a->content.db->size);
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else if (a->type == SPACE)
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fwsblock(f,a->content.sb);
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pc = npc + atom_size(a,sec,npc);
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}
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}
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}
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fwalign(f,pc,sec_align);
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}
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void aout_writerelocs(FILE *f,struct list *l)
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{
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struct RelocNode *rn;
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while (rn = (struct RelocNode *)remhead(l))
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fwdata(f,&rn->r,sizeof(struct relocation_info));
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}
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void aout_writesymbols(FILE *f)
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{
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struct SymbolNode *sym;
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while (sym = (struct SymbolNode *)remhead(&aoutsymlist.l))
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fwdata(f,&sym->s,sizeof(struct nlist32));
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}
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void aout_writestrings(FILE *f,int be)
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{
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if (aoutstrlist.nextoffset > 4) {
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struct StrTabNode *stn;
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fw32(f,aoutstrlist.nextoffset,be);
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while (stn = (struct StrTabNode *)remhead(&aoutstrlist.l))
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fwdata(f,stn->str,strlen(stn->str)+1);
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}
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}
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static void write_output(FILE *f,section *sec,symbol *sym)
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{
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int be = BIGENDIAN;
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uint32_t trsize,drsize;
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aout_initwrite(sec);
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aout_addsymlist(sym,BIND_GLOBAL,0,be);
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aout_addsymlist(sym,BIND_WEAK,0,be);
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if (!no_symbols) {
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aout_addsymlist(sym,BIND_LOCAL,0,be);
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aout_debugsyms(be);
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}
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trsize = aout_addrelocs(be,S_TEXT,&treloclist,aoutstd_getrinfo);
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drsize = aout_addrelocs(be,S_DATA,&dreloclist,aoutstd_getrinfo);
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aout_header(f,OMAGIC,isPIC?EX_PIC:0,
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secsize[S_TEXT] + balign(secsize[S_TEXT],SECT_ALIGN),
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secsize[S_DATA] + balign(secsize[S_DATA],SECT_ALIGN),
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secsize[S_BSS],
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aoutsymlist.nextindex * sizeof(struct nlist32),
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0,trsize,drsize,be);
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aout_writesection(f,sections[S_TEXT],0);
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aout_writeorg(f,sec,SECT_ALIGN);
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aout_writesection(f,sections[S_DATA],SECT_ALIGN);
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aout_writerelocs(f,&treloclist);
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aout_writerelocs(f,&dreloclist);
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aout_writesymbols(f);
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aout_writestrings(f,be);
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}
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|
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static int output_args(char *p)
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{
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if (!strncmp(p,"-mid=",5)) {
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mid = atoi(p+5);
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return 1;
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}
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return 0;
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}
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int init_output_aout(char **cp,void (**wo)(FILE *,section *,symbol *),
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int (**oa)(char *))
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{
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*cp = copyright;
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*wo = write_output;
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*oa = output_args;
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unnamed_sections = 1; /* output format doesn't support named sections */
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secname_attr = 1;
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return 1;
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}
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#else
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int init_output_aout(char **cp,void (**wo)(FILE *,section *,symbol *),
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int (**oa)(char *))
|
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{
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return 0;
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}
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#endif
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