/**************************************************************** * * * Copyright 2001, 2011 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 #include "gtm_string.h" #include "gtm_stdio.h" #include "gtm_time.h" #include "gtm_stat.h" #include "gtm_unistd.h" #include "compiler.h" #include "parse_file.h" #include "error.h" #include "io.h" #include "io_params.h" #include "eintr_wrappers.h" #include "op.h" #include "source_file.h" #include "zroutines.h" #include "gtmio.h" #include "iotimer.h" #include "cmd_qlf.h" #include "min_max.h" #include "cli.h" GBLREF unsigned short source_name_len; GBLREF unsigned char source_file_name[]; GBLREF char rev_time_buf[]; GBLREF mident routine_name, module_name, int_module_name; GBLREF unsigned char *source_buffer; GBLREF int4 dollar_zcstatus; GBLREF io_pair io_curr_device; GBLREF char object_file_name[]; GBLREF short object_name_len; GBLREF int object_file_des; GBLREF command_qualifier cmd_qlf; static bool tt_so_do_once; static io_pair compile_src_dev; static io_pair dev_in_use; /* before opening source file */ static io_pair tmp_list_dev; /* before reading source file */ /* it equal to dev_in_use if list file not open */ static readonly unsigned char open_params_list[] = { (unsigned char)iop_readonly, (unsigned char)iop_m, (unsigned char)iop_eol }; error_def(ERR_ASSERT); error_def(ERR_ERRORSUMMARY); error_def(ERR_FILENOTFND); error_def(ERR_FILEPARSE); error_def(ERR_GTMASSERT); error_def(ERR_GTMASSERT2); error_def(ERR_GTMCHECK); error_def(ERR_MEMORY); error_def(ERR_OBJFILERR); error_def(ERR_SRCFILERR); error_def(ERR_STACKOFLOW); void compile_source_file(unsigned short flen, char *faddr, boolean_t MFtIsReqd) { plength plen; mval fstr, ret; int i; unsigned char *p; int rc; DCL_THREADGBL_ACCESS; SETUP_THREADGBL_ACCESS; if (MAX_FBUFF < flen) { dec_err(VARLSTCNT(4) ERR_FILEPARSE, 2, flen, faddr); TREF(dollar_zcstatus) = ERR_ERRORSUMMARY; } else { object_file_des = FD_INVALID; fstr.mvtype = MV_STR; fstr.str.addr = faddr; fstr.str.len = flen; ESTABLISH(source_ch); tt_so_do_once = FALSE; for (i = 0 ; ; i++) { plen.p.pint = op_fnzsearch(&fstr, 0, &ret); if (!ret.str.len) { if (!i) { dec_err(VARLSTCNT(4) ERR_FILENOTFND, 2, fstr.str.len, fstr.str.addr); TREF(dollar_zcstatus) = ERR_ERRORSUMMARY; } break; } assert(ret.mvtype == MV_STR); assert(ret.str.len <= MAX_FBUFF); source_name_len = ret.str.len; memcpy(source_file_name, ret.str.addr, source_name_len); source_file_name[source_name_len] = 0; p = &source_file_name[plen.p.pblk.b_dir]; if ((plen.p.pblk.b_dir >= SIZEOF("/dev/") - 1) && !MEMCMP_LIT(source_file_name, "/dev/")) tt_so_do_once = TRUE; else if (MFtIsReqd && (plen.p.pblk.b_ext != 2 || ('M' != p[plen.p.pblk.b_name + 1] && 'm' != p[plen.p.pblk.b_name + 1]))) { /* M filetype is required but not present */ dec_err(VARLSTCNT(4) ERR_FILEPARSE, 2, source_name_len, source_file_name); TREF(dollar_zcstatus) = ERR_ERRORSUMMARY; continue; } if (compiler_startup()) TREF(dollar_zcstatus) = ERR_ERRORSUMMARY; if (FD_INVALID != object_file_des) { CLOSEFILE_RESET(object_file_des, rc); /* resets "object_file_des" to FD_INVALID */ if (-1 == rc) rts_error(VARLSTCNT(5) ERR_OBJFILERR, 2, object_name_len, object_file_name, errno); } if (tt_so_do_once) break; } REVERT; } } CONDITION_HANDLER(source_ch) { int dummy1, dummy2; START_CH; if (DUMP) { NEXTCH; } zsrch_clr(0); TREF(dollar_zcstatus) = ERR_ERRORSUMMARY; UNWIND(dummy1, dummy2); } bool open_source_file (void) { mstr fstr; int status, n; parse_blk pblk; char *p, buff[MAX_FBUFF + 1]; time_t clock; struct stat statbuf; mval val; mval pars; unsigned short clen; memset(&pblk, 0, SIZEOF(pblk)); pblk.buffer = buff; pblk.buff_size = MAX_FBUFF; pblk.fop = F_SYNTAXO; fstr.addr = (char *)source_file_name; fstr.len = source_name_len; status = parse_file(&fstr, &pblk); if (!(status & 1)) rts_error(VARLSTCNT(5) ERR_FILEPARSE, 2, fstr.len, fstr.addr, status); pars.mvtype = MV_STR; pars.str.len = SIZEOF(open_params_list); pars.str.addr = (char *)open_params_list; val.mvtype = MV_STR; val.str.len = source_name_len; val.str.addr = (char *)source_file_name; op_open(&val, &pars, 0, 0); dev_in_use = io_curr_device; /* save list file info in use if it is opened */ op_use(&val, &pars); compile_src_dev = io_curr_device; if (tt_so_do_once) { clock = time(0); p = "MDEFAULT"; n = STR_LIT_LEN("MDEFAULT"); } else { STAT_FILE((char *)source_file_name, &statbuf, status); assert(status == 0); clock = statbuf.st_mtime; p = pblk.l_name; n = pblk.b_name; if (n > MAX_MIDENT_LEN) n = MAX_MIDENT_LEN; } /* routine_name is the internal name of the routine (with '%' translated to '_') which can be * different from module_name if the NAMEOFRTN parm is used (by trigger compilation code). * module_name is the external file name of the module (file.m, file.o). * int_module_name is the external symbol that gets exposed (in the GTM context) and is normally * the same as module_name except when NAMEOFRTN is specified in which case it takes on the * untranslated value of routine_name. */ memcpy(module_name.addr, p, n); module_name.len = n; if (!(cmd_qlf.qlf & CQ_NAMEOFRTN)) { memcpy(routine_name.addr, p, n); routine_name.len = n; } else { /* Routine name specified */ clen = MAX_MIDENT_LEN; cli_get_str("NAMEOFRTN", routine_name.addr, &clen); routine_name.len = MIN(clen, MAX_MIDENT_LEN); cmd_qlf.qlf &= ~CQ_NAMEOFRTN; /* Can only be used for first module in list */ } memcpy(int_module_name.addr, routine_name.addr, routine_name.len); int_module_name.len = routine_name.len; if ('_' == *routine_name.addr) routine_name.addr[0] = '%'; p = (char *)GTM_CTIME(&clock); memcpy(rev_time_buf, p + 4, REV_TIME_BUFF_LEN); io_curr_device = dev_in_use; /* set it back to make open_list_file save the device */ return TRUE; } /* * Return: * length of line read */ int4 read_source_file (void) { unsigned char *cp; mval val; errno = 0; tmp_list_dev = io_curr_device; io_curr_device = compile_src_dev; ESTABLISH_RET(read_source_ch, -1); op_readfl(&val, MAX_SRCLINE, NO_M_TIMEOUT); REVERT; memcpy((char *)source_buffer, val.str.addr, val.str.len); cp = source_buffer + val.str.len; *cp = '\0'; /* if there is a newline charactor (end of a line) */ if (!(io_curr_device.in->dollar.x)) *(cp+1) = '\0'; if ( FALSE != io_curr_device.in->dollar.zeof ) return -1; io_curr_device = tmp_list_dev; /* restore list file after reading if it's opened */ return (int4)(cp - source_buffer); /* var.str.len */ } CONDITION_HANDLER(read_source_ch) { int dummy1, dummy2; START_CH; UNWIND(dummy1, dummy2); } void close_source_file (void) { mval val; mval pars; unsigned char no_param; no_param = (unsigned char)iop_eol; pars.mvtype = MV_STR; pars.str.len = SIZEOF(no_param); pars.str.addr = (char *)&no_param; val.mvtype = MV_STR; val.str.len = source_name_len; val.str.addr = (char *)source_file_name; op_close(&val, &pars); io_curr_device = tmp_list_dev; /* not dev_in_use to make sure list file works */ return; }