fis-gtm/sr_arm/incr_link.c

429 lines
12 KiB
C

/****************************************************************
* *
* Copyright 2001, 2012 Fidelity Information Services, Inc *
* *
* This source code contains the intellectual property *
* of its copyright holder(s), and is made available *
* under a license. If you do not know the terms of *
* the license, please stop and do not read further. *
* *
****************************************************************/
#include "mdef.h"
#include "gtm_unistd.h"
#include "gtm_stdio.h"
#include "gtm_string.h"
#include <errno.h>
#include <rtnhdr.h>
#include "compiler.h"
#include "urx.h"
#include "objlabel.h" /* needed for masscomp.h */
#include "masscomp.h"
#include "gtmio.h"
#include "incr_link.h"
#include "min_max.h" /* MIDENT_CMP needs MIN */
#include "cmd_qlf.h" /* needed for CQ_UTF8 */
#include "gtm_text_alloc.h"
/* INCR_LINK - read and process a mumps object module. Link said module to currently executing image */
LITREF char gtm_release_name[];
LITREF int4 gtm_release_name_len;
static char *code;
GBLREF mident_fixed zlink_mname;
GBLREF boolean_t gtm_utf8_mode;
error_def(ERR_INVOBJ);
error_def(ERR_LOADRUNNING);
error_def(ERR_TEXT);
#define RELREAD 50 /* number of relocation entries to buffer */
typedef struct res_list_struct
{
struct res_list_struct *next, *list;
unsigned int addr, symnum;
} res_list;
void res_free(res_list *root);
bool addr_fix(int file, struct exec *fhead, urx_rtnref *urx_lcl, rhdtyp *code);
void zl_error(int4 file, int4 err, int4 err2, int4 len, char *addr);
bool incr_link(int file_desc)
{
rhdtyp *hdr, *old_rhead;
int code_size, save_errno, cnt;
int4 rhd_diff, read_size;
char *literal_ptr;
var_tabent *curvar;
char module_name[SIZEOF(mident_fixed)];
lab_tabent *lbt_ent, *lbt_bot, *lbt_top, *olbt_ent, *olbt_bot, *olbt_top, *curlab;
urx_rtnref urx_lcl_anchor;
int order;
struct exec file_hdr;
urx_lcl_anchor.len = 0;
urx_lcl_anchor.addr = 0;
urx_lcl_anchor.lab = 0;
urx_lcl_anchor.next = 0;
code = NULL;
DOREADRL(file_desc, &file_hdr, SIZEOF(file_hdr), read_size);
if (read_size != SIZEOF(file_hdr))
{
if (-1 == read_size)
{
save_errno = errno;
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, strlen(STRERROR(save_errno)),
STRERROR(save_errno));
} else
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, RTS_ERROR_TEXT("reading file header"));
} else if (OMAGIC != file_hdr.a_magic)
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, RTS_ERROR_TEXT("bad magic"));
else if (OBJ_LABEL != file_hdr.a_stamp)
return FALSE; /* wrong version */
assert(0 == file_hdr.a_bss);
code_size = file_hdr.a_text + file_hdr.a_data;
code = GTM_TEXT_ALLOC(code_size);
DOREADRL(file_desc, code, code_size, read_size);
if (read_size != code_size)
{
if (-1 == read_size)
{
save_errno = errno;
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, strlen(STRERROR(save_errno)), STRERROR(save_errno)); /* BYPASSOK */
} else
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, RTS_ERROR_TEXT("reading code"));
}
hdr = (rhdtyp *)code;
if (memcmp(&hdr->jsb[0], "GTM_CODE", SIZEOF(hdr->jsb)))
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, RTS_ERROR_TEXT("missing GTM_CODE"));
if ((hdr->compiler_qlf & CQ_UTF8) && !gtm_utf8_mode)
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT,
RTS_ERROR_TEXT("Object compiled with CHSET=UTF-8 which is different from $ZCHSET"));
if (!(hdr->compiler_qlf & CQ_UTF8) && gtm_utf8_mode)
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT,
RTS_ERROR_TEXT("Object compiled with CHSET=M which is different from $ZCHSET"));
literal_ptr = code + file_hdr.a_text;
for (cnt = hdr->vartab_len, curvar = VARTAB_ADR(hdr); cnt; --cnt, ++curvar)
{ /* relocate the variable table */
assert(0 < curvar->var_name.len);
curvar->var_name.addr += (uint4)literal_ptr;
}
for (cnt = hdr->labtab_len, curlab = LABTAB_ADR(hdr); cnt; --cnt, ++curlab)
/* relocate the label table */
curlab->lab_name.addr += (uint4)literal_ptr;
if (!addr_fix(file_desc, &file_hdr, &urx_lcl_anchor, hdr))
{
urx_free(&urx_lcl_anchor);
zl_error(file_desc, ERR_INVOBJ, ERR_TEXT, RTS_ERROR_TEXT("address fixup failure"));
}
if (!zlput_rname(hdr))
{
urx_free(&urx_lcl_anchor);
/* Copy routine name to local variable because zl_error free's it. */
memcpy(&module_name[0], hdr->routine_name.addr, hdr->routine_name.len);
zl_error(file_desc, 0, ERR_LOADRUNNING, hdr->routine_name.len, &module_name[0]);
}
urx_add(&urx_lcl_anchor);
old_rhead = (rhdtyp *)hdr->old_rhead_ptr;
lbt_bot = (lab_tabent *)((char *)hdr + hdr->labtab_ptr);
lbt_top = lbt_bot + hdr->labtab_len;
while (old_rhead)
{
lbt_ent = lbt_bot;
olbt_bot = (lab_tabent *)((char *)old_rhead + old_rhead->labtab_ptr);
olbt_top = olbt_bot + old_rhead->labtab_len;
for (olbt_ent = olbt_bot; olbt_ent < olbt_top; olbt_ent++)
{
for (; lbt_ent < lbt_top; lbt_ent++)
{
MIDENT_CMP(&olbt_ent->lab_name, &lbt_ent->lab_name, order);
if (order <= 0)
break;
}
if ((lbt_ent < lbt_top) && !order)
{
olbt_ent->lab_ln_ptr = lbt_ent->lab_ln_ptr;
olbt_ent->has_parms = lbt_ent->has_parms;
} else
olbt_ent->lab_ln_ptr = 0;
}
rhd_diff = (char *)hdr - (char *)old_rhead;
old_rhead->src_full_name = hdr->src_full_name;
old_rhead->routine_name = hdr->routine_name;
old_rhead->vartab_len = hdr->vartab_len;
old_rhead->vartab_ptr = hdr->vartab_ptr + rhd_diff;
old_rhead->ptext_ptr = hdr->ptext_ptr + rhd_diff;
old_rhead->current_rhead_ptr = rhd_diff;
old_rhead->temp_mvals = hdr->temp_mvals;
old_rhead->temp_size = hdr->temp_size;
old_rhead = (rhdtyp *) old_rhead->old_rhead_ptr;
}
urx_resolve(hdr, lbt_bot, lbt_top);
return TRUE;
}
bool addr_fix(int file, struct exec *fhead, urx_rtnref *urx_lcl, rhdtyp *code)
{
res_list *res_root, *new_res, *res_temp, *res_temp1;
char *symbols, *sym_temp, *sym_temp1, *symtop, *res_addr;
struct relocation_info rel[RELREAD];
int numrel, rel_read, i, string_size, sym_size;
size_t status;
mident_fixed rtnid, labid;
mstr rtn_str;
rhdtyp *rtn;
lab_tabent *label, *labtop;
bool labsym;
urx_rtnref *urx_rp;
urx_addr *urx_tmpaddr;
res_root = 0;
numrel = (fhead->a_trsize + fhead->a_drsize) / SIZEOF(struct relocation_info);
if (numrel * SIZEOF(struct relocation_info) != fhead->a_trsize + fhead->a_drsize)
return FALSE;
for ( ; numrel;)
{
rel_read = numrel < RELREAD ? numrel : RELREAD;
DOREADRC(file, rel, rel_read * SIZEOF(struct relocation_info), status);
if (0 != status)
{
res_free(res_root);
return FALSE;
}
numrel -= rel_read;
for (i = 0; i < rel_read; i++)
{
if (rel[i].r_extern)
{
new_res = (res_list *)malloc(SIZEOF(*new_res));
new_res->symnum = rel[i].r_symbolnum;
new_res->addr = rel[i].r_address;
new_res->next = new_res->list = 0;
/* Insert the relocation entry in symbol number order on the unresolved chain */
if (!res_root)
res_root = new_res;
else
{ res_temp = res_root;
res_temp1 = 0;
while (res_temp)
{
if (res_temp->symnum >= new_res->symnum)
break;
res_temp1 = res_temp;
res_temp = res_temp->next;
}
if (res_temp)
{ if (res_temp->symnum == new_res->symnum)
{
new_res->list = res_temp->list;
res_temp->list = new_res;
} else
{ if (res_temp1)
{
new_res->next = res_temp1->next;
res_temp1->next = new_res;
} else
{
assert(res_temp == res_root);
new_res->next = res_root;
res_root = new_res;
}
}
} else
res_temp1->next = new_res;
}
} else
*(unsigned int *)(((char *)code) + rel[i].r_address) += (unsigned int)code;
}
}
/* All relocations within the routine should have been done, so copy the routine_name */
assert(code->routine_name.len < SIZEOF(zlink_mname.c));
memcpy(&zlink_mname.c[0], code->routine_name.addr, code->routine_name.len);
zlink_mname.c[code->routine_name.len] = 0;
if (!res_root)
return TRUE;
if ((off_t)-1 == lseek(file, (off_t)fhead->a_syms, SEEK_CUR))
{ res_free(res_root);
return FALSE;
}
DOREADRC(file, &string_size, SIZEOF(string_size), status);
if (0 != status)
{
res_free(res_root);
return FALSE;
}
string_size -= SIZEOF(string_size);
symbols = malloc(string_size);
DOREADRC(file, symbols, string_size, status);
if (0 != status)
{
free(symbols);
res_free(res_root);
return FALSE;
}
/* Match up unresolved entries with the null terminated symbol name entries from the
* symbol text pool we just read in.
*/
sym_temp = sym_temp1 = symbols;
symtop = symbols + string_size;
for (i = 0; res_root; i++)
{
while (i < res_root->symnum)
{ /* Forward symbol space until our symnum index (i) matches the symbol we are processing in res_root */
while (*sym_temp)
{
if (sym_temp >= symtop)
{
free(symbols);
res_free(res_root);
return FALSE;
}
sym_temp++;
}
sym_temp++;
sym_temp1 = sym_temp;
i++;
}
assert (i == res_root->symnum);
/* Find end of routine name that we care about */
while (('.' != *sym_temp1) && *sym_temp1)
{ if (sym_temp1 >= symtop)
{
free(symbols);
res_free(res_root);
return FALSE;
}
sym_temp1++;
}
sym_size = sym_temp1 - sym_temp;
assert(sym_size <= MAX_MIDENT_LEN);
memcpy(&rtnid.c[0], sym_temp, sym_size);
rtnid.c[sym_size] = 0;
if ('_' == rtnid.c[0])
rtnid.c[0] = '%';
assert((sym_size != mid_len(&zlink_mname)) || (0 != memcmp(&zlink_mname.c[0], &rtnid.c[0], sym_size)));
rtn_str.addr = &rtnid.c[0];
rtn_str.len = sym_size;
rtn = find_rtn_hdr(&rtn_str); /* Routine already resolved? */
sym_size = 0;
labsym = FALSE;
if (*sym_temp1 == '.')
{ /* If symbol is for a label, find the end of the label name */
sym_temp1++;
sym_temp = sym_temp1;
while (*sym_temp1)
{
if (sym_temp1 >= symtop)
{
free(symbols);
res_free(res_root);
return FALSE;
}
sym_temp1++;
}
sym_size = sym_temp1 - sym_temp;
assert(sym_size <= MAX_MIDENT_LEN);
memcpy(&labid.c[0], sym_temp, sym_size);
labid.c[sym_size] = 0;
if ('_' == labid.c[0])
labid.c[0] = '%';
labsym = TRUE;
}
sym_temp1++;
sym_temp = sym_temp1;
if (rtn)
{ /* The routine part at least is known */
if (labsym)
{ /* Look our target label up in the routines label table */
label = (lab_tabent *)((char *)rtn + rtn->labtab_ptr);
labtop = label + rtn->labtab_len;
for (; label < labtop && ((sym_size != label->lab_name.len)
|| memcmp(&labid.c[0], label->lab_name.addr, sym_size)); label++)
;
if (label < labtop)
res_addr = (char *)&label->LABENT_LNR_OFFSET;
else
res_addr = 0;
} else
res_addr = (char *)rtn;
if (res_addr)
{ /* The external symbol definition is available. Resolve all references to it */
res_temp = res_root->next;
while (res_root)
{
*(uint4 *)(((char *)code) + res_root->addr) = (unsigned int)res_addr;
res_temp1 = res_root->list;
free(res_root);
res_root = res_temp1;
}
res_root = res_temp;
continue;
}
}
/* This symbol is unknown. Put on the (local) unresolved extern chain -- either for labels or routines */
urx_rp = urx_putrtn(rtn_str.addr, rtn_str.len, urx_lcl);
res_temp = res_root->next;
while (res_root)
{
if (labsym)
urx_putlab(&labid.c[0], sym_size, urx_rp, ((char *)code) + res_root->addr);
else
{ urx_tmpaddr = (urx_addr *)malloc(SIZEOF(urx_addr));
urx_tmpaddr->next = urx_rp->addr;
urx_tmpaddr->addr = (INTPTR_T *)(((char *)code) + res_root->addr);
urx_rp->addr = urx_tmpaddr;
}
res_temp1 = res_root->list;
free(res_root);
res_root = res_temp1;
}
res_root = res_temp;
}
free(symbols);
return TRUE;
}
void res_free(res_list *root)
{
res_list *temp;
while (root)
{ while (root->list)
{ temp = root->list->list;
free(root->list);
root->list = temp;
}
temp = root->next;
free(root);
root = temp;
}
}
/* ZL_ERROR - perform cleanup and signal errors found in zlinking a mumps object module
* err - an error code that accepts no arguments and
* err2 - an error code that accepts two arguments (!AD)
*/
void zl_error(int4 file, int4 err, int4 err2, int4 len, char *addr)
{
int rc;
if (code)
{
GTM_TEXT_FREE(code);
code = NULL;
}
CLOSEFILE_RESET(file, rc); /* resets "file" to FD_INVALID */
if ((0 != err) && (0 != err2))
rts_error(VARLSTCNT(6) err, 0, err2, 2, len, addr);
else if (0 != err)
rts_error(VARLSTCNT(1) err);
else
{
assert(0 != err2);
rts_error(VARLSTCNT(4) err2, 2, len, addr);
}
}