/**************************************************************** * * * Copyright 2001, 2009 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 #include "gtm_fcntl.h" #include #include "gtm_string.h" #include "gtm_iconv.h" #include "gtm_termios.h" #include "gtm_unistd.h" #include "io_params.h" #include "io.h" #include "iottdef.h" #include "iosp.h" #include "trmdef.h" #include "nametabtyp.h" #include "copy.h" #include "gtmio.h" #include "eintr_wrappers.h" #include "stringpool.h" #include "send_msg.h" #include "namelook.h" #include "error.h" #include "gtm_tputs.h" #include "gtm_tparm.h" LITDEF nametabent filter_names[] = { {4, "CHAR*"}, {3, "ESC*"}, {6, "NOCHAR*"}, {5, "NOESC*"} }; LITDEF unsigned char filter_index[27] = { 0, 0, 0, 1, 1, 2, 2, 2, 2, 2, 2, 2 ,2, 2, 4, 4, 4, 4, 4, 4, 4, 4, 4 ,4, 4, 4 }; GBLREF bool ctrlc_on; GBLREF char *CURSOR_ADDRESS, *CLR_EOL, *CLR_EOS; GBLREF io_pair io_std_device; GBLREF io_pair io_curr_device; GBLREF bool prin_out_dev_failure; GBLREF void (*ctrlc_handler_ptr)(); GBLREF boolean_t dollar_zininterrupt; LITREF unsigned char io_params_size[]; void iott_use(io_desc *iod, mval *pp) { boolean_t flush_input; char dc1; int fil_type; unsigned char ch, len; int4 length, width; uint4 mask_in; d_tt_struct *temp_ptr, *tt_ptr; io_desc *d_in, *d_out; io_termmask mask_term; char *ttab; struct termios t; int status; int save_errno; int p_offset; error_def(ERR_DEVPARMNEG); error_def(ERR_NOPRINCIO); error_def(ERR_SYSCALL); error_def(ERR_TCGETATTR); error_def(ERR_TCSETATTR); error_def(ERR_TTINVFILTER); error_def(ERR_WIDTHTOOSMALL); error_def(ERR_ZINTRECURSEIO); p_offset = 0; assert(iod->state == dev_open); iott_flush(iod); tt_ptr = (d_tt_struct *)iod->dev_sp; if (*(pp->str.addr + p_offset) != iop_eol) { if (tt_ptr->mupintr) if (dollar_zininterrupt) rts_error(VARLSTCNT(1) ERR_ZINTRECURSEIO); else { /* The interrupted read was not properly resumed so clear it now */ tt_ptr->mupintr = FALSE; tt_ptr->tt_state_save.who_saved = ttwhichinvalid; io_find_mvstent(iod, TRUE); } status = tcgetattr(tt_ptr->fildes, &t); if (0 != status) { save_errno = errno; if (io_curr_device.out == io_std_device.out) { if (!prin_out_dev_failure) prin_out_dev_failure = TRUE; else { send_msg(VARLSTCNT(1) ERR_NOPRINCIO); stop_image_no_core(); } } rts_error(VARLSTCNT(3) ERR_TCGETATTR, tt_ptr->fildes, save_errno); } flush_input = FALSE; d_in = iod->pair.in; d_out = iod->pair.out; temp_ptr = (d_tt_struct *)d_in->dev_sp; mask_in = temp_ptr->term_ctrl; mask_term = temp_ptr->mask_term; while (*(pp->str.addr + p_offset) != iop_eol) { switch (ch = *(pp->str.addr + p_offset++)) { case iop_canonical: tt_ptr->canonical = TRUE; t.c_lflag |= ICANON; break; case iop_nocanonical: tt_ptr->canonical = FALSE; t.c_lflag &= ~(ICANON); break; case iop_cenable: temp_ptr = (d_tt_struct *)io_std_device.in->dev_sp; if (tt_ptr->fildes == temp_ptr->fildes && !ctrlc_on) { struct sigaction act; sigemptyset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = ctrlc_handler_ptr; sigaction(SIGINT, &act, 0); ctrlc_on = TRUE; } break; case iop_nocenable: temp_ptr = (d_tt_struct *)io_std_device.in->dev_sp; if (tt_ptr->fildes == temp_ptr->fildes && ctrlc_on) { struct sigaction act; sigemptyset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = SIG_IGN; sigaction(SIGINT, &act, 0); ctrlc_on = FALSE; } break; case iop_clearscreen: gtm_tputs(CLR_EOS, 1, outc); break; case iop_convert: mask_in |= TRM_CONVERT; break; case iop_noconvert: mask_in &= ~TRM_CONVERT; break; case iop_ctrap: GET_LONG(tt_ptr->enbld_outofbands.mask, pp->str.addr + p_offset); break; case iop_downscroll: if (d_out->dollar.y > 0) { d_out->dollar.y--; gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc); } break; case iop_echo: mask_in &= (~TRM_NOECHO); break; case iop_noecho: mask_in |= TRM_NOECHO; break; case iop_editing: if (io_curr_device.in == io_std_device.in) { /* $PRINCIPAL only */ tt_ptr->ext_cap |= TT_EDITING; if (!tt_ptr->recall_buff.addr) { assert(tt_ptr->in_buf_sz); tt_ptr->recall_buff.addr = malloc(tt_ptr->in_buf_sz); tt_ptr->recall_size = tt_ptr->in_buf_sz; tt_ptr->recall_buff.len = 0; /* nothing in buffer */ } } break; case iop_noediting: if (io_curr_device.in == io_std_device.in) tt_ptr->ext_cap &= ~TT_EDITING; /* $PRINCIPAL only */ break; case iop_escape: mask_in |= TRM_ESCAPE; break; case iop_noescape: mask_in &= (~TRM_ESCAPE); default: break; case iop_eraseline: gtm_tputs(CLR_EOL, 1, outc); break; case iop_exception: iod->error_handler.len = *(pp->str.addr + p_offset); iod->error_handler.addr = (char *)(pp->str.addr + p_offset + 1); s2pool(&iod->error_handler); break; case iop_filter: len = *(pp->str.addr + p_offset); ttab = pp->str.addr + p_offset + 1; if ((fil_type = namelook(filter_index, filter_names, ttab, len)) < 0) { rts_error(VARLSTCNT(1) ERR_TTINVFILTER); return; } switch (fil_type) { case 0: iod->write_filter |= CHAR_FILTER; break; case 1: iod->write_filter |= ESC1; break; case 2: iod->write_filter &= ~CHAR_FILTER; break; case 3: iod->write_filter &= ~ESC1; break; } break; case iop_nofilter: iod->write_filter = 0; break; case iop_flush: flush_input = TRUE; break; case iop_hostsync: t.c_iflag |= IXOFF; break; case iop_nohostsync: t.c_iflag &= ~IXOFF; break; case iop_insert: if (io_curr_device.in == io_std_device.in) tt_ptr->ext_cap &= ~TT_NOINSERT; /* $PRINCIPAL only */ break; case iop_noinsert: if (io_curr_device.in == io_std_device.in) tt_ptr->ext_cap |= TT_NOINSERT; /* $PRINCIPAL only */ break; case iop_length: GET_LONG(length, pp->str.addr + p_offset); if (0 > length) rts_error(VARLSTCNT(1) ERR_DEVPARMNEG); d_out->length = length; break; case iop_pasthru: mask_in |= TRM_PASTHRU; break; case iop_nopasthru: mask_in &= (~TRM_PASTHRU); break; case iop_readsync: mask_in |= TRM_READSYNC; break; case iop_noreadsync: dc1 = (char)17; temp_ptr = (d_tt_struct *)io_std_device.in->dev_sp; DOWRITERC(temp_ptr->fildes, &dc1, 1, status); if (0 != status) rts_error(VARLSTCNT(1) status); mask_in &= (~TRM_READSYNC); break; case iop_terminator: memcpy(&mask_term.mask[0], (pp->str.addr + p_offset), SIZEOF(io_termmask)); temp_ptr = (d_tt_struct *)d_in->dev_sp; if (mask_term.mask[0] == NUL && mask_term.mask[1] == NUL && mask_term.mask[2] == NUL && mask_term.mask[3] == NUL && mask_term.mask[4] == NUL && mask_term.mask[5] == NUL && mask_term.mask[6] == NUL && mask_term.mask[7] == NUL) { temp_ptr->default_mask_term = TRUE; if (CHSET_UTF8 == d_in->ichset) { mask_term.mask[0] = TERM_MSK_UTF8_0; mask_term.mask[4] = TERM_MSK_UTF8_4; } else mask_term.mask[0] = TERM_MSK; } else temp_ptr->default_mask_term = FALSE; break; case iop_noterminator: temp_ptr = (d_tt_struct *)d_in->dev_sp; temp_ptr->default_mask_term = FALSE; memset(&mask_term.mask[0], 0, SIZEOF(io_termmask)); break; case iop_ttsync: t.c_iflag |= IXON; break; case iop_nottsync: t.c_iflag &= ~IXON; break; case iop_typeahead: mask_in &= (~TRM_NOTYPEAHD); break; case iop_notypeahead: mask_in |= TRM_NOTYPEAHD; break; case iop_upscroll: d_out->dollar.y++; if (d_out->length) d_out->dollar.y %= d_out->length; gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc); break; case iop_width: GET_LONG(width, pp->str.addr + p_offset); if (0 > width) rts_error(VARLSTCNT(1) ERR_DEVPARMNEG); /* Do not allow a WIDTH of 1 if UTF mode (ICHSET or OCHSET is not M) */ if ((1 == width) && ((CHSET_M != d_in->ochset) || (CHSET_M != d_in->ichset))) rts_error(VARLSTCNT(1) ERR_WIDTHTOOSMALL); if (0 == width) { d_out->wrap = FALSE; d_out->width = TTDEF_PG_WIDTH; } else { d_out->width = width; d_out->wrap = TRUE; } break; case iop_wrap: d_out->wrap = TRUE; break; case iop_nowrap: d_out->wrap = FALSE; break; case iop_x: GET_LONG(d_out->dollar.x, pp->str.addr + p_offset); if (0 > (int4)d_out->dollar.x) d_out->dollar.x = 0; if (d_out->dollar.x > d_out->width && d_out->wrap) { d_out->dollar.y += (d_out->dollar.x / d_out->width); if (d_out->length) d_out->dollar.y %= d_out->length; d_out->dollar.x %= d_out->width; } gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc); break; case iop_y: GET_LONG(d_out->dollar.y, pp->str.addr + p_offset); if (0 > (int4)d_out->dollar.y) d_out->dollar.y = 0; if (d_out->length) d_out->dollar.y %= d_out->length; gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc); break; case iop_ipchset: { #ifdef KEEP_zOS_EBCDIC if ( (iconv_t)0 != iod->input_conv_cd ) { ICONV_CLOSE_CD(iod->input_conv_cd); } SET_CODE_SET(iod->in_code_set, (char *)(pp->str.addr + p_offset + 1)); if (DEFAULT_CODE_SET != iod->in_code_set) ICONV_OPEN_CD(iod->input_conv_cd, (char *)(pp->str.addr + p_offset + 1), INSIDE_CH_SET); #endif break; } case iop_opchset: { #ifdef KEEP_zOS_EBCDIC if ( (iconv_t)0 != iod->output_conv_cd) { ICONV_CLOSE_CD(iod->output_conv_cd); } SET_CODE_SET(iod->out_code_set, (char *)(pp->str.addr + p_offset + 1)); if (DEFAULT_CODE_SET != iod->out_code_set) ICONV_OPEN_CD(iod->output_conv_cd, INSIDE_CH_SET, (char *)(pp->str.addr + p_offset + 1)); #endif break; } } p_offset += ((IOP_VAR_SIZE == io_params_size[ch]) ? (unsigned char)*(pp->str.addr + p_offset) + 1 : io_params_size[ch]); } temp_ptr = (d_tt_struct *)d_in->dev_sp; Tcsetattr(tt_ptr->fildes, TCSANOW, &t, status); if (0 != status) rts_error(VARLSTCNT(3) ERR_TCSETATTR, tt_ptr->fildes, errno); temp_ptr->term_ctrl = mask_in; memcpy(&temp_ptr->mask_term, &mask_term, SIZEOF(io_termmask)); if (flush_input) { TCFLUSH(tt_ptr->fildes, TCIFLUSH, status); if (0 != status) rts_error(VARLSTCNT(8) ERR_SYSCALL, 5, LIT_AND_LEN("tcflush input"), CALLFROM, errno); } } else if (tt_ptr->mupintr && !dollar_zininterrupt) { /* The interrupted read was not properly resumed so clear it now */ tt_ptr->mupintr = FALSE; tt_ptr->tt_state_save.who_saved = ttwhichinvalid; io_find_mvstent(iod, TRUE); /* clear mv stack entry */ } return; }