fis-gtm/sr_unix/gtmci.c

654 lines
21 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 <stdarg.h>
#include "gtm_stdio.h"
#include <errno.h>
#include "gtm_stdlib.h"
#include "gtm_string.h"
#include "cli.h"
#include "stringpool.h"
#include <rtnhdr.h>
#include "stack_frame.h"
#include "mvalconv.h"
#include "gtmxc_types.h"
#include "lv_val.h"
#include "fgncal.h"
#include "gtmci.h"
#include "error.h"
#include "startup.h"
#include "mv_stent.h"
#include "op.h"
#include "gtm_startup.h"
#include "job_addr.h"
#include "invocation_mode.h"
#include "gtmimagename.h"
#include "gtm_exit_handler.h"
#include "gtm_savetraps.h"
#include "gtm_env_init.h" /* for gtm_env_init() prototype */
#include "code_address_type.h"
#include "push_lvval.h"
#include "send_msg.h"
#include "gtmmsg.h"
#include "gtm_imagetype_init.h"
#include "gtm_threadgbl_init.h"
#ifdef GTM_TRIGGER
# include "gdsroot.h"
# include "gtm_facility.h"
# include "fileinfo.h"
# include "gdsbt.h"
# include "gdsfhead.h"
# include "gv_trigger.h"
# include "gtm_trigger.h"
#endif
#ifdef UNICODE_SUPPORTED
# include "gtm_icu_api.h"
# include "gtm_utf8.h"
#endif
#include "hashtab.h"
#include "hashtab_str.h"
#include "compiler.h"
#include "gt_timer.h"
#include "have_crit.h"
GBLREF parmblk_struct *param_list;
GBLREF stack_frame *frame_pointer;
GBLREF unsigned char *msp;
GBLREF mv_stent *mv_chain;
GBLREF int mumps_status;
GBLREF void (*restart)();
GBLREF boolean_t gtm_startup_active;
GBLREF volatile int *var_on_cstack_ptr; /* volatile so that nothing gets optimized out */
GBLREF rhdtyp *ci_base_addr;
GBLREF mval dollar_zstatus;
GBLREF unsigned char *fgncal_stack;
GBLREF uint4 dollar_tlevel;
GBLREF int process_exiting;
GTMTRIG_DBG_ONLY(GBLREF ch_ret_type (*ch_at_trigger_init)();)
error_def(ERR_CALLINAFTERXIT);
error_def(ERR_CIMAXLEVELS);
error_def(ERR_CINOENTRY);
error_def(ERR_CIRCALLNAME);
error_def(ERR_CITPNESTED);
error_def(ERR_INVGTMEXIT);
error_def(ERR_MAXACTARG);
error_def(ERR_MAXSTRLEN);
static callin_entry_list* get_entry(const char* call_name)
{ /* Lookup in a hashtable for entry corresponding to routine name */
ht_ent_str *callin_entry;
stringkey symkey;
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
symkey.str.addr = (char *)call_name;
symkey.str.len = STRLEN(call_name);
COMPUTE_HASH_STR(&symkey);
callin_entry = lookup_hashtab_str(TREF(callin_hashtab), &symkey);
return (callin_entry ? callin_entry->value : NULL);
}
int gtm_ci_exec(const char *c_rtn_name, void *callin_handle, int populate_handle, va_list temp_var)
{
va_list var;
callin_entry_list *entry;
mstr label, routine;
int has_return, i;
rhdtyp *base_addr;
uint4 inp_mask, out_mask, mask;
uint4 *lnr_entry;
mval arg_mval, *arg_ptr;
enum xc_types arg_type;
gtm_string_t *mstr_parm;
char *xc_char_ptr;
parmblk_struct param_blk;
void op_extcall(), op_extexfun(), flush_pio(void);
volatile int *save_var_on_cstack_ptr; /* Volatile to match global var type */
int status;
boolean_t added;
stringkey symkey;
ht_ent_str *syment;
intrpt_state_t old_intrpt_state;
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
set_blocksig();
VAR_COPY(var, temp_var);
added = FALSE;
/* A prior invocation of gtm_exit would have set process_exiting = TRUE. Use this to disallow gtm_ci to be
* invoked after a gtm_exit
*/
if (process_exiting)
{
gtm_putmsg(VARLSTCNT(1) ERR_CALLINAFTERXIT);
send_msg(VARLSTCNT(1) ERR_CALLINAFTERXIT);
return ERR_CALLINAFTERXIT;
}
if (!gtm_startup_active || !(frame_pointer->flags & SFF_CI))
{
if ((status = gtm_init()) != 0)
return status;
}
ESTABLISH_RET(gtmci_ch, mumps_status);
if (msp < fgncal_stack) /* unwind all arguments left on the stack by previous gtm_ci */
fgncal_unwind();
if (!TREF(ci_table)) /* load the call-in table only once from env variable GTMCI */
{
TREF(ci_table) = citab_parse();
if (!TREF(callin_hashtab))
{
TREF(callin_hashtab) = (hash_table_str *)malloc(SIZEOF(hash_table_str));
(TREF(callin_hashtab))->base = NULL;
/* Need to initialize hash table */
init_hashtab_str(TREF(callin_hashtab), CALLIN_HASHTAB_SIZE,
HASHTAB_NO_COMPACT, HASHTAB_NO_SPARE_TABLE);
assert((TREF(callin_hashtab))->base);
}
for (entry = TREF(ci_table); NULL != entry; entry = entry->next_entry)
{ /* Loop over the list and populate the hash table */
symkey.str.addr = entry->call_name.addr;
symkey.str.len = entry->call_name.len;
COMPUTE_HASH_STR(&symkey);
added = add_hashtab_str(TREF(callin_hashtab), &symkey, entry, &syment);
assert(added);
assert(syment->value == entry);
}
}
if (!c_rtn_name)
rts_error(VARLSTCNT(1) ERR_CIRCALLNAME);
if (NULL == callin_handle)
{
if (!(entry = get_entry(c_rtn_name))) /* c_rtn_name not found in the table */
rts_error(VARLSTCNT(4) ERR_CINOENTRY, 2, LEN_AND_STR(c_rtn_name));
if (populate_handle)
callin_handle = entry;
} else
entry = callin_handle;
lref_parse((unsigned char*)entry->label_ref.addr, &routine, &label, &i);
/* 3rd argument is NULL because we will get lnr_adr via lab_proxy */
job_addr(&routine, &label, 0, (char **)&base_addr, NULL);
memset(&param_blk, 0, SIZEOF(param_blk));
param_blk.rtnaddr = (void *)base_addr;
/* lnr_entry below is a pointer to the code offset for this label from the
* beginning of text base(on USHBIN platforms) or from the beginning of routine
* header (on NON_USHBIN platforms).
* On NON_USHBIN platforms -- 2nd argument to EXTCALL is this pointer
* On USHBIN -- 2nd argument to EXTCALL is the pointer to this pointer (&lnr_entry)
*/
/* Assign the address for line number entry storage, so that the adjacent address holds has_parms value. */
param_blk.labaddr = &(TREF(lab_proxy)).LABENT_LNR_OFFSET;
param_blk.argcnt = entry->argcnt;
if (MAX_ACTUALS < param_blk.argcnt)
rts_error(VARLSTCNT(1) ERR_MAXACTARG);
has_return = (xc_void == entry->return_type) ? 0 : 1;
if (has_return)
{ /* Create mval slot for return value */
param_blk.retaddr = (void *)push_lvval(&arg_mval);
va_arg(var, void *); /* advance va_arg */
} else
param_blk.retaddr = 0;
inp_mask = entry->input_mask;
out_mask = entry->output_mask;
for (i = 0, mask = ~inp_mask; i < entry->argcnt; ++i, mask >>= 1)
{ /* Copy pass-by-value arguments - since only first MAX_ACTUALS could be O/IO,
* any additional params will be treated as Input-only (I).
* inp_mask is inversed to achieve this.
*/
arg_mval.mvtype = MV_XZERO;
if (mask & 1)
{ /* output-only(O) params : advance va_arg pointer */
switch (entry->parms[i])
{
case xc_int:
va_arg(var, gtm_int_t);
break;
case xc_uint:
va_arg(var, gtm_uint_t);
break;
case xc_long:
va_arg(var, gtm_long_t);
break;
case xc_ulong:
va_arg(var, gtm_ulong_t);
break;
case xc_int_star:
va_arg(var, gtm_int_t *);
break;
case xc_uint_star:
va_arg(var, gtm_uint_t *);
break;
case xc_long_star:
va_arg(var, gtm_long_t *);
break;
case xc_ulong_star:
va_arg(var, gtm_ulong_t *);
break;
case xc_float:
case xc_double:
va_arg(var, gtm_double_t);
break;
case xc_float_star:
va_arg(var, gtm_float_t *);
break;
case xc_double_star:
va_arg(var, gtm_double_t *);
break;
case xc_char_star:
va_arg(var, gtm_char_t *);
break;
case xc_string_star:
va_arg(var, gtm_string_t *);
break;
default:
va_end(var);
GTMASSERT;
}
} else
{ /* I/IO params: create mval for each native type param */
switch (entry->parms[i])
{
case xc_int:
i2mval(&arg_mval, va_arg(var, gtm_int_t));
break;
case xc_uint:
i2usmval(&arg_mval, va_arg(var, gtm_uint_t));
break;
case xc_long:
#ifdef GTM64
l2mval(&arg_mval, (long)va_arg(var, gtm_long_t));
#else
i2mval(&arg_mval, (int)va_arg(var, gtm_long_t));
#endif
break;
case xc_ulong:
#ifdef GTM64
ul2mval(&arg_mval, (unsigned long)va_arg(var, gtm_ulong_t));
#else
i2usmval(&arg_mval, (int)va_arg(var, gtm_ulong_t));
#endif
break;
case xc_int_star:
i2mval(&arg_mval, *va_arg(var, gtm_int_t *));
break;
case xc_uint_star:
i2usmval(&arg_mval, *va_arg(var, gtm_uint_t *));
break;
case xc_long_star:
#ifdef GTM64
l2mval(&arg_mval, (long)*va_arg(var, gtm_long_t *));
#else
i2mval(&arg_mval, (int)*va_arg(var, gtm_long_t *));
#endif
break;
case xc_ulong_star:
#ifdef GTM64
ul2mval(&arg_mval, (unsigned long)*va_arg(var, gtm_ulong_t *));
#else
i2usmval(&arg_mval, (int)*va_arg(var, gtm_ulong_t *));
#endif
break;
case xc_float: /* fall through */
case xc_double:
double2mval(&arg_mval, va_arg(var, gtm_double_t));
break;
case xc_float_star:
double2mval(&arg_mval, *va_arg(var, gtm_float_t *));
break;
case xc_double_star:
double2mval(&arg_mval, *va_arg(var, gtm_double_t *));
break;
case xc_char_star:
arg_mval.mvtype = MV_STR;
arg_mval.str.addr = va_arg(var, gtm_char_t *);
arg_mval.str.len = STRLEN(arg_mval.str.addr);
if (MAX_STRLEN < arg_mval.str.len)
{
va_end(var);
rts_error(VARLSTCNT(1) ERR_MAXSTRLEN);
}
s2pool(&arg_mval.str);
break;
case xc_string_star:
mstr_parm = va_arg(var, gtm_string_t *);
arg_mval.mvtype = MV_STR;
if (MAX_STRLEN < (uint4)mstr_parm->length)
{
va_end(var);
rts_error(VARLSTCNT(1) ERR_MAXSTRLEN);
}
arg_mval.str.len = (mstr_len_t)mstr_parm->length;
arg_mval.str.addr = mstr_parm->address;
s2pool(&arg_mval.str);
break;
default:
va_end(var);
GTMASSERT; /* should have been caught by citab_parse */
}
}
param_blk.args[i] = push_lvval(&arg_mval);
}
va_end(var);
param_blk.mask = out_mask;
param_blk.ci_rtn = (!has_return && param_blk.argcnt <= 0)
? (void (*)())CODE_ADDRESS_TYPE(op_extcall)
: (void (*)())CODE_ADDRESS_TYPE(op_extexfun);
/* the params block needs to be stored & restored across multiple
* gtm environments. So instead of storing explicitely, setting the
* global param_list to point to local param_blk will do the job
*/
param_list = &param_blk;
old_intrpt_state = intrpt_ok_state;
intrpt_ok_state = INTRPT_OK_TO_INTERRUPT; /* reset interrupt state for the new M session */
save_var_on_cstack_ptr = var_on_cstack_ptr;
var_on_cstack_ptr = NULL; /* reset var_on_cstack_ptr for the new M environment */
assert(frame_pointer->flags & SFF_CI);
frame_pointer->mpc = frame_pointer->ctxt = PTEXT_ADR(frame_pointer->rvector);
REVERT; /* gtmci_ch */
ESTABLISH_RET(stop_image_conditional_core, mumps_status);
dm_start(); /* kick off execution */
REVERT;
intrpt_ok_state = old_intrpt_state; /* restore the old interrupt state */
var_on_cstack_ptr = save_var_on_cstack_ptr; /* restore the old environment's var_on_cstack_ptr */
if (1 != mumps_status)
{ /* dm_start() initializes mumps_status to 1 before execution. If mumps_status is not 1,
* it is either the unhandled error code propaged by $ZT/$ET (from mdb_condition_handler)
* or zero on returning from ZGOTO 0 (ci_ret_code_quit)
*/
return mumps_status;
}
ESTABLISH_RET(gtmci_ch, mumps_status);
/* convert mval args passed by reference to C types */
for (i = 0; i <= entry->argcnt; ++i)
{
if (0 == i) /* special case for return value */
{
if (!has_return)
continue;
arg_ptr = &((lv_val *)(param_blk.retaddr))->v;
mask = 1;
arg_type = entry->return_type;
} else
{
arg_ptr = &param_blk.args[i - 1]->v;
mask = out_mask;
arg_type = entry->parms[i - 1];
out_mask >>= 1;
}
/* Do not process parameters that are either input-only(I) or output(O/IO)
* parameters that are not modified by the M routine.
*/
if (!(mask & 1) || !MV_DEFINED(arg_ptr))
{
switch (arg_type)
{
case xc_int_star:
va_arg(temp_var, gtm_int_t *);
break;
case xc_uint_star:
va_arg(temp_var, gtm_uint_t *);
break;
case xc_long_star:
va_arg(temp_var, gtm_long_t *);
break;
case xc_ulong_star:
va_arg(temp_var, gtm_ulong_t *);
break;
case xc_float_star:
va_arg(temp_var, gtm_float_t *);
break;
case xc_double_star:
va_arg(temp_var, gtm_double_t *);
break;
case xc_char_star:
va_arg(temp_var, gtm_char_t *);
break;
case xc_string_star:
va_arg(temp_var, gtm_string_t *);
break;
case xc_int:
va_arg(temp_var, gtm_int_t);
break;
case xc_uint:
va_arg(temp_var, gtm_uint_t);
break;
case xc_long:
va_arg(temp_var, gtm_long_t);
break;
case xc_ulong:
va_arg(temp_var, gtm_ulong_t);
break;
case xc_float:
case xc_double:
va_arg(temp_var, gtm_double_t);
break;
default:
va_end(temp_var);
GTMASSERT;
}
} else
{ /* Process all output (O/IO) parameters modified by the M routine */
switch (arg_type)
{
case xc_int_star:
*va_arg(temp_var, gtm_int_t *) = mval2i(arg_ptr);
break;
case xc_uint_star:
*va_arg(temp_var, gtm_uint_t *) = mval2ui(arg_ptr);
break;
case xc_long_star:
*va_arg(temp_var, gtm_long_t *) = mval2i(arg_ptr);
break;
case xc_ulong_star:
*va_arg(temp_var, gtm_ulong_t *) = mval2ui(arg_ptr);
break;
case xc_float_star:
*va_arg(temp_var, gtm_float_t *) = mval2double(arg_ptr);
break;
case xc_double_star:
*va_arg(temp_var, gtm_double_t *) = mval2double(arg_ptr);
break;
case xc_char_star:
xc_char_ptr = va_arg(temp_var, gtm_char_t *);
MV_FORCE_STR(arg_ptr);
memcpy(xc_char_ptr, arg_ptr->str.addr, arg_ptr->str.len);
xc_char_ptr[arg_ptr->str.len] = 0; /* trailing null */
break;
case xc_string_star:
mstr_parm = va_arg(temp_var, gtm_string_t *);
MV_FORCE_STR(arg_ptr);
mstr_parm->length = arg_ptr->str.len;
memcpy(mstr_parm->address, arg_ptr->str.addr, mstr_parm->length);
break;
default:
va_end(temp_var);
GTMASSERT;
}
}
}
va_end(temp_var);
REVERT;
return 0;
}
int gtm_ci(const char *c_rtn_name, ...)
{
va_list var;
VAR_START(var, c_rtn_name);
return gtm_ci_exec(c_rtn_name, NULL, FALSE, var);
}
/* Functionality is same as that of gtmci but accepts a struct containing information about the routine. */
int gtm_cip(ci_name_descriptor* ci_info, ...)
{
va_list var;
VAR_START(var, ci_info);
return gtm_ci_exec(ci_info->rtn_name.address, ci_info->handle, TRUE, var);
}
int gtm_init()
{
rhdtyp *base_addr;
unsigned char *transfer_addr;
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
if (NULL == lcl_gtm_threadgbl)
{ /* This will likely need some attention before going to a threaded model */
assert(!gtm_startup_active);
GTM_THREADGBL_INIT;
}
/* A prior invocation of gtm_exit would have set process_exiting = TRUE. Use this to disallow gtm_init to be
* invoked after a gtm_exit
*/
if (process_exiting)
{
gtm_putmsg(VARLSTCNT(1) ERR_CALLINAFTERXIT);
send_msg(VARLSTCNT(1) ERR_CALLINAFTERXIT);
return ERR_CALLINAFTERXIT;
}
if (!gtm_startup_active)
{ /* call-in invoked from C as base. GT.M hasn't been started up yet. */
gtm_imagetype_init(GTM_IMAGE);
gtm_wcswidth_fnptr = gtm_wcswidth;
gtm_env_init(); /* read in all environment variables */
err_init(stop_image_conditional_core);
GTM_ICU_INIT_IF_NEEDED; /* Note: should be invoked after err_init (since it may error out) and before CLI parsing */
cli_lex_setup(0, NULL);
/* Initialize msp to the maximum so if errors occur during GT.M startup below,
* the unwind logic in gtmci_ch() will get rid of the whole stack.
*/
msp = (unsigned char *)-1L;
GTMTRIG_DBG_ONLY(ch_at_trigger_init = &mdb_condition_handler);
}
ESTABLISH_RET(gtmci_ch, mumps_status);
if (!gtm_startup_active)
{ /* GT.M is not active yet. Create GT.M startup environment */
invocation_mode = MUMPS_CALLIN;
init_gtm();
gtm_savetraps(); /* nullify default $ZTRAP handling */
assert(gtm_startup_active);
assert(frame_pointer->flags & SFF_CI);
TREF(gtmci_nested_level) = 1;
} else if (!(frame_pointer->flags & SFF_CI))
{ /* Nested call-in: setup a new CI environment (SFF_CI frame on top of base-frame).
* Mark the beginning of the new stack so that initialization errors in
* call-in frame do not unwind entries of the previous stack (see gtmci_ch).
*/
fgncal_stack = msp;
/* generate CIMAXLEVELS error if gtmci_nested_level > CALLIN_MAX_LEVEL */
if (CALLIN_MAX_LEVEL < TREF(gtmci_nested_level))
rts_error(VARLSTCNT(3) ERR_CIMAXLEVELS, 1, TREF(gtmci_nested_level));
/* Disallow call-ins within a TP boundary since TP restarts are not supported
* currently across nested call-ins. When we implement TP restarts across call-ins,
* this error needs be changed to a Warning or Notification
*/
if (dollar_tlevel)
rts_error(VARLSTCNT(1) ERR_CITPNESTED);
base_addr = make_cimode();
transfer_addr = PTEXT_ADR(base_addr);
gtm_init_env(base_addr, transfer_addr);
SET_CI_ENV(ci_ret_code_exit);
gtmci_isv_save();
(TREF(gtmci_nested_level))++;
}
/* Now that GT.M is initialized. Mark the new stack pointer (msp) so that errors
* while executing an M routine do not unwind stack below this mark. It important that
* the call-in frames (SFF_CI), that hold nesting information (eg. $ECODE/$STACK data
* of the previous stack), are kept from being unwound.
*/
fgncal_stack = msp;
REVERT;
return 0;
}
/* routine exposed to call-in user to exit from active GT.M environment */
int gtm_exit()
{
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
if (!gtm_startup_active)
return 0; /* GT.M environment not setup yet - quietly return */
ESTABLISH_RET(gtmci_ch, mumps_status);
assert(NULL != frame_pointer);
/* Do not allow gtm_exit() to be invoked from external calls */
if (!(SFF_CI & frame_pointer->flags) || !(MUMPS_CALLIN & invocation_mode) || (1 < TREF(gtmci_nested_level)))
rts_error(VARLSTCNT(1) ERR_INVGTMEXIT);
/* Now get rid of the whole M stack - end of GT.M environment */
while (NULL != frame_pointer)
{
while ((NULL != frame_pointer) && !(frame_pointer->flags & SFF_CI))
{
# ifdef GTM_TRIGGER
if (SFT_TRIGR & frame_pointer->type)
gtm_trigger_fini(TRUE, FALSE);
else
# endif
op_unwind();
}
if (NULL != frame_pointer)
{ /* unwind the current invocation of call-in environment */
assert(frame_pointer->flags & SFF_CI);
ci_ret_code_quit();
}
}
gtm_exit_handler(); /* rundown all open database resource */
/* If libgtmshr was loaded via (or on account of) dlopen() and is later unloaded via dlclose()
* the exit handler on AIX and HPUX still tries to call the registered atexit() handler causing
* 'problems'. AIX 5.2 and later have the below unatexit() call to unregister the function if
* our exit handler has already been called. Linux and Solaris don't need this, looking at the
* other platforms we support to see if resolutions can be found. SE 05/2007
*/
#ifdef _AIX
unatexit(gtm_exit_handler);
#endif
REVERT;
gtm_startup_active = FALSE;
return 0;
}
void gtm_zstatus(char *msg, int len)
{
int msg_len;
msg_len = (len <= dollar_zstatus.str.len) ? len - 1 : dollar_zstatus.str.len;
memcpy(msg, dollar_zstatus.str.addr, msg_len);
msg[msg_len] = 0;
}
#ifdef _AIX
/* If libgtmshr was loaded via (or on account of) dlopen() and is later unloaded via dlclose()
* the exit handler on AIX and HPUX still tries to call the registered atexit() handler causing
* 'problems'. AIX 5.2 and later have the below unatexit() call to unregister the function if
* our exit handler has already been called. Linux and Solaris don't need this, looking at the
* other platforms we support to see if resolutions can be found. This routine will be called
* by the OS when libgtmshr is unloaded. Specified with the -binitfini loader option on AIX
* to be run when the shared library is unloaded. 06/2007 SE
*/
void gtmci_cleanup(void)
{ /* This code is only for callin cleanup */
if (MUMPS_CALLIN != invocation_mode)
return;
/* If we have already run the exit handler, no need to do so again */
if (gtm_startup_active)
{
gtm_exit_handler();
gtm_startup_active = FALSE;
}
/* Unregister exit handler .. AIX only for now */
unatexit(gtm_exit_handler);
}
#endif