2012-02-05 11:35:58 -05:00
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/****************************************************************
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* *
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2012-03-24 14:06:46 -04:00
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* Copyright 2001, 2012 Fidelity Information Services, Inc *
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2012-02-05 11:35:58 -05:00
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* *
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* This source code contains the intellectual property *
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* of its copyright holder(s), and is made available *
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* under a license. If you do not know the terms of *
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* the license, please stop and do not read further. *
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* *
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****************************************************************/
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#include "mdef.h"
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#include "gtm_string.h"
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#include "error.h"
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#include "dm_setup.h"
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2012-06-14 08:55:06 -04:00
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#include <rtnhdr.h>
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2012-02-05 11:35:58 -05:00
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#include "op.h"
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#include "compiler.h"
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#include "emit_code.h"
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#include "gtmci.h"
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#include "inst_flush.h"
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#include "obj_file.h"
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#include "gtm_text_alloc.h"
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#ifdef USHBIN_SUPPORTED
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/* From here down is only defined in a shared binary environment */
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#include "make_mode.h"
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#ifdef __ia64
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#if defined(__linux__)
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void dmode_table_init() __attribute__((constructor));
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#else /* __hpux */
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#pragma INIT "dmode_table_init"
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#endif /* __linux__ */
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void dmode_table_init(void);
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#endif /* __ia64 */
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/* This routine is called to create (currently two different) dynamic routines that
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2012-03-24 14:06:46 -04:00
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* can be executed. One is a direct mode frame, the other is a callin base frame. They
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* are basically identical except in the entry points that they call. To this end, this
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* common routine is called for both with the entry points to be put into the generated
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* code being passed in as parameters.
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*/
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2012-02-05 11:35:58 -05:00
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typedef struct dyn_modes_struct
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{
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char *rtn_name;
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int rtn_name_len;
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void (*func_ptr1)(void);
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void (*func_ptr2)(void);
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int (*func_ptr3)(void);
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} dyn_modes;
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static dyn_modes our_modes[2] =
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{
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{
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GTM_DMOD,
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SIZEOF(GTM_DMOD) - 1,
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dm_setup,
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mum_tstart,
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opp_ret
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},
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{
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GTM_CIMOD,
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SIZEOF(GTM_CIMOD) - 1,
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ci_restart,
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ci_ret_code,
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opp_ret
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}
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};
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#if defined(__ia64)
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/* On IA64, we want to use CODE_ADDRESS() macro, to dereference all the function pointers, before storing them in
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* global array. Now doing a dereference operation, as part of initialization, is not allowed by linux/gcc (HP'a aCC
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* was more tolerant towards this). So to make sure that the xfer_table is initialized correctly, before anyone
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* uses it, one needs to create a 'constructor/initializer' function, which is gauranted to be called as soon as
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* this module is loaded, and initialize the xfer_table correctly within that function. gcc provides the below
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* mechanism to do this
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*/
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static char dyn_modes_type[2][3] = {
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{'C','A','A'},
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{'A','C','A'}
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};
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void dmode_table_init()
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{
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/*
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our_modes[0].func_ptr1 = (void (*)())CODE_ADDRESS(our_modes[0].func_ptr1);
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our_modes[0].func_ptr2 = (void (*)())CODE_ADDRESS(our_modes[0].func_ptr2);
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our_modes[0].func_ptr3 = (int (*)())CODE_ADDRESS(our_modes[0].func_ptr3);
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our_modes[1].func_ptr1 = (void (*)())CODE_ADDRESS(our_modes[1].func_ptr1);
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our_modes[1].func_ptr2 = (void (*)())CODE_ADDRESS(our_modes[1].func_ptr2);
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our_modes[1].func_ptr3 = (int (*)())CODE_ADDRESS(our_modes[1].func_ptr3);
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*/
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}
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#endif /* __ia64 */
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rhdtyp *make_mode (int mode_index)
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{
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rhdtyp *base_address;
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lab_tabent *lbl;
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lnr_tabent *lnr;
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CODEBUF_TYPE *code;
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dyn_modes *dmode;
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int algnd_rtnhdr_size = (int)ROUND_UP2(SIZEOF(rhdtyp), SECTION_ALIGN_BOUNDARY);
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int algnd_code_size = (int)ROUND_UP2(CODE_SIZE, NATIVE_WSIZE);
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int algnd_lbltab_size = (int)ROUND_UP2(SIZEOF(lab_tabent), NATIVE_WSIZE);
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int algnd_lnrtab_size = (int)ROUND_UP2(CODE_LINES * SIZEOF(lnr_tabent), NATIVE_WSIZE);
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2012-03-24 14:06:46 -04:00
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assert((DM_MODE == mode_index) || (CI_MODE == mode_index));
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base_address = (rhdtyp *)GTM_TEXT_ALLOC(algnd_rtnhdr_size + algnd_code_size + algnd_lbltab_size + algnd_lnrtab_size);
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memset(base_address, 0, algnd_rtnhdr_size + algnd_code_size + algnd_lbltab_size + algnd_lnrtab_size);
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dmode = &our_modes[mode_index];
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base_address->routine_name.len = dmode->rtn_name_len;
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base_address->routine_name.addr = dmode->rtn_name;
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base_address->ptext_adr = (unsigned char *)base_address + algnd_rtnhdr_size;
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base_address->ptext_end_adr = (unsigned char *)base_address->ptext_adr + algnd_code_size;
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base_address->lnrtab_adr = (lnr_tabent *)base_address->ptext_end_adr;
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base_address->labtab_adr = (lab_tabent *)((unsigned char *)base_address + algnd_rtnhdr_size +
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algnd_code_size + algnd_lnrtab_size);
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base_address->lnrtab_len = CODE_LINES;
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base_address->labtab_len = 1;
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code = (CODEBUF_TYPE *)base_address->ptext_adr; /* start of executable code */
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#ifdef __ia64
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if (dyn_modes_type[mode_index][0] == 'C')
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{
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GEN_CALL_C(CODE_ADDRESS(dmode->func_ptr1)) /* line 0,1 */
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} else
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{
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GEN_CALL_ASM(CODE_ADDRESS(dmode->func_ptr1)) /* line 0,1 */
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}
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#else
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GEN_CALL(dmode->func_ptr1); /* line 0,1 */
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#endif /* __ia64 */
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#ifdef _AIX
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if (CI_MODE == mode_index)
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{
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/* Following 2 instructions are generated to call the routine stored in GTM_REG_ACCUM.
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* ci_restart would have loaded this register with the address of op_extcall/op_extexfun.
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* On other platforms, ci_start usually invokes op_ext* which will return directly
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* to the generated code. Since RS6000 doesn't support call instruction without altering
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* return address register (LR), the workaround is to call op_ext* not from ci_restart
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* but from this dummy code
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*/
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*code++ = RS6000_INS_MTLR | GTM_REG_ACCUM << RS6000_SHIFT_RS;
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*code++ = RS6000_INS_BRL;
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}
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#endif
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#ifdef __ia64
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if (dyn_modes_type[mode_index][1] == 'C')
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{
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GEN_CALL_C(CODE_ADDRESS(dmode->func_ptr2))
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} else
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{
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GEN_CALL_ASM(CODE_ADDRESS(dmode->func_ptr2))
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}
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#else
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GEN_CALL(dmode->func_ptr2);
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#endif /* __ia64 */
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#if defined (__ia64)
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if (DM_MODE == mode_index)
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{
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GEN_UNCOD_JUMP(-(2 * 5)); /* branch to dm_setup which is at the top of the direct mode frame. */
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}
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#elif defined(__hpux)
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if (DM_MODE == mode_index)
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{
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*code++ = HPPA_INS_BEQ | (MAKE_COND_BRANCH_TARGET(-8) << HPPA_SHIFT_OFFSET); /* BEQ r0,r0, -8 */
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*code++ = HPPA_INS_NOP;
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}
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#endif /* __ia64 */
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#ifdef __ia64
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if (dyn_modes_type[mode_index][2] == 'C')
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{
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GEN_CALL_C(CODE_ADDRESS(dmode->func_ptr3)); /* line 2 */
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} else
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{
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GEN_CALL_ASM(CODE_ADDRESS(dmode->func_ptr3)); /* line 2 */
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}
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#else
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GEN_CALL(dmode->func_ptr3); /* line 2 */
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#endif /* __ia64 */
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lnr = LNRTAB_ADR(base_address);
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*lnr++ = 0; /* line 0 */
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*lnr++ = 0; /* line 1 */
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IA64_ONLY(*lnr++ = 2 * CALL_SIZE + EXTRA_INST_SIZE;) /* line 2 */
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NON_IA64_ONLY(*lnr++ = 2 * CALL_SIZE + EXTRA_INST * SIZEOF(int);) /* line 2 */
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lbl = base_address->labtab_adr;
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lbl->lnr_adr = base_address->lnrtab_adr;
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base_address->current_rhead_adr = base_address;
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zlput_rname(base_address);
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inst_flush(base_address, algnd_rtnhdr_size + algnd_code_size + algnd_lbltab_size + algnd_lnrtab_size);
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return base_address;
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}
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#endif /* USHBIN_SUPPORTED */
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