1c5595f9dSGerard Roudier /* 2c5595f9dSGerard Roudier * Device driver optimized for the Symbios/LSI 53C896/53C895A/53C1010 3c5595f9dSGerard Roudier * PCI-SCSI controllers. 4c5595f9dSGerard Roudier * 5c5595f9dSGerard Roudier * Copyright (C) 1999-2000 Gerard Roudier <groudier@club-internet.fr> 6c5595f9dSGerard Roudier * 7c5595f9dSGerard Roudier * This driver also supports the following Symbios/LSI PCI-SCSI chips: 8c5595f9dSGerard Roudier * 53C810A, 53C825A, 53C860, 53C875, 53C876, 53C885, 53C895, 9c5595f9dSGerard Roudier * 53C810, 53C815, 53C825 and the 53C1510D is 53C8XX mode. 10c5595f9dSGerard Roudier * 11c5595f9dSGerard Roudier * 12c5595f9dSGerard Roudier * This driver for FreeBSD-CAM is derived from the Linux sym53c8xx driver. 13c5595f9dSGerard Roudier * Copyright (C) 1998-1999 Gerard Roudier 14c5595f9dSGerard Roudier * 15c5595f9dSGerard Roudier * The sym53c8xx driver is derived from the ncr53c8xx driver that had been 16c5595f9dSGerard Roudier * a port of the FreeBSD ncr driver to Linux-1.2.13. 17c5595f9dSGerard Roudier * 18c5595f9dSGerard Roudier * The original ncr driver has been written for 386bsd and FreeBSD by 19c5595f9dSGerard Roudier * Wolfgang Stanglmeier <wolf@cologne.de> 20c5595f9dSGerard Roudier * Stefan Esser <se@mi.Uni-Koeln.de> 21c5595f9dSGerard Roudier * Copyright (C) 1994 Wolfgang Stanglmeier 22c5595f9dSGerard Roudier * 23c5595f9dSGerard Roudier * The initialisation code, and part of the code that addresses 24c5595f9dSGerard Roudier * FreeBSD-CAM services is based on the aic7xxx driver for FreeBSD-CAM 25c5595f9dSGerard Roudier * written by Justin T. Gibbs. 26c5595f9dSGerard Roudier * 27c5595f9dSGerard Roudier * Other major contributions: 28c5595f9dSGerard Roudier * 29c5595f9dSGerard Roudier * NVRAM detection and reading. 30c5595f9dSGerard Roudier * Copyright (C) 1997 Richard Waltham <dormouse@farsrobt.demon.co.uk> 31c5595f9dSGerard Roudier * 32c5595f9dSGerard Roudier *----------------------------------------------------------------------------- 33c5595f9dSGerard Roudier * 34c5595f9dSGerard Roudier * Redistribution and use in source and binary forms, with or without 35c5595f9dSGerard Roudier * modification, are permitted provided that the following conditions 36c5595f9dSGerard Roudier * are met: 37c5595f9dSGerard Roudier * 1. Redistributions of source code must retain the above copyright 38c5595f9dSGerard Roudier * notice, this list of conditions and the following disclaimer. 39c5595f9dSGerard Roudier * 2. Redistributions in binary form must reproduce the above copyright 40c5595f9dSGerard Roudier * notice, this list of conditions and the following disclaimer in the 41c5595f9dSGerard Roudier * documentation and/or other materials provided with the distribution. 42c5595f9dSGerard Roudier * 3. The name of the author may not be used to endorse or promote products 43c5595f9dSGerard Roudier * derived from this software without specific prior written permission. 44c5595f9dSGerard Roudier * 45c5595f9dSGerard Roudier * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND 46c5595f9dSGerard Roudier * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 47c5595f9dSGerard Roudier * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 48c5595f9dSGerard Roudier * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR 49c5595f9dSGerard Roudier * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 50c5595f9dSGerard Roudier * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 51c5595f9dSGerard Roudier * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 52c5595f9dSGerard Roudier * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 53c5595f9dSGerard Roudier * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 54c5595f9dSGerard Roudier * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 55c5595f9dSGerard Roudier * SUCH DAMAGE. 56c5595f9dSGerard Roudier */ 57c5595f9dSGerard Roudier 58c5595f9dSGerard Roudier /* $FreeBSD$ */ 59c5595f9dSGerard Roudier 60c5595f9dSGerard Roudier /* 61c5595f9dSGerard Roudier * Scripts for SYMBIOS-Processor 62c5595f9dSGerard Roudier * 63c5595f9dSGerard Roudier * We have to know the offsets of all labels before we reach 64c5595f9dSGerard Roudier * them (for forward jumps). Therefore we declare a struct 65c5595f9dSGerard Roudier * here. If you make changes inside the script, 66c5595f9dSGerard Roudier * 67c5595f9dSGerard Roudier * DONT FORGET TO CHANGE THE LENGTHS HERE! 68c5595f9dSGerard Roudier */ 69c5595f9dSGerard Roudier 70c5595f9dSGerard Roudier /* 71c5595f9dSGerard Roudier * Script fragments which are loaded into the on-chip RAM 72c5595f9dSGerard Roudier * of 825A, 875, 876, 895, 895A, 896 and 1010 chips. 73c5595f9dSGerard Roudier * Must not exceed 4K bytes. 74c5595f9dSGerard Roudier */ 75c5595f9dSGerard Roudier struct SYM_FWA_SCR { 76c5595f9dSGerard Roudier u32 start [ 14]; 77c5595f9dSGerard Roudier u32 getjob_begin [ 4]; 78c5595f9dSGerard Roudier u32 getjob_end [ 4]; 79c5595f9dSGerard Roudier u32 select [ 8]; 80c5595f9dSGerard Roudier u32 wf_sel_done [ 2]; 814fafb9d6SGerard Roudier u32 sel_done [ 2]; 82c5595f9dSGerard Roudier u32 send_ident [ 2]; 83c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 84c5595f9dSGerard Roudier u32 select2 [ 8]; 85c5595f9dSGerard Roudier #else 86c5595f9dSGerard Roudier u32 select2 [ 2]; 87c5595f9dSGerard Roudier #endif 88c5595f9dSGerard Roudier u32 command [ 2]; 89c5595f9dSGerard Roudier u32 dispatch [ 28]; 90c5595f9dSGerard Roudier u32 sel_no_cmd [ 10]; 91c5595f9dSGerard Roudier u32 init [ 6]; 92c5595f9dSGerard Roudier u32 clrack [ 4]; 93c5595f9dSGerard Roudier u32 disp_status [ 4]; 94c5595f9dSGerard Roudier u32 datai_done [ 26]; 95c5595f9dSGerard Roudier u32 datao_done [ 12]; 96c5595f9dSGerard Roudier u32 datai_phase [ 2]; 974fafb9d6SGerard Roudier u32 datao_phase [ 4]; 98c5595f9dSGerard Roudier u32 msg_in [ 2]; 99c5595f9dSGerard Roudier u32 msg_in2 [ 10]; 100c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 101c5595f9dSGerard Roudier u32 status [ 14]; 102c5595f9dSGerard Roudier #else 103c5595f9dSGerard Roudier u32 status [ 10]; 104c5595f9dSGerard Roudier #endif 105c5595f9dSGerard Roudier u32 complete [ 8]; 106c5595f9dSGerard Roudier u32 complete2 [ 12]; 107c5595f9dSGerard Roudier u32 complete_error [ 4]; 108c5595f9dSGerard Roudier u32 done [ 14]; 109c5595f9dSGerard Roudier u32 done_end [ 2]; 110c5595f9dSGerard Roudier u32 save_dp [ 8]; 111c5595f9dSGerard Roudier u32 restore_dp [ 4]; 112c5595f9dSGerard Roudier u32 disconnect [ 20]; 113c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 114c5595f9dSGerard Roudier u32 idle [ 4]; 115c5595f9dSGerard Roudier #else 116c5595f9dSGerard Roudier u32 idle [ 2]; 117c5595f9dSGerard Roudier #endif 118c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 119c5595f9dSGerard Roudier u32 ungetjob [ 6]; 120c5595f9dSGerard Roudier #else 121c5595f9dSGerard Roudier u32 ungetjob [ 4]; 122c5595f9dSGerard Roudier #endif 123c5595f9dSGerard Roudier u32 reselect [ 4]; 124c5595f9dSGerard Roudier u32 reselected [ 22]; 125c5595f9dSGerard Roudier u32 resel_scntl4 [ 20]; 126c5595f9dSGerard Roudier u32 resel_lun0 [ 6]; 127c5595f9dSGerard Roudier #if SYM_CONF_MAX_TASK*4 > 512 128c5595f9dSGerard Roudier u32 resel_tag [ 26]; 129c5595f9dSGerard Roudier #elif SYM_CONF_MAX_TASK*4 > 256 130c5595f9dSGerard Roudier u32 resel_tag [ 20]; 131c5595f9dSGerard Roudier #else 132c5595f9dSGerard Roudier u32 resel_tag [ 16]; 133c5595f9dSGerard Roudier #endif 134c5595f9dSGerard Roudier u32 resel_dsa [ 2]; 135c5595f9dSGerard Roudier u32 resel_dsa1 [ 6]; 136c5595f9dSGerard Roudier u32 resel_no_tag [ 6]; 137c5595f9dSGerard Roudier u32 data_in [SYM_CONF_MAX_SG * 2]; 138c5595f9dSGerard Roudier u32 data_in2 [ 4]; 139c5595f9dSGerard Roudier u32 data_out [SYM_CONF_MAX_SG * 2]; 140c5595f9dSGerard Roudier u32 data_out2 [ 4]; 141c5595f9dSGerard Roudier u32 pm0_data [ 12]; 142c5595f9dSGerard Roudier u32 pm0_data_out [ 6]; 143c5595f9dSGerard Roudier u32 pm0_data_end [ 6]; 144c5595f9dSGerard Roudier u32 pm1_data [ 12]; 145c5595f9dSGerard Roudier u32 pm1_data_out [ 6]; 146c5595f9dSGerard Roudier u32 pm1_data_end [ 6]; 147c5595f9dSGerard Roudier }; 148c5595f9dSGerard Roudier 149c5595f9dSGerard Roudier /* 150c5595f9dSGerard Roudier * Script fragments which stay in main memory for all chips 151c5595f9dSGerard Roudier * except for chips that support 8K on-chip RAM. 152c5595f9dSGerard Roudier */ 153c5595f9dSGerard Roudier struct SYM_FWB_SCR { 154c5595f9dSGerard Roudier u32 start64 [ 2]; 155c5595f9dSGerard Roudier u32 no_data [ 2]; 156c5595f9dSGerard Roudier u32 sel_for_abort [ 18]; 157c5595f9dSGerard Roudier u32 sel_for_abort_1 [ 2]; 158c5595f9dSGerard Roudier u32 msg_in_etc [ 12]; 159c5595f9dSGerard Roudier u32 msg_received [ 4]; 160c5595f9dSGerard Roudier u32 msg_weird_seen [ 4]; 161c5595f9dSGerard Roudier u32 msg_extended [ 20]; 162c5595f9dSGerard Roudier u32 msg_bad [ 6]; 163c5595f9dSGerard Roudier u32 msg_weird [ 4]; 164c5595f9dSGerard Roudier u32 msg_weird1 [ 8]; 165c5595f9dSGerard Roudier 166c5595f9dSGerard Roudier u32 wdtr_resp [ 6]; 167c5595f9dSGerard Roudier u32 send_wdtr [ 4]; 168c5595f9dSGerard Roudier u32 sdtr_resp [ 6]; 169c5595f9dSGerard Roudier u32 send_sdtr [ 4]; 170c5595f9dSGerard Roudier u32 ppr_resp [ 6]; 171c5595f9dSGerard Roudier u32 send_ppr [ 4]; 172c5595f9dSGerard Roudier u32 nego_bad_phase [ 4]; 173c5595f9dSGerard Roudier u32 msg_out [ 4]; 174c5595f9dSGerard Roudier u32 msg_out_done [ 4]; 175c5595f9dSGerard Roudier u32 data_ovrun [ 2]; 176c5595f9dSGerard Roudier u32 data_ovrun1 [ 22]; 177c5595f9dSGerard Roudier u32 data_ovrun2 [ 8]; 178c5595f9dSGerard Roudier u32 abort_resel [ 16]; 179c5595f9dSGerard Roudier u32 resend_ident [ 4]; 180c5595f9dSGerard Roudier u32 ident_break [ 4]; 181c5595f9dSGerard Roudier u32 ident_break_atn [ 4]; 182c5595f9dSGerard Roudier u32 sdata_in [ 6]; 183c5595f9dSGerard Roudier u32 resel_bad_lun [ 4]; 184c5595f9dSGerard Roudier u32 bad_i_t_l [ 4]; 185c5595f9dSGerard Roudier u32 bad_i_t_l_q [ 4]; 186c5595f9dSGerard Roudier u32 bad_status [ 6]; 187c5595f9dSGerard Roudier u32 pm_handle [ 20]; 188c5595f9dSGerard Roudier u32 pm_handle1 [ 4]; 189c5595f9dSGerard Roudier u32 pm_save [ 4]; 190c5595f9dSGerard Roudier u32 pm0_save [ 14]; 191c5595f9dSGerard Roudier u32 pm1_save [ 14]; 192c5595f9dSGerard Roudier 193c5595f9dSGerard Roudier /* WSR handling */ 194c5595f9dSGerard Roudier u32 pm_wsr_handle [ 42]; 195c5595f9dSGerard Roudier u32 wsr_ma_helper [ 4]; 196c5595f9dSGerard Roudier 197c5595f9dSGerard Roudier /* Data area */ 198c5595f9dSGerard Roudier u32 zero [ 1]; 199c5595f9dSGerard Roudier u32 scratch [ 1]; 200c5595f9dSGerard Roudier u32 pm0_data_addr [ 1]; 201c5595f9dSGerard Roudier u32 pm1_data_addr [ 1]; 202c5595f9dSGerard Roudier u32 saved_dsa [ 1]; 203c5595f9dSGerard Roudier u32 saved_drs [ 1]; 204c5595f9dSGerard Roudier u32 done_pos [ 1]; 205c5595f9dSGerard Roudier u32 startpos [ 1]; 206c5595f9dSGerard Roudier u32 targtbl [ 1]; 207c5595f9dSGerard Roudier /* End of data area */ 208c5595f9dSGerard Roudier 209c5595f9dSGerard Roudier u32 snooptest [ 6]; 210c5595f9dSGerard Roudier u32 snoopend [ 2]; 211c5595f9dSGerard Roudier }; 212c5595f9dSGerard Roudier 213c5595f9dSGerard Roudier static struct SYM_FWA_SCR SYM_FWA_SCR = { 214c5595f9dSGerard Roudier /*--------------------------< START >----------------------------*/ { 215c5595f9dSGerard Roudier /* 216c5595f9dSGerard Roudier * Switch the LED on. 217c5595f9dSGerard Roudier * Will be patched with a NO_OP if LED 218c5595f9dSGerard Roudier * not needed or not desired. 219c5595f9dSGerard Roudier */ 220c5595f9dSGerard Roudier SCR_REG_REG (gpreg, SCR_AND, 0xfe), 221c5595f9dSGerard Roudier 0, 222c5595f9dSGerard Roudier /* 223c5595f9dSGerard Roudier * Clear SIGP. 224c5595f9dSGerard Roudier */ 225c5595f9dSGerard Roudier SCR_FROM_REG (ctest2), 226c5595f9dSGerard Roudier 0, 227c5595f9dSGerard Roudier /* 228c5595f9dSGerard Roudier * Stop here if the C code wants to perform 229c5595f9dSGerard Roudier * some error recovery procedure manually. 230c5595f9dSGerard Roudier * (Indicate this by setting SEM in ISTAT) 231c5595f9dSGerard Roudier */ 232c5595f9dSGerard Roudier SCR_FROM_REG (istat), 233c5595f9dSGerard Roudier 0, 234c5595f9dSGerard Roudier /* 235c5595f9dSGerard Roudier * Report to the C code the next position in 236c5595f9dSGerard Roudier * the start queue the SCRIPTS will schedule. 237c5595f9dSGerard Roudier * The C code must not change SCRATCHA. 238c5595f9dSGerard Roudier */ 239c5595f9dSGerard Roudier SCR_LOAD_ABS (scratcha, 4), 240c5595f9dSGerard Roudier PADDR_B (startpos), 241c5595f9dSGerard Roudier SCR_INT ^ IFTRUE (MASK (SEM, SEM)), 242c5595f9dSGerard Roudier SIR_SCRIPT_STOPPED, 243c5595f9dSGerard Roudier /* 244c5595f9dSGerard Roudier * Start the next job. 245c5595f9dSGerard Roudier * 246c5595f9dSGerard Roudier * @DSA = start point for this job. 247c5595f9dSGerard Roudier * SCRATCHA = address of this job in the start queue. 248c5595f9dSGerard Roudier * 249c5595f9dSGerard Roudier * We will restore startpos with SCRATCHA if we fails the 250c5595f9dSGerard Roudier * arbitration or if it is the idle job. 251c5595f9dSGerard Roudier * 252c5595f9dSGerard Roudier * The below GETJOB_BEGIN to GETJOB_END section of SCRIPTS 253c5595f9dSGerard Roudier * is a critical path. If it is partially executed, it then 254c5595f9dSGerard Roudier * may happen that the job address is not yet in the DSA 255c5595f9dSGerard Roudier * and the the next queue position points to the next JOB. 256c5595f9dSGerard Roudier */ 257c5595f9dSGerard Roudier SCR_LOAD_ABS (dsa, 4), 258c5595f9dSGerard Roudier PADDR_B (startpos), 259c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 260c5595f9dSGerard Roudier 4, 261c5595f9dSGerard Roudier }/*-------------------------< GETJOB_BEGIN >---------------------*/,{ 262c5595f9dSGerard Roudier SCR_STORE_ABS (temp, 4), 263c5595f9dSGerard Roudier PADDR_B (startpos), 264c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 265c5595f9dSGerard Roudier 0, 266c5595f9dSGerard Roudier }/*-------------------------< GETJOB_END >-----------------------*/,{ 267c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 268c5595f9dSGerard Roudier 0, 269c5595f9dSGerard Roudier SCR_RETURN, 270c5595f9dSGerard Roudier 0, 271c5595f9dSGerard Roudier }/*-------------------------< SELECT >---------------------------*/,{ 272c5595f9dSGerard Roudier /* 273c5595f9dSGerard Roudier * DSA contains the address of a scheduled 274c5595f9dSGerard Roudier * data structure. 275c5595f9dSGerard Roudier * 276c5595f9dSGerard Roudier * SCRATCHA contains the address of the start queue 277c5595f9dSGerard Roudier * entry which points to the next job. 278c5595f9dSGerard Roudier * 279c5595f9dSGerard Roudier * Set Initiator mode. 280c5595f9dSGerard Roudier * 281c5595f9dSGerard Roudier * (Target mode is left as an exercise for the reader) 282c5595f9dSGerard Roudier */ 283c5595f9dSGerard Roudier SCR_CLR (SCR_TRG), 284c5595f9dSGerard Roudier 0, 285c5595f9dSGerard Roudier /* 286c5595f9dSGerard Roudier * And try to select this target. 287c5595f9dSGerard Roudier */ 288c5595f9dSGerard Roudier SCR_SEL_TBL_ATN ^ offsetof (struct sym_dsb, select), 289c5595f9dSGerard Roudier PADDR_A (ungetjob), 290c5595f9dSGerard Roudier /* 291c5595f9dSGerard Roudier * Now there are 4 possibilities: 292c5595f9dSGerard Roudier * 293c5595f9dSGerard Roudier * (1) The chip looses arbitration. 294c5595f9dSGerard Roudier * This is ok, because it will try again, 295c5595f9dSGerard Roudier * when the bus becomes idle. 296c5595f9dSGerard Roudier * (But beware of the timeout function!) 297c5595f9dSGerard Roudier * 298c5595f9dSGerard Roudier * (2) The chip is reselected. 299c5595f9dSGerard Roudier * Then the script processor takes the jump 300c5595f9dSGerard Roudier * to the RESELECT label. 301c5595f9dSGerard Roudier * 302c5595f9dSGerard Roudier * (3) The chip wins arbitration. 303c5595f9dSGerard Roudier * Then it will execute SCRIPTS instruction until 304c5595f9dSGerard Roudier * the next instruction that checks SCSI phase. 305c5595f9dSGerard Roudier * Then will stop and wait for selection to be 306c5595f9dSGerard Roudier * complete or selection time-out to occur. 307c5595f9dSGerard Roudier * 308c5595f9dSGerard Roudier * After having won arbitration, the SCRIPTS 309c5595f9dSGerard Roudier * processor is able to execute instructions while 310c5595f9dSGerard Roudier * the SCSI core is performing SCSI selection. 311c5595f9dSGerard Roudier */ 312c5595f9dSGerard Roudier /* 313c5595f9dSGerard Roudier * load the savep (saved data pointer) into 314c5595f9dSGerard Roudier * the actual data pointer. 315c5595f9dSGerard Roudier */ 316c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 317c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.savep), 318c5595f9dSGerard Roudier /* 319c5595f9dSGerard Roudier * Initialize the status registers 320c5595f9dSGerard Roudier */ 321c5595f9dSGerard Roudier SCR_LOAD_REL (scr0, 4), 322c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.status), 323c5595f9dSGerard Roudier }/*-------------------------< WF_SEL_DONE >----------------------*/,{ 324c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (WHEN (SCR_MSG_OUT)), 325c5595f9dSGerard Roudier SIR_SEL_ATN_NO_MSG_OUT, 3264fafb9d6SGerard Roudier }/*-------------------------< SEL_DONE >-------------------------*/,{ 3274fafb9d6SGerard Roudier /* 3284fafb9d6SGerard Roudier * C1010-33 errata work-around. 3294fafb9d6SGerard Roudier * Due to a race, the SCSI core may not have 3304fafb9d6SGerard Roudier * loaded SCNTL3 on SEL_TBL instruction. 3314fafb9d6SGerard Roudier * We reload it once phase is stable. 3324fafb9d6SGerard Roudier * Patched with a NOOP for other chips. 3334fafb9d6SGerard Roudier */ 3344fafb9d6SGerard Roudier SCR_LOAD_REL (scntl3, 1), 3354fafb9d6SGerard Roudier offsetof(struct sym_dsb, select.sel_scntl3), 336c5595f9dSGerard Roudier }/*-------------------------< SEND_IDENT >-----------------------*/,{ 337c5595f9dSGerard Roudier /* 338c5595f9dSGerard Roudier * Selection complete. 339c5595f9dSGerard Roudier * Send the IDENTIFY and possibly the TAG message 340c5595f9dSGerard Roudier * and negotiation message if present. 341c5595f9dSGerard Roudier */ 342c5595f9dSGerard Roudier SCR_MOVE_TBL ^ SCR_MSG_OUT, 343c5595f9dSGerard Roudier offsetof (struct sym_dsb, smsg), 344c5595f9dSGerard Roudier }/*-------------------------< SELECT2 >--------------------------*/,{ 345c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 346c5595f9dSGerard Roudier /* 347c5595f9dSGerard Roudier * Set IMMEDIATE ARBITRATION if we have been given 348c5595f9dSGerard Roudier * a hint to do so. (Some job to do after this one). 349c5595f9dSGerard Roudier */ 350c5595f9dSGerard Roudier SCR_FROM_REG (HF_REG), 351c5595f9dSGerard Roudier 0, 352c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (MASK (HF_HINT_IARB, HF_HINT_IARB)), 353c5595f9dSGerard Roudier 8, 354c5595f9dSGerard Roudier SCR_REG_REG (scntl1, SCR_OR, IARB), 355c5595f9dSGerard Roudier 0, 356c5595f9dSGerard Roudier #endif 357c5595f9dSGerard Roudier /* 358c5595f9dSGerard Roudier * Anticipate the COMMAND phase. 359c5595f9dSGerard Roudier * This is the PHASE we expect at this point. 360c5595f9dSGerard Roudier */ 361c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_COMMAND)), 362c5595f9dSGerard Roudier PADDR_A (sel_no_cmd), 363c5595f9dSGerard Roudier }/*-------------------------< COMMAND >--------------------------*/,{ 364c5595f9dSGerard Roudier /* 365c5595f9dSGerard Roudier * ... and send the command 366c5595f9dSGerard Roudier */ 367c5595f9dSGerard Roudier SCR_MOVE_TBL ^ SCR_COMMAND, 368c5595f9dSGerard Roudier offsetof (struct sym_dsb, cmd), 369c5595f9dSGerard Roudier }/*-------------------------< DISPATCH >-------------------------*/,{ 370c5595f9dSGerard Roudier /* 371c5595f9dSGerard Roudier * MSG_IN is the only phase that shall be 372c5595f9dSGerard Roudier * entered at least once for each (re)selection. 373c5595f9dSGerard Roudier * So we test it first. 374c5595f9dSGerard Roudier */ 375c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_MSG_IN)), 376c5595f9dSGerard Roudier PADDR_A (msg_in), 377c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (IF (SCR_DATA_OUT)), 378c5595f9dSGerard Roudier PADDR_A (datao_phase), 379c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (IF (SCR_DATA_IN)), 380c5595f9dSGerard Roudier PADDR_A (datai_phase), 381c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (IF (SCR_STATUS)), 382c5595f9dSGerard Roudier PADDR_A (status), 383c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (IF (SCR_COMMAND)), 384c5595f9dSGerard Roudier PADDR_A (command), 385c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (IF (SCR_MSG_OUT)), 386c5595f9dSGerard Roudier PADDR_B (msg_out), 387c5595f9dSGerard Roudier /* 388c5595f9dSGerard Roudier * Discard as many illegal phases as 389c5595f9dSGerard Roudier * required and tell the C code about. 390c5595f9dSGerard Roudier */ 391c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (WHEN (SCR_ILG_OUT)), 392c5595f9dSGerard Roudier 16, 393c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_ILG_OUT, 394c5595f9dSGerard Roudier HADDR_1 (scratch), 395c5595f9dSGerard Roudier SCR_JUMPR ^ IFTRUE (WHEN (SCR_ILG_OUT)), 396c5595f9dSGerard Roudier -16, 397c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (WHEN (SCR_ILG_IN)), 398c5595f9dSGerard Roudier 16, 399c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_ILG_IN, 400c5595f9dSGerard Roudier HADDR_1 (scratch), 401c5595f9dSGerard Roudier SCR_JUMPR ^ IFTRUE (WHEN (SCR_ILG_IN)), 402c5595f9dSGerard Roudier -16, 403c5595f9dSGerard Roudier SCR_INT, 404c5595f9dSGerard Roudier SIR_BAD_PHASE, 405c5595f9dSGerard Roudier SCR_JUMP, 406c5595f9dSGerard Roudier PADDR_A (dispatch), 407c5595f9dSGerard Roudier }/*-------------------------< SEL_NO_CMD >-----------------------*/,{ 408c5595f9dSGerard Roudier /* 409c5595f9dSGerard Roudier * The target does not switch to command 410c5595f9dSGerard Roudier * phase after IDENTIFY has been sent. 411c5595f9dSGerard Roudier * 412c5595f9dSGerard Roudier * If it stays in MSG OUT phase send it 413c5595f9dSGerard Roudier * the IDENTIFY again. 414c5595f9dSGerard Roudier */ 415c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_MSG_OUT)), 416c5595f9dSGerard Roudier PADDR_B (resend_ident), 417c5595f9dSGerard Roudier /* 418c5595f9dSGerard Roudier * If target does not switch to MSG IN phase 419c5595f9dSGerard Roudier * and we sent a negotiation, assert the 420c5595f9dSGerard Roudier * failure immediately. 421c5595f9dSGerard Roudier */ 422c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_MSG_IN)), 423c5595f9dSGerard Roudier PADDR_A (dispatch), 424c5595f9dSGerard Roudier SCR_FROM_REG (HS_REG), 425c5595f9dSGerard Roudier 0, 426c5595f9dSGerard Roudier SCR_INT ^ IFTRUE (DATA (HS_NEGOTIATE)), 427c5595f9dSGerard Roudier SIR_NEGO_FAILED, 428c5595f9dSGerard Roudier /* 429c5595f9dSGerard Roudier * Jump to dispatcher. 430c5595f9dSGerard Roudier */ 431c5595f9dSGerard Roudier SCR_JUMP, 432c5595f9dSGerard Roudier PADDR_A (dispatch), 433c5595f9dSGerard Roudier }/*-------------------------< INIT >-----------------------------*/,{ 434c5595f9dSGerard Roudier /* 435c5595f9dSGerard Roudier * Wait for the SCSI RESET signal to be 436c5595f9dSGerard Roudier * inactive before restarting operations, 437c5595f9dSGerard Roudier * since the chip may hang on SEL_ATN 438c5595f9dSGerard Roudier * if SCSI RESET is active. 439c5595f9dSGerard Roudier */ 440c5595f9dSGerard Roudier SCR_FROM_REG (sstat0), 441c5595f9dSGerard Roudier 0, 442c5595f9dSGerard Roudier SCR_JUMPR ^ IFTRUE (MASK (IRST, IRST)), 443c5595f9dSGerard Roudier -16, 444c5595f9dSGerard Roudier SCR_JUMP, 445c5595f9dSGerard Roudier PADDR_A (start), 446c5595f9dSGerard Roudier }/*-------------------------< CLRACK >---------------------------*/,{ 447c5595f9dSGerard Roudier /* 448c5595f9dSGerard Roudier * Terminate possible pending message phase. 449c5595f9dSGerard Roudier */ 450c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 451c5595f9dSGerard Roudier 0, 452c5595f9dSGerard Roudier SCR_JUMP, 453c5595f9dSGerard Roudier PADDR_A (dispatch), 454c5595f9dSGerard Roudier }/*-------------------------< DISP_STATUS >----------------------*/,{ 455c5595f9dSGerard Roudier /* 456c5595f9dSGerard Roudier * Anticipate STATUS phase. 457c5595f9dSGerard Roudier * 458c5595f9dSGerard Roudier * Does spare 3 SCRIPTS instructions when we have 459c5595f9dSGerard Roudier * completed the INPUT of the data. 460c5595f9dSGerard Roudier */ 461c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_STATUS)), 462c5595f9dSGerard Roudier PADDR_A (status), 463c5595f9dSGerard Roudier SCR_JUMP, 464c5595f9dSGerard Roudier PADDR_A (dispatch), 465c5595f9dSGerard Roudier }/*-------------------------< DATAI_DONE >-----------------------*/,{ 466c5595f9dSGerard Roudier /* 467c5595f9dSGerard Roudier * If the device still wants to send us data, 468c5595f9dSGerard Roudier * we must count the extra bytes. 469c5595f9dSGerard Roudier */ 470c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_DATA_IN)), 471c5595f9dSGerard Roudier PADDR_B (data_ovrun), 472c5595f9dSGerard Roudier /* 473c5595f9dSGerard Roudier * If the SWIDE is not full, jump to dispatcher. 474c5595f9dSGerard Roudier * We anticipate a STATUS phase. 475c5595f9dSGerard Roudier */ 476c5595f9dSGerard Roudier SCR_FROM_REG (scntl2), 477c5595f9dSGerard Roudier 0, 478c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (MASK (WSR, WSR)), 479c5595f9dSGerard Roudier PADDR_A (disp_status), 480c5595f9dSGerard Roudier /* 481c5595f9dSGerard Roudier * The SWIDE is full. 482c5595f9dSGerard Roudier * Clear this condition. 483c5595f9dSGerard Roudier */ 484c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_OR, WSR), 485c5595f9dSGerard Roudier 0, 486c5595f9dSGerard Roudier /* 487c5595f9dSGerard Roudier * We are expecting an IGNORE RESIDUE message 488c5595f9dSGerard Roudier * from the device, otherwise we are in data 489c5595f9dSGerard Roudier * overrun condition. Check against MSG_IN phase. 490c5595f9dSGerard Roudier */ 491c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (WHEN (SCR_MSG_IN)), 492c5595f9dSGerard Roudier SIR_SWIDE_OVERRUN, 493c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)), 494c5595f9dSGerard Roudier PADDR_A (disp_status), 495c5595f9dSGerard Roudier /* 496c5595f9dSGerard Roudier * We are in MSG_IN phase, 497c5595f9dSGerard Roudier * Read the first byte of the message. 498c5595f9dSGerard Roudier * If it is not an IGNORE RESIDUE message, 499c5595f9dSGerard Roudier * signal overrun and jump to message 500c5595f9dSGerard Roudier * processing. 501c5595f9dSGerard Roudier */ 502c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 503c5595f9dSGerard Roudier HADDR_1 (msgin[0]), 504c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (DATA (M_IGN_RESIDUE)), 505c5595f9dSGerard Roudier SIR_SWIDE_OVERRUN, 506c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (DATA (M_IGN_RESIDUE)), 507c5595f9dSGerard Roudier PADDR_A (msg_in2), 508c5595f9dSGerard Roudier /* 509c5595f9dSGerard Roudier * We got the message we expected. 510c5595f9dSGerard Roudier * Read the 2nd byte, and jump to dispatcher. 511c5595f9dSGerard Roudier */ 512c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 513c5595f9dSGerard Roudier 0, 514c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 515c5595f9dSGerard Roudier HADDR_1 (msgin[1]), 516c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 517c5595f9dSGerard Roudier 0, 518c5595f9dSGerard Roudier SCR_JUMP, 519c5595f9dSGerard Roudier PADDR_A (disp_status), 520c5595f9dSGerard Roudier }/*-------------------------< DATAO_DONE >-----------------------*/,{ 521c5595f9dSGerard Roudier /* 522c5595f9dSGerard Roudier * If the device wants us to send more data, 523c5595f9dSGerard Roudier * we must count the extra bytes. 524c5595f9dSGerard Roudier */ 525c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_DATA_OUT)), 526c5595f9dSGerard Roudier PADDR_B (data_ovrun), 527c5595f9dSGerard Roudier /* 528c5595f9dSGerard Roudier * If the SODL is not full jump to dispatcher. 529c5595f9dSGerard Roudier * We anticipate a STATUS phase. 530c5595f9dSGerard Roudier */ 531c5595f9dSGerard Roudier SCR_FROM_REG (scntl2), 532c5595f9dSGerard Roudier 0, 533c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (MASK (WSS, WSS)), 534c5595f9dSGerard Roudier PADDR_A (disp_status), 535c5595f9dSGerard Roudier /* 536c5595f9dSGerard Roudier * The SODL is full, clear this condition. 537c5595f9dSGerard Roudier */ 538c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_OR, WSS), 539c5595f9dSGerard Roudier 0, 540c5595f9dSGerard Roudier /* 541c5595f9dSGerard Roudier * And signal a DATA UNDERRUN condition 542c5595f9dSGerard Roudier * to the C code. 543c5595f9dSGerard Roudier */ 544c5595f9dSGerard Roudier SCR_INT, 545c5595f9dSGerard Roudier SIR_SODL_UNDERRUN, 546c5595f9dSGerard Roudier SCR_JUMP, 547c5595f9dSGerard Roudier PADDR_A (dispatch), 548c5595f9dSGerard Roudier }/*-------------------------< DATAI_PHASE >----------------------*/,{ 549c5595f9dSGerard Roudier SCR_RETURN, 550c5595f9dSGerard Roudier 0, 551c5595f9dSGerard Roudier }/*-------------------------< DATAO_PHASE >----------------------*/,{ 5524fafb9d6SGerard Roudier /* 5534fafb9d6SGerard Roudier * C1010-66 errata work-around. 55494d057fdSGerard Roudier * Extra clocks of data hold must be inserted 55594d057fdSGerard Roudier * in DATA OUT phase on 33 MHz PCI BUS. 5564fafb9d6SGerard Roudier * Patched with a NOOP for other chips. 5574fafb9d6SGerard Roudier */ 55894d057fdSGerard Roudier SCR_REG_REG (scntl4, SCR_OR, (XCLKH_DT|XCLKH_ST)), 55994d057fdSGerard Roudier 0, 560c5595f9dSGerard Roudier SCR_RETURN, 561c5595f9dSGerard Roudier 0, 562c5595f9dSGerard Roudier }/*-------------------------< MSG_IN >---------------------------*/,{ 563c5595f9dSGerard Roudier /* 564c5595f9dSGerard Roudier * Get the first byte of the message. 565c5595f9dSGerard Roudier * 566c5595f9dSGerard Roudier * The script processor doesn't negate the 567c5595f9dSGerard Roudier * ACK signal after this transfer. 568c5595f9dSGerard Roudier */ 569c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 570c5595f9dSGerard Roudier HADDR_1 (msgin[0]), 571c5595f9dSGerard Roudier }/*-------------------------< MSG_IN2 >--------------------------*/,{ 572c5595f9dSGerard Roudier /* 573c5595f9dSGerard Roudier * Check first against 1 byte messages 574c5595f9dSGerard Roudier * that we handle from SCRIPTS. 575c5595f9dSGerard Roudier */ 576c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (DATA (M_COMPLETE)), 577c5595f9dSGerard Roudier PADDR_A (complete), 578c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (DATA (M_DISCONNECT)), 579c5595f9dSGerard Roudier PADDR_A (disconnect), 580c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (DATA (M_SAVE_DP)), 581c5595f9dSGerard Roudier PADDR_A (save_dp), 582c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (DATA (M_RESTORE_DP)), 583c5595f9dSGerard Roudier PADDR_A (restore_dp), 584c5595f9dSGerard Roudier /* 585c5595f9dSGerard Roudier * We handle all other messages from the 586c5595f9dSGerard Roudier * C code, so no need to waste on-chip RAM 587c5595f9dSGerard Roudier * for those ones. 588c5595f9dSGerard Roudier */ 589c5595f9dSGerard Roudier SCR_JUMP, 590c5595f9dSGerard Roudier PADDR_B (msg_in_etc), 591c5595f9dSGerard Roudier }/*-------------------------< STATUS >---------------------------*/,{ 592c5595f9dSGerard Roudier /* 593c5595f9dSGerard Roudier * get the status 594c5595f9dSGerard Roudier */ 595c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_STATUS, 596c5595f9dSGerard Roudier HADDR_1 (scratch), 597c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 598c5595f9dSGerard Roudier /* 599c5595f9dSGerard Roudier * If STATUS is not GOOD, clear IMMEDIATE ARBITRATION, 600c5595f9dSGerard Roudier * since we may have to tamper the start queue from 601c5595f9dSGerard Roudier * the C code. 602c5595f9dSGerard Roudier */ 603c5595f9dSGerard Roudier SCR_JUMPR ^ IFTRUE (DATA (S_GOOD)), 604c5595f9dSGerard Roudier 8, 605c5595f9dSGerard Roudier SCR_REG_REG (scntl1, SCR_AND, ~IARB), 606c5595f9dSGerard Roudier 0, 607c5595f9dSGerard Roudier #endif 608c5595f9dSGerard Roudier /* 609c5595f9dSGerard Roudier * save status to scsi_status. 610c5595f9dSGerard Roudier * mark as complete. 611c5595f9dSGerard Roudier */ 612c5595f9dSGerard Roudier SCR_TO_REG (SS_REG), 613c5595f9dSGerard Roudier 0, 614c5595f9dSGerard Roudier SCR_LOAD_REG (HS_REG, HS_COMPLETE), 615c5595f9dSGerard Roudier 0, 616c5595f9dSGerard Roudier /* 617c5595f9dSGerard Roudier * Anticipate the MESSAGE PHASE for 618c5595f9dSGerard Roudier * the TASK COMPLETE message. 619c5595f9dSGerard Roudier */ 620c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_MSG_IN)), 621c5595f9dSGerard Roudier PADDR_A (msg_in), 622c5595f9dSGerard Roudier SCR_JUMP, 623c5595f9dSGerard Roudier PADDR_A (dispatch), 624c5595f9dSGerard Roudier }/*-------------------------< COMPLETE >-------------------------*/,{ 625c5595f9dSGerard Roudier /* 626c5595f9dSGerard Roudier * Complete message. 627c5595f9dSGerard Roudier * 628c5595f9dSGerard Roudier * Copy the data pointer to LASTP. 629c5595f9dSGerard Roudier */ 630c5595f9dSGerard Roudier SCR_STORE_REL (temp, 4), 631c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.lastp), 632c5595f9dSGerard Roudier /* 633c5595f9dSGerard Roudier * When we terminate the cycle by clearing ACK, 634c5595f9dSGerard Roudier * the target may disconnect immediately. 635c5595f9dSGerard Roudier * 636c5595f9dSGerard Roudier * We don't want to be told of an "unexpected disconnect", 637c5595f9dSGerard Roudier * so we disable this feature. 638c5595f9dSGerard Roudier */ 639c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_AND, 0x7f), 640c5595f9dSGerard Roudier 0, 641c5595f9dSGerard Roudier /* 642c5595f9dSGerard Roudier * Terminate cycle ... 643c5595f9dSGerard Roudier */ 644c5595f9dSGerard Roudier SCR_CLR (SCR_ACK|SCR_ATN), 645c5595f9dSGerard Roudier 0, 646c5595f9dSGerard Roudier /* 647c5595f9dSGerard Roudier * ... and wait for the disconnect. 648c5595f9dSGerard Roudier */ 649c5595f9dSGerard Roudier SCR_WAIT_DISC, 650c5595f9dSGerard Roudier 0, 651c5595f9dSGerard Roudier }/*-------------------------< COMPLETE2 >------------------------*/,{ 652c5595f9dSGerard Roudier /* 653c5595f9dSGerard Roudier * Save host status. 654c5595f9dSGerard Roudier */ 655c5595f9dSGerard Roudier SCR_STORE_REL (scr0, 4), 656c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.status), 657c5595f9dSGerard Roudier /* 658c5595f9dSGerard Roudier * Some bridges may reorder DMA writes to memory. 659c5595f9dSGerard Roudier * We donnot want the CPU to deal with completions 660c5595f9dSGerard Roudier * without all the posted write having been flushed 661c5595f9dSGerard Roudier * to memory. This DUMMY READ should flush posted 662c5595f9dSGerard Roudier * buffers prior to the CPU having to deal with 663c5595f9dSGerard Roudier * completions. 664c5595f9dSGerard Roudier */ 665c5595f9dSGerard Roudier SCR_LOAD_REL (scr0, 4), /* DUMMY READ */ 666c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.status), 667c5595f9dSGerard Roudier 668c5595f9dSGerard Roudier /* 669c5595f9dSGerard Roudier * If command resulted in not GOOD status, 670c5595f9dSGerard Roudier * call the C code if needed. 671c5595f9dSGerard Roudier */ 672c5595f9dSGerard Roudier SCR_FROM_REG (SS_REG), 673c5595f9dSGerard Roudier 0, 674c5595f9dSGerard Roudier SCR_CALL ^ IFFALSE (DATA (S_GOOD)), 675c5595f9dSGerard Roudier PADDR_B (bad_status), 676c5595f9dSGerard Roudier /* 677c5595f9dSGerard Roudier * If we performed an auto-sense, call 678c5595f9dSGerard Roudier * the C code to synchronyze task aborts 679c5595f9dSGerard Roudier * with UNIT ATTENTION conditions. 680c5595f9dSGerard Roudier */ 681c5595f9dSGerard Roudier SCR_FROM_REG (HF_REG), 682c5595f9dSGerard Roudier 0, 683c5595f9dSGerard Roudier SCR_JUMPR ^ IFTRUE (MASK (0 ,(HF_SENSE|HF_EXT_ERR))), 684c5595f9dSGerard Roudier 16, 685c5595f9dSGerard Roudier }/*-------------------------< COMPLETE_ERROR >-------------------*/,{ 686c5595f9dSGerard Roudier SCR_LOAD_ABS (scratcha, 4), 687c5595f9dSGerard Roudier PADDR_B (startpos), 688c5595f9dSGerard Roudier SCR_INT, 689c5595f9dSGerard Roudier SIR_COMPLETE_ERROR, 690c5595f9dSGerard Roudier }/*-------------------------< DONE >-----------------------------*/,{ 691c5595f9dSGerard Roudier /* 692c5595f9dSGerard Roudier * Copy the DSA to the DONE QUEUE and 693c5595f9dSGerard Roudier * signal completion to the host. 694c5595f9dSGerard Roudier * If we are interrupted between DONE 695c5595f9dSGerard Roudier * and DONE_END, we must reset, otherwise 696c5595f9dSGerard Roudier * the completed CCB may be lost. 697c5595f9dSGerard Roudier */ 698c5595f9dSGerard Roudier SCR_STORE_ABS (dsa, 4), 699c5595f9dSGerard Roudier PADDR_B (saved_dsa), 700c5595f9dSGerard Roudier SCR_LOAD_ABS (dsa, 4), 701c5595f9dSGerard Roudier PADDR_B (done_pos), 702c5595f9dSGerard Roudier SCR_LOAD_ABS (scratcha, 4), 703c5595f9dSGerard Roudier PADDR_B (saved_dsa), 704c5595f9dSGerard Roudier SCR_STORE_REL (scratcha, 4), 705c5595f9dSGerard Roudier 0, 706c5595f9dSGerard Roudier /* 707c5595f9dSGerard Roudier * The instruction below reads the DONE QUEUE next 708c5595f9dSGerard Roudier * free position from memory. 709c5595f9dSGerard Roudier * In addition it ensures that all PCI posted writes 710c5595f9dSGerard Roudier * are flushed and so the DSA value of the done 711c5595f9dSGerard Roudier * CCB is visible by the CPU before INTFLY is raised. 712c5595f9dSGerard Roudier */ 713c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 714c5595f9dSGerard Roudier 4, 715c5595f9dSGerard Roudier SCR_INT_FLY, 716c5595f9dSGerard Roudier 0, 717c5595f9dSGerard Roudier SCR_STORE_ABS (temp, 4), 718c5595f9dSGerard Roudier PADDR_B (done_pos), 719c5595f9dSGerard Roudier }/*-------------------------< DONE_END >-------------------------*/,{ 720c5595f9dSGerard Roudier SCR_JUMP, 721c5595f9dSGerard Roudier PADDR_A (start), 722c5595f9dSGerard Roudier }/*-------------------------< SAVE_DP >--------------------------*/,{ 723c5595f9dSGerard Roudier /* 724c5595f9dSGerard Roudier * Clear ACK immediately. 725c5595f9dSGerard Roudier * No need to delay it. 726c5595f9dSGerard Roudier */ 727c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 728c5595f9dSGerard Roudier 0, 729c5595f9dSGerard Roudier /* 730c5595f9dSGerard Roudier * Keep track we received a SAVE DP, so 731c5595f9dSGerard Roudier * we will switch to the other PM context 732c5595f9dSGerard Roudier * on the next PM since the DP may point 733c5595f9dSGerard Roudier * to the current PM context. 734c5595f9dSGerard Roudier */ 735c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_OR, HF_DP_SAVED), 736c5595f9dSGerard Roudier 0, 737c5595f9dSGerard Roudier /* 738c5595f9dSGerard Roudier * SAVE_DP message: 739c5595f9dSGerard Roudier * Copy the data pointer to SAVEP. 740c5595f9dSGerard Roudier */ 741c5595f9dSGerard Roudier SCR_STORE_REL (temp, 4), 742c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.savep), 743c5595f9dSGerard Roudier SCR_JUMP, 744c5595f9dSGerard Roudier PADDR_A (dispatch), 745c5595f9dSGerard Roudier }/*-------------------------< RESTORE_DP >-----------------------*/,{ 746c5595f9dSGerard Roudier /* 747c5595f9dSGerard Roudier * RESTORE_DP message: 748c5595f9dSGerard Roudier * Copy SAVEP to actual data pointer. 749c5595f9dSGerard Roudier */ 750c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 751c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.savep), 752c5595f9dSGerard Roudier SCR_JUMP, 753c5595f9dSGerard Roudier PADDR_A (clrack), 754c5595f9dSGerard Roudier }/*-------------------------< DISCONNECT >-----------------------*/,{ 755c5595f9dSGerard Roudier /* 756c5595f9dSGerard Roudier * DISCONNECTing ... 757c5595f9dSGerard Roudier * 758c5595f9dSGerard Roudier * disable the "unexpected disconnect" feature, 759c5595f9dSGerard Roudier * and remove the ACK signal. 760c5595f9dSGerard Roudier */ 761c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_AND, 0x7f), 762c5595f9dSGerard Roudier 0, 763c5595f9dSGerard Roudier SCR_CLR (SCR_ACK|SCR_ATN), 764c5595f9dSGerard Roudier 0, 765c5595f9dSGerard Roudier /* 766c5595f9dSGerard Roudier * Wait for the disconnect. 767c5595f9dSGerard Roudier */ 768c5595f9dSGerard Roudier SCR_WAIT_DISC, 769c5595f9dSGerard Roudier 0, 770c5595f9dSGerard Roudier /* 771c5595f9dSGerard Roudier * Status is: DISCONNECTED. 772c5595f9dSGerard Roudier */ 773c5595f9dSGerard Roudier SCR_LOAD_REG (HS_REG, HS_DISCONNECT), 774c5595f9dSGerard Roudier 0, 775c5595f9dSGerard Roudier /* 776c5595f9dSGerard Roudier * Save host status. 777c5595f9dSGerard Roudier */ 778c5595f9dSGerard Roudier SCR_STORE_REL (scr0, 4), 779c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.status), 780c5595f9dSGerard Roudier /* 781c5595f9dSGerard Roudier * If QUIRK_AUTOSAVE is set, 782c5595f9dSGerard Roudier * do an "save pointer" operation. 783c5595f9dSGerard Roudier */ 784c5595f9dSGerard Roudier SCR_FROM_REG (QU_REG), 785c5595f9dSGerard Roudier 0, 786c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (MASK (SYM_QUIRK_AUTOSAVE, SYM_QUIRK_AUTOSAVE)), 787c5595f9dSGerard Roudier PADDR_A (start), 788c5595f9dSGerard Roudier /* 789c5595f9dSGerard Roudier * like SAVE_DP message: 790c5595f9dSGerard Roudier * Remember we saved the data pointer. 791c5595f9dSGerard Roudier * Copy data pointer to SAVEP. 792c5595f9dSGerard Roudier */ 793c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_OR, HF_DP_SAVED), 794c5595f9dSGerard Roudier 0, 795c5595f9dSGerard Roudier SCR_STORE_REL (temp, 4), 796c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.savep), 797c5595f9dSGerard Roudier SCR_JUMP, 798c5595f9dSGerard Roudier PADDR_A (start), 799c5595f9dSGerard Roudier }/*-------------------------< IDLE >-----------------------------*/,{ 800c5595f9dSGerard Roudier /* 801c5595f9dSGerard Roudier * Nothing to do? 802c5595f9dSGerard Roudier * Switch the LED off and wait for reselect. 803c5595f9dSGerard Roudier * Will be patched with a NO_OP if LED 804c5595f9dSGerard Roudier * not needed or not desired. 805c5595f9dSGerard Roudier */ 806c5595f9dSGerard Roudier SCR_REG_REG (gpreg, SCR_OR, 0x01), 807c5595f9dSGerard Roudier 0, 808c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 809c5595f9dSGerard Roudier SCR_JUMPR, 810c5595f9dSGerard Roudier 8, 811c5595f9dSGerard Roudier #endif 812c5595f9dSGerard Roudier }/*-------------------------< UNGETJOB >-------------------------*/,{ 813c5595f9dSGerard Roudier #ifdef SYM_CONF_IARB_SUPPORT 814c5595f9dSGerard Roudier /* 815c5595f9dSGerard Roudier * Set IMMEDIATE ARBITRATION, for the next time. 816c5595f9dSGerard Roudier * This will give us better chance to win arbitration 817c5595f9dSGerard Roudier * for the job we just wanted to do. 818c5595f9dSGerard Roudier */ 819c5595f9dSGerard Roudier SCR_REG_REG (scntl1, SCR_OR, IARB), 820c5595f9dSGerard Roudier 0, 821c5595f9dSGerard Roudier #endif 822c5595f9dSGerard Roudier /* 823c5595f9dSGerard Roudier * We are not able to restart the SCRIPTS if we are 824c5595f9dSGerard Roudier * interrupted and these instruction haven't been 825c5595f9dSGerard Roudier * all executed. BTW, this is very unlikely to 826c5595f9dSGerard Roudier * happen, but we check that from the C code. 827c5595f9dSGerard Roudier */ 828c5595f9dSGerard Roudier SCR_LOAD_REG (dsa, 0xff), 829c5595f9dSGerard Roudier 0, 830c5595f9dSGerard Roudier SCR_STORE_ABS (scratcha, 4), 831c5595f9dSGerard Roudier PADDR_B (startpos), 832c5595f9dSGerard Roudier }/*-------------------------< RESELECT >-------------------------*/,{ 833c5595f9dSGerard Roudier /* 834c5595f9dSGerard Roudier * Make sure we are in initiator mode. 835c5595f9dSGerard Roudier */ 836c5595f9dSGerard Roudier SCR_CLR (SCR_TRG), 837c5595f9dSGerard Roudier 0, 838c5595f9dSGerard Roudier /* 839c5595f9dSGerard Roudier * Sleep waiting for a reselection. 840c5595f9dSGerard Roudier */ 841c5595f9dSGerard Roudier SCR_WAIT_RESEL, 842c5595f9dSGerard Roudier PADDR_A(start), 843c5595f9dSGerard Roudier }/*-------------------------< RESELECTED >-----------------------*/,{ 844c5595f9dSGerard Roudier /* 845c5595f9dSGerard Roudier * Switch the LED on. 846c5595f9dSGerard Roudier * Will be patched with a NO_OP if LED 847c5595f9dSGerard Roudier * not needed or not desired. 848c5595f9dSGerard Roudier */ 849c5595f9dSGerard Roudier SCR_REG_REG (gpreg, SCR_AND, 0xfe), 850c5595f9dSGerard Roudier 0, 851c5595f9dSGerard Roudier /* 852c5595f9dSGerard Roudier * load the target id into the sdid 853c5595f9dSGerard Roudier */ 854c5595f9dSGerard Roudier SCR_REG_SFBR (ssid, SCR_AND, 0x8F), 855c5595f9dSGerard Roudier 0, 856c5595f9dSGerard Roudier SCR_TO_REG (sdid), 857c5595f9dSGerard Roudier 0, 858c5595f9dSGerard Roudier /* 859c5595f9dSGerard Roudier * Load the target control block address 860c5595f9dSGerard Roudier */ 861c5595f9dSGerard Roudier SCR_LOAD_ABS (dsa, 4), 862c5595f9dSGerard Roudier PADDR_B (targtbl), 863c5595f9dSGerard Roudier SCR_SFBR_REG (dsa, SCR_SHL, 0), 864c5595f9dSGerard Roudier 0, 865c5595f9dSGerard Roudier SCR_REG_REG (dsa, SCR_SHL, 0), 866c5595f9dSGerard Roudier 0, 867c5595f9dSGerard Roudier SCR_REG_REG (dsa, SCR_AND, 0x3c), 868c5595f9dSGerard Roudier 0, 869c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 870c5595f9dSGerard Roudier 0, 871c5595f9dSGerard Roudier /* 872c5595f9dSGerard Roudier * We expect MESSAGE IN phase. 873c5595f9dSGerard Roudier * If not, get help from the C code. 874c5595f9dSGerard Roudier */ 875c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (WHEN (SCR_MSG_IN)), 876c5595f9dSGerard Roudier SIR_RESEL_NO_MSG_IN, 877c5595f9dSGerard Roudier /* 878c5595f9dSGerard Roudier * Load the legacy synchronous transfer registers. 879c5595f9dSGerard Roudier */ 880c5595f9dSGerard Roudier SCR_LOAD_REL (scntl3, 1), 881c5595f9dSGerard Roudier offsetof(struct sym_tcb, head.wval), 882c5595f9dSGerard Roudier SCR_LOAD_REL (sxfer, 1), 883c5595f9dSGerard Roudier offsetof(struct sym_tcb, head.sval), 884c5595f9dSGerard Roudier }/*-------------------------< RESEL_SCNTL4 >---------------------*/,{ 885c5595f9dSGerard Roudier /* 886c5595f9dSGerard Roudier * The C1010 uses a new synchronous timing scheme. 887c5595f9dSGerard Roudier * Will be patched with a NO_OP if not a C1010. 888c5595f9dSGerard Roudier */ 889c5595f9dSGerard Roudier SCR_LOAD_REL (scntl4, 1), 890c5595f9dSGerard Roudier offsetof(struct sym_tcb, head.uval), 891c5595f9dSGerard Roudier /* 892c5595f9dSGerard Roudier * Get the IDENTIFY message. 893c5595f9dSGerard Roudier */ 894c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 895c5595f9dSGerard Roudier HADDR_1 (msgin), 896c5595f9dSGerard Roudier /* 897c5595f9dSGerard Roudier * If IDENTIFY LUN #0, use a faster path 898c5595f9dSGerard Roudier * to find the LCB structure. 899c5595f9dSGerard Roudier */ 900c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (0x80, 0xbf)), 901c5595f9dSGerard Roudier PADDR_A (resel_lun0), 902c5595f9dSGerard Roudier /* 903c5595f9dSGerard Roudier * If message isn't an IDENTIFY, 904c5595f9dSGerard Roudier * tell the C code about. 905c5595f9dSGerard Roudier */ 906c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (MASK (0x80, 0x80)), 907c5595f9dSGerard Roudier SIR_RESEL_NO_IDENTIFY, 908c5595f9dSGerard Roudier /* 909c5595f9dSGerard Roudier * It is an IDENTIFY message, 910c5595f9dSGerard Roudier * Load the LUN control block address. 911c5595f9dSGerard Roudier */ 912c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 913c5595f9dSGerard Roudier offsetof(struct sym_tcb, head.luntbl_sa), 914c5595f9dSGerard Roudier SCR_SFBR_REG (dsa, SCR_SHL, 0), 915c5595f9dSGerard Roudier 0, 916c5595f9dSGerard Roudier SCR_REG_REG (dsa, SCR_SHL, 0), 917c5595f9dSGerard Roudier 0, 918c5595f9dSGerard Roudier SCR_REG_REG (dsa, SCR_AND, 0xfc), 919c5595f9dSGerard Roudier 0, 920c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 921c5595f9dSGerard Roudier 0, 922c5595f9dSGerard Roudier SCR_JUMPR, 923c5595f9dSGerard Roudier 8, 924c5595f9dSGerard Roudier }/*-------------------------< RESEL_LUN0 >-----------------------*/,{ 925c5595f9dSGerard Roudier /* 926c5595f9dSGerard Roudier * LUN 0 special case (but usual one :)) 927c5595f9dSGerard Roudier */ 928c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 929c5595f9dSGerard Roudier offsetof(struct sym_tcb, head.lun0_sa), 930c5595f9dSGerard Roudier /* 931c5595f9dSGerard Roudier * Jump indirectly to the reselect action for this LUN. 932c5595f9dSGerard Roudier */ 933c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 934c5595f9dSGerard Roudier offsetof(struct sym_lcb, head.resel_sa), 935c5595f9dSGerard Roudier SCR_RETURN, 936c5595f9dSGerard Roudier 0, 937c5595f9dSGerard Roudier /* In normal situations, we jump to RESEL_TAG or RESEL_NO_TAG */ 938c5595f9dSGerard Roudier }/*-------------------------< RESEL_TAG >------------------------*/,{ 939c5595f9dSGerard Roudier /* 9404fafb9d6SGerard Roudier * ACK the IDENTIFY previously received. 941c5595f9dSGerard Roudier */ 942c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 943c5595f9dSGerard Roudier 0, 944c5595f9dSGerard Roudier /* 945c5595f9dSGerard Roudier * It shall be a tagged command. 946c5595f9dSGerard Roudier * Read SIMPLE+TAG. 947c5595f9dSGerard Roudier * The C code will deal with errors. 948c5595f9dSGerard Roudier * Agressive optimization, is'nt it? :) 949c5595f9dSGerard Roudier */ 950c5595f9dSGerard Roudier SCR_MOVE_ABS (2) ^ SCR_MSG_IN, 951c5595f9dSGerard Roudier HADDR_1 (msgin), 952c5595f9dSGerard Roudier /* 953c5595f9dSGerard Roudier * Load the pointer to the tagged task 954c5595f9dSGerard Roudier * table for this LUN. 955c5595f9dSGerard Roudier */ 956c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 957c5595f9dSGerard Roudier offsetof(struct sym_lcb, head.itlq_tbl_sa), 958c5595f9dSGerard Roudier /* 959c5595f9dSGerard Roudier * The SIDL still contains the TAG value. 960c5595f9dSGerard Roudier * Agressive optimization, isn't it? :):) 961c5595f9dSGerard Roudier */ 962c5595f9dSGerard Roudier SCR_REG_SFBR (sidl, SCR_SHL, 0), 963c5595f9dSGerard Roudier 0, 964c5595f9dSGerard Roudier #if SYM_CONF_MAX_TASK*4 > 512 965c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (CARRYSET), 966c5595f9dSGerard Roudier 8, 967c5595f9dSGerard Roudier SCR_REG_REG (dsa1, SCR_OR, 2), 968c5595f9dSGerard Roudier 0, 969c5595f9dSGerard Roudier SCR_REG_REG (sfbr, SCR_SHL, 0), 970c5595f9dSGerard Roudier 0, 971c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (CARRYSET), 972c5595f9dSGerard Roudier 8, 973c5595f9dSGerard Roudier SCR_REG_REG (dsa1, SCR_OR, 1), 974c5595f9dSGerard Roudier 0, 975c5595f9dSGerard Roudier #elif SYM_CONF_MAX_TASK*4 > 256 976c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (CARRYSET), 977c5595f9dSGerard Roudier 8, 978c5595f9dSGerard Roudier SCR_REG_REG (dsa1, SCR_OR, 1), 979c5595f9dSGerard Roudier 0, 980c5595f9dSGerard Roudier #endif 981c5595f9dSGerard Roudier /* 982c5595f9dSGerard Roudier * Retrieve the DSA of this task. 983c5595f9dSGerard Roudier * JUMP indirectly to the restart point of the CCB. 984c5595f9dSGerard Roudier */ 985c5595f9dSGerard Roudier SCR_SFBR_REG (dsa, SCR_AND, 0xfc), 986c5595f9dSGerard Roudier 0, 987c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 988c5595f9dSGerard Roudier 0, 989c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 990c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.head.go.restart), 991c5595f9dSGerard Roudier SCR_RETURN, 992c5595f9dSGerard Roudier 0, 993c5595f9dSGerard Roudier /* In normal situations we branch to RESEL_DSA */ 994c5595f9dSGerard Roudier }/*-------------------------< RESEL_DSA >------------------------*/,{ 995c5595f9dSGerard Roudier /* 996c5595f9dSGerard Roudier * ACK the IDENTIFY or TAG previously received. 997c5595f9dSGerard Roudier */ 998c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 999c5595f9dSGerard Roudier 0, 1000c5595f9dSGerard Roudier }/*-------------------------< RESEL_DSA1 >-----------------------*/,{ 1001c5595f9dSGerard Roudier /* 1002c5595f9dSGerard Roudier * load the savep (saved pointer) into 1003c5595f9dSGerard Roudier * the actual data pointer. 1004c5595f9dSGerard Roudier */ 1005c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 1006c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.savep), 1007c5595f9dSGerard Roudier /* 1008c5595f9dSGerard Roudier * Initialize the status registers 1009c5595f9dSGerard Roudier */ 1010c5595f9dSGerard Roudier SCR_LOAD_REL (scr0, 4), 1011c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.head.status), 1012c5595f9dSGerard Roudier /* 1013c5595f9dSGerard Roudier * Jump to dispatcher. 1014c5595f9dSGerard Roudier */ 1015c5595f9dSGerard Roudier SCR_JUMP, 1016c5595f9dSGerard Roudier PADDR_A (dispatch), 1017c5595f9dSGerard Roudier }/*-------------------------< RESEL_NO_TAG >---------------------*/,{ 1018c5595f9dSGerard Roudier /* 1019c5595f9dSGerard Roudier * Load the DSA with the unique ITL task. 1020c5595f9dSGerard Roudier */ 1021c5595f9dSGerard Roudier SCR_LOAD_REL (dsa, 4), 1022c5595f9dSGerard Roudier offsetof(struct sym_lcb, head.itl_task_sa), 1023c5595f9dSGerard Roudier /* 1024c5595f9dSGerard Roudier * JUMP indirectly to the restart point of the CCB. 1025c5595f9dSGerard Roudier */ 1026c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 1027c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.head.go.restart), 1028c5595f9dSGerard Roudier SCR_RETURN, 1029c5595f9dSGerard Roudier 0, 1030c5595f9dSGerard Roudier /* In normal situations we branch to RESEL_DSA */ 1031c5595f9dSGerard Roudier }/*-------------------------< DATA_IN >--------------------------*/,{ 1032c5595f9dSGerard Roudier /* 1033c5595f9dSGerard Roudier * Because the size depends on the 1034c5595f9dSGerard Roudier * #define SYM_CONF_MAX_SG parameter, 1035c5595f9dSGerard Roudier * it is filled in at runtime. 1036c5595f9dSGerard Roudier * 1037c5595f9dSGerard Roudier * ##===========< i=0; i<SYM_CONF_MAX_SG >========= 1038c5595f9dSGerard Roudier * || SCR_CHMOV_TBL ^ SCR_DATA_IN, 1039c5595f9dSGerard Roudier * || offsetof (struct sym_dsb, data[ i]), 1040c5595f9dSGerard Roudier * ##========================================== 1041c5595f9dSGerard Roudier */ 1042c5595f9dSGerard Roudier 0 1043c5595f9dSGerard Roudier }/*-------------------------< DATA_IN2 >-------------------------*/,{ 1044c5595f9dSGerard Roudier SCR_CALL, 1045c5595f9dSGerard Roudier PADDR_A (datai_done), 1046c5595f9dSGerard Roudier SCR_JUMP, 1047c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1048c5595f9dSGerard Roudier }/*-------------------------< DATA_OUT >-------------------------*/,{ 1049c5595f9dSGerard Roudier /* 1050c5595f9dSGerard Roudier * Because the size depends on the 1051c5595f9dSGerard Roudier * #define SYM_CONF_MAX_SG parameter, 1052c5595f9dSGerard Roudier * it is filled in at runtime. 1053c5595f9dSGerard Roudier * 1054c5595f9dSGerard Roudier * ##===========< i=0; i<SYM_CONF_MAX_SG >========= 1055c5595f9dSGerard Roudier * || SCR_CHMOV_TBL ^ SCR_DATA_OUT, 1056c5595f9dSGerard Roudier * || offsetof (struct sym_dsb, data[ i]), 1057c5595f9dSGerard Roudier * ##========================================== 1058c5595f9dSGerard Roudier */ 1059c5595f9dSGerard Roudier 0 1060c5595f9dSGerard Roudier }/*-------------------------< DATA_OUT2 >------------------------*/,{ 1061c5595f9dSGerard Roudier SCR_CALL, 1062c5595f9dSGerard Roudier PADDR_A (datao_done), 1063c5595f9dSGerard Roudier SCR_JUMP, 1064c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1065c5595f9dSGerard Roudier }/*-------------------------< PM0_DATA >-------------------------*/,{ 1066c5595f9dSGerard Roudier /* 1067c5595f9dSGerard Roudier * Read our host flags to SFBR, so we will be able 1068c5595f9dSGerard Roudier * to check against the data direction we expect. 1069c5595f9dSGerard Roudier */ 1070c5595f9dSGerard Roudier SCR_FROM_REG (HF_REG), 1071c5595f9dSGerard Roudier 0, 1072c5595f9dSGerard Roudier /* 1073c5595f9dSGerard Roudier * Check against actual DATA PHASE. 1074c5595f9dSGerard Roudier */ 1075c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_DATA_IN)), 1076c5595f9dSGerard Roudier PADDR_A (pm0_data_out), 1077c5595f9dSGerard Roudier /* 1078c5595f9dSGerard Roudier * Actual phase is DATA IN. 1079c5595f9dSGerard Roudier * Check against expected direction. 1080c5595f9dSGerard Roudier */ 1081c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (MASK (HF_DATA_IN, HF_DATA_IN)), 1082c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1083c5595f9dSGerard Roudier /* 1084c5595f9dSGerard Roudier * Keep track we are moving data from the 1085c5595f9dSGerard Roudier * PM0 DATA mini-script. 1086c5595f9dSGerard Roudier */ 1087c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_OR, HF_IN_PM0), 1088c5595f9dSGerard Roudier 0, 1089c5595f9dSGerard Roudier /* 1090c5595f9dSGerard Roudier * Move the data to memory. 1091c5595f9dSGerard Roudier */ 1092c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_IN, 1093c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.pm0.sg), 1094c5595f9dSGerard Roudier SCR_JUMP, 1095c5595f9dSGerard Roudier PADDR_A (pm0_data_end), 1096c5595f9dSGerard Roudier }/*-------------------------< PM0_DATA_OUT >---------------------*/,{ 1097c5595f9dSGerard Roudier /* 1098c5595f9dSGerard Roudier * Actual phase is DATA OUT. 1099c5595f9dSGerard Roudier * Check against expected direction. 1100c5595f9dSGerard Roudier */ 1101c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (HF_DATA_IN, HF_DATA_IN)), 1102c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1103c5595f9dSGerard Roudier /* 1104c5595f9dSGerard Roudier * Keep track we are moving data from the 1105c5595f9dSGerard Roudier * PM0 DATA mini-script. 1106c5595f9dSGerard Roudier */ 1107c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_OR, HF_IN_PM0), 1108c5595f9dSGerard Roudier 0, 1109c5595f9dSGerard Roudier /* 1110c5595f9dSGerard Roudier * Move the data from memory. 1111c5595f9dSGerard Roudier */ 1112c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_OUT, 1113c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.pm0.sg), 1114c5595f9dSGerard Roudier }/*-------------------------< PM0_DATA_END >---------------------*/,{ 1115c5595f9dSGerard Roudier /* 1116c5595f9dSGerard Roudier * Clear the flag that told we were moving 1117c5595f9dSGerard Roudier * data from the PM0 DATA mini-script. 1118c5595f9dSGerard Roudier */ 1119c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_AND, (~HF_IN_PM0)), 1120c5595f9dSGerard Roudier 0, 1121c5595f9dSGerard Roudier /* 1122c5595f9dSGerard Roudier * Return to the previous DATA script which 1123c5595f9dSGerard Roudier * is guaranteed by design (if no bug) to be 1124c5595f9dSGerard Roudier * the main DATA script for this transfer. 1125c5595f9dSGerard Roudier */ 1126c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 1127c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.pm0.ret), 1128c5595f9dSGerard Roudier SCR_RETURN, 1129c5595f9dSGerard Roudier 0, 1130c5595f9dSGerard Roudier }/*-------------------------< PM1_DATA >-------------------------*/,{ 1131c5595f9dSGerard Roudier /* 1132c5595f9dSGerard Roudier * Read our host flags to SFBR, so we will be able 1133c5595f9dSGerard Roudier * to check against the data direction we expect. 1134c5595f9dSGerard Roudier */ 1135c5595f9dSGerard Roudier SCR_FROM_REG (HF_REG), 1136c5595f9dSGerard Roudier 0, 1137c5595f9dSGerard Roudier /* 1138c5595f9dSGerard Roudier * Check against actual DATA PHASE. 1139c5595f9dSGerard Roudier */ 1140c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_DATA_IN)), 1141c5595f9dSGerard Roudier PADDR_A (pm1_data_out), 1142c5595f9dSGerard Roudier /* 1143c5595f9dSGerard Roudier * Actual phase is DATA IN. 1144c5595f9dSGerard Roudier * Check against expected direction. 1145c5595f9dSGerard Roudier */ 1146c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (MASK (HF_DATA_IN, HF_DATA_IN)), 1147c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1148c5595f9dSGerard Roudier /* 1149c5595f9dSGerard Roudier * Keep track we are moving data from the 1150c5595f9dSGerard Roudier * PM1 DATA mini-script. 1151c5595f9dSGerard Roudier */ 1152c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_OR, HF_IN_PM1), 1153c5595f9dSGerard Roudier 0, 1154c5595f9dSGerard Roudier /* 1155c5595f9dSGerard Roudier * Move the data to memory. 1156c5595f9dSGerard Roudier */ 1157c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_IN, 1158c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.pm1.sg), 1159c5595f9dSGerard Roudier SCR_JUMP, 1160c5595f9dSGerard Roudier PADDR_A (pm1_data_end), 1161c5595f9dSGerard Roudier }/*-------------------------< PM1_DATA_OUT >---------------------*/,{ 1162c5595f9dSGerard Roudier /* 1163c5595f9dSGerard Roudier * Actual phase is DATA OUT. 1164c5595f9dSGerard Roudier * Check against expected direction. 1165c5595f9dSGerard Roudier */ 1166c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (HF_DATA_IN, HF_DATA_IN)), 1167c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1168c5595f9dSGerard Roudier /* 1169c5595f9dSGerard Roudier * Keep track we are moving data from the 1170c5595f9dSGerard Roudier * PM1 DATA mini-script. 1171c5595f9dSGerard Roudier */ 1172c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_OR, HF_IN_PM1), 1173c5595f9dSGerard Roudier 0, 1174c5595f9dSGerard Roudier /* 1175c5595f9dSGerard Roudier * Move the data from memory. 1176c5595f9dSGerard Roudier */ 1177c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_OUT, 1178c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.pm1.sg), 1179c5595f9dSGerard Roudier }/*-------------------------< PM1_DATA_END >---------------------*/,{ 1180c5595f9dSGerard Roudier /* 1181c5595f9dSGerard Roudier * Clear the flag that told we were moving 1182c5595f9dSGerard Roudier * data from the PM1 DATA mini-script. 1183c5595f9dSGerard Roudier */ 1184c5595f9dSGerard Roudier SCR_REG_REG (HF_REG, SCR_AND, (~HF_IN_PM1)), 1185c5595f9dSGerard Roudier 0, 1186c5595f9dSGerard Roudier /* 1187c5595f9dSGerard Roudier * Return to the previous DATA script which 1188c5595f9dSGerard Roudier * is guaranteed by design (if no bug) to be 1189c5595f9dSGerard Roudier * the main DATA script for this transfer. 1190c5595f9dSGerard Roudier */ 1191c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 1192c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.pm1.ret), 1193c5595f9dSGerard Roudier SCR_RETURN, 1194c5595f9dSGerard Roudier 0, 1195c5595f9dSGerard Roudier }/*-------------------------<>-----------------------------------*/ 1196c5595f9dSGerard Roudier }; 1197c5595f9dSGerard Roudier 1198c5595f9dSGerard Roudier static struct SYM_FWB_SCR SYM_FWB_SCR = { 1199c5595f9dSGerard Roudier /*--------------------------< START64 >--------------------------*/ { 1200c5595f9dSGerard Roudier /* 1201c5595f9dSGerard Roudier * SCRIPT entry point for the 895A, 896 and 1010. 1202c5595f9dSGerard Roudier * For now, there is no specific stuff for those 1203c5595f9dSGerard Roudier * chips at this point, but this may come. 1204c5595f9dSGerard Roudier */ 1205c5595f9dSGerard Roudier SCR_JUMP, 1206c5595f9dSGerard Roudier PADDR_A (init), 1207c5595f9dSGerard Roudier }/*-------------------------< NO_DATA >--------------------------*/,{ 1208c5595f9dSGerard Roudier SCR_JUMP, 1209c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1210c5595f9dSGerard Roudier }/*-------------------------< SEL_FOR_ABORT >--------------------*/,{ 1211c5595f9dSGerard Roudier /* 1212c5595f9dSGerard Roudier * We are jumped here by the C code, if we have 1213c5595f9dSGerard Roudier * some target to reset or some disconnected 1214c5595f9dSGerard Roudier * job to abort. Since error recovery is a serious 1215c5595f9dSGerard Roudier * busyness, we will really reset the SCSI BUS, if 1216c5595f9dSGerard Roudier * case of a SCSI interrupt occuring in this path. 1217c5595f9dSGerard Roudier */ 1218c5595f9dSGerard Roudier 1219c5595f9dSGerard Roudier /* 1220c5595f9dSGerard Roudier * Set initiator mode. 1221c5595f9dSGerard Roudier */ 1222c5595f9dSGerard Roudier SCR_CLR (SCR_TRG), 1223c5595f9dSGerard Roudier 0, 1224c5595f9dSGerard Roudier /* 1225c5595f9dSGerard Roudier * And try to select this target. 1226c5595f9dSGerard Roudier */ 1227c5595f9dSGerard Roudier SCR_SEL_TBL_ATN ^ offsetof (struct sym_hcb, abrt_sel), 1228c5595f9dSGerard Roudier PADDR_A (reselect), 1229c5595f9dSGerard Roudier /* 1230c5595f9dSGerard Roudier * Wait for the selection to complete or 1231c5595f9dSGerard Roudier * the selection to time out. 1232c5595f9dSGerard Roudier */ 1233c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (WHEN (SCR_MSG_OUT)), 1234c5595f9dSGerard Roudier -8, 1235c5595f9dSGerard Roudier /* 1236c5595f9dSGerard Roudier * Call the C code. 1237c5595f9dSGerard Roudier */ 1238c5595f9dSGerard Roudier SCR_INT, 1239c5595f9dSGerard Roudier SIR_TARGET_SELECTED, 1240c5595f9dSGerard Roudier /* 1241c5595f9dSGerard Roudier * The C code should let us continue here. 1242c5595f9dSGerard Roudier * Send the 'kiss of death' message. 1243c5595f9dSGerard Roudier * We expect an immediate disconnect once 1244c5595f9dSGerard Roudier * the target has eaten the message. 1245c5595f9dSGerard Roudier */ 1246c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_AND, 0x7f), 1247c5595f9dSGerard Roudier 0, 1248c5595f9dSGerard Roudier SCR_MOVE_TBL ^ SCR_MSG_OUT, 1249c5595f9dSGerard Roudier offsetof (struct sym_hcb, abrt_tbl), 1250c5595f9dSGerard Roudier SCR_CLR (SCR_ACK|SCR_ATN), 1251c5595f9dSGerard Roudier 0, 1252c5595f9dSGerard Roudier SCR_WAIT_DISC, 1253c5595f9dSGerard Roudier 0, 1254c5595f9dSGerard Roudier /* 1255c5595f9dSGerard Roudier * Tell the C code that we are done. 1256c5595f9dSGerard Roudier */ 1257c5595f9dSGerard Roudier SCR_INT, 1258c5595f9dSGerard Roudier SIR_ABORT_SENT, 1259c5595f9dSGerard Roudier }/*-------------------------< SEL_FOR_ABORT_1 >------------------*/,{ 1260c5595f9dSGerard Roudier /* 1261c5595f9dSGerard Roudier * Jump at scheduler. 1262c5595f9dSGerard Roudier */ 1263c5595f9dSGerard Roudier SCR_JUMP, 1264c5595f9dSGerard Roudier PADDR_A (start), 1265c5595f9dSGerard Roudier }/*-------------------------< MSG_IN_ETC >-----------------------*/,{ 1266c5595f9dSGerard Roudier /* 1267c5595f9dSGerard Roudier * If it is an EXTENDED (variable size message) 1268c5595f9dSGerard Roudier * Handle it. 1269c5595f9dSGerard Roudier */ 1270c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (DATA (M_EXTENDED)), 1271c5595f9dSGerard Roudier PADDR_B (msg_extended), 1272c5595f9dSGerard Roudier /* 1273c5595f9dSGerard Roudier * Let the C code handle any other 1274c5595f9dSGerard Roudier * 1 byte message. 1275c5595f9dSGerard Roudier */ 1276c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (0x00, 0xf0)), 1277c5595f9dSGerard Roudier PADDR_B (msg_received), 1278c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (0x10, 0xf0)), 1279c5595f9dSGerard Roudier PADDR_B (msg_received), 1280c5595f9dSGerard Roudier /* 1281c5595f9dSGerard Roudier * We donnot handle 2 bytes messages from SCRIPTS. 1282c5595f9dSGerard Roudier * So, let the C code deal with these ones too. 1283c5595f9dSGerard Roudier */ 1284c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (MASK (0x20, 0xf0)), 1285c5595f9dSGerard Roudier SIR_MSG_WEIRD, 1286c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1287c5595f9dSGerard Roudier 0, 1288c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 1289c5595f9dSGerard Roudier HADDR_1 (msgin[1]), 1290c5595f9dSGerard Roudier }/*-------------------------< MSG_RECEIVED >---------------------*/,{ 1291c5595f9dSGerard Roudier SCR_LOAD_REL (scratcha, 4), /* DUMMY READ */ 1292c5595f9dSGerard Roudier 0, 1293c5595f9dSGerard Roudier SCR_INT, 1294c5595f9dSGerard Roudier SIR_MSG_RECEIVED, 1295c5595f9dSGerard Roudier }/*-------------------------< MSG_WEIRD_SEEN >-------------------*/,{ 1296c5595f9dSGerard Roudier SCR_LOAD_REL (scratcha, 4), /* DUMMY READ */ 1297c5595f9dSGerard Roudier 0, 1298c5595f9dSGerard Roudier SCR_INT, 1299c5595f9dSGerard Roudier SIR_MSG_WEIRD, 1300c5595f9dSGerard Roudier }/*-------------------------< MSG_EXTENDED >---------------------*/,{ 1301c5595f9dSGerard Roudier /* 1302c5595f9dSGerard Roudier * Clear ACK and get the next byte 1303c5595f9dSGerard Roudier * assumed to be the message length. 1304c5595f9dSGerard Roudier */ 1305c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1306c5595f9dSGerard Roudier 0, 1307c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 1308c5595f9dSGerard Roudier HADDR_1 (msgin[1]), 1309c5595f9dSGerard Roudier /* 1310c5595f9dSGerard Roudier * Try to catch some unlikely situations as 0 length 1311c5595f9dSGerard Roudier * or too large the length. 1312c5595f9dSGerard Roudier */ 1313c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (DATA (0)), 1314c5595f9dSGerard Roudier PADDR_B (msg_weird_seen), 1315c5595f9dSGerard Roudier SCR_TO_REG (scratcha), 1316c5595f9dSGerard Roudier 0, 1317c5595f9dSGerard Roudier SCR_REG_REG (sfbr, SCR_ADD, (256-8)), 1318c5595f9dSGerard Roudier 0, 1319c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (CARRYSET), 1320c5595f9dSGerard Roudier PADDR_B (msg_weird_seen), 1321c5595f9dSGerard Roudier /* 1322c5595f9dSGerard Roudier * We donnot handle extended messages from SCRIPTS. 1323c5595f9dSGerard Roudier * Read the amount of data correponding to the 1324c5595f9dSGerard Roudier * message length and call the C code. 1325c5595f9dSGerard Roudier */ 1326c5595f9dSGerard Roudier SCR_STORE_REL (scratcha, 1), 1327c5595f9dSGerard Roudier offsetof (struct sym_dsb, smsg_ext.size), 1328c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1329c5595f9dSGerard Roudier 0, 1330c5595f9dSGerard Roudier SCR_MOVE_TBL ^ SCR_MSG_IN, 1331c5595f9dSGerard Roudier offsetof (struct sym_dsb, smsg_ext), 1332c5595f9dSGerard Roudier SCR_JUMP, 1333c5595f9dSGerard Roudier PADDR_B (msg_received), 1334c5595f9dSGerard Roudier }/*-------------------------< MSG_BAD >--------------------------*/,{ 1335c5595f9dSGerard Roudier /* 1336c5595f9dSGerard Roudier * unimplemented message - reject it. 1337c5595f9dSGerard Roudier */ 1338c5595f9dSGerard Roudier SCR_INT, 1339c5595f9dSGerard Roudier SIR_REJECT_TO_SEND, 1340c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1341c5595f9dSGerard Roudier 0, 1342c5595f9dSGerard Roudier SCR_JUMP, 1343c5595f9dSGerard Roudier PADDR_A (clrack), 1344c5595f9dSGerard Roudier }/*-------------------------< MSG_WEIRD >------------------------*/,{ 1345c5595f9dSGerard Roudier /* 1346c5595f9dSGerard Roudier * weird message received 1347c5595f9dSGerard Roudier * ignore all MSG IN phases and reject it. 1348c5595f9dSGerard Roudier */ 1349c5595f9dSGerard Roudier SCR_INT, 1350c5595f9dSGerard Roudier SIR_REJECT_TO_SEND, 1351c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1352c5595f9dSGerard Roudier 0, 1353c5595f9dSGerard Roudier }/*-------------------------< MSG_WEIRD1 >-----------------------*/,{ 1354c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1355c5595f9dSGerard Roudier 0, 1356c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)), 1357c5595f9dSGerard Roudier PADDR_A (dispatch), 1358c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_IN, 1359c5595f9dSGerard Roudier HADDR_1 (scratch), 1360c5595f9dSGerard Roudier SCR_JUMP, 1361c5595f9dSGerard Roudier PADDR_B (msg_weird1), 1362c5595f9dSGerard Roudier }/*-------------------------< WDTR_RESP >------------------------*/,{ 1363c5595f9dSGerard Roudier /* 1364c5595f9dSGerard Roudier * let the target fetch our answer. 1365c5595f9dSGerard Roudier */ 1366c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1367c5595f9dSGerard Roudier 0, 1368c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1369c5595f9dSGerard Roudier 0, 1370c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_OUT)), 1371c5595f9dSGerard Roudier PADDR_B (nego_bad_phase), 1372c5595f9dSGerard Roudier }/*-------------------------< SEND_WDTR >------------------------*/,{ 1373c5595f9dSGerard Roudier /* 1374c5595f9dSGerard Roudier * Send the M_X_WIDE_REQ 1375c5595f9dSGerard Roudier */ 1376c5595f9dSGerard Roudier SCR_MOVE_ABS (4) ^ SCR_MSG_OUT, 1377c5595f9dSGerard Roudier HADDR_1 (msgout), 1378c5595f9dSGerard Roudier SCR_JUMP, 1379c5595f9dSGerard Roudier PADDR_B (msg_out_done), 1380c5595f9dSGerard Roudier }/*-------------------------< SDTR_RESP >------------------------*/,{ 1381c5595f9dSGerard Roudier /* 1382c5595f9dSGerard Roudier * let the target fetch our answer. 1383c5595f9dSGerard Roudier */ 1384c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1385c5595f9dSGerard Roudier 0, 1386c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1387c5595f9dSGerard Roudier 0, 1388c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_OUT)), 1389c5595f9dSGerard Roudier PADDR_B (nego_bad_phase), 1390c5595f9dSGerard Roudier }/*-------------------------< SEND_SDTR >------------------------*/,{ 1391c5595f9dSGerard Roudier /* 1392c5595f9dSGerard Roudier * Send the M_X_SYNC_REQ 1393c5595f9dSGerard Roudier */ 1394c5595f9dSGerard Roudier SCR_MOVE_ABS (5) ^ SCR_MSG_OUT, 1395c5595f9dSGerard Roudier HADDR_1 (msgout), 1396c5595f9dSGerard Roudier SCR_JUMP, 1397c5595f9dSGerard Roudier PADDR_B (msg_out_done), 1398c5595f9dSGerard Roudier }/*-------------------------< PPR_RESP >-------------------------*/,{ 1399c5595f9dSGerard Roudier /* 1400c5595f9dSGerard Roudier * let the target fetch our answer. 1401c5595f9dSGerard Roudier */ 1402c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1403c5595f9dSGerard Roudier 0, 1404c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1405c5595f9dSGerard Roudier 0, 1406c5595f9dSGerard Roudier SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_OUT)), 1407c5595f9dSGerard Roudier PADDR_B (nego_bad_phase), 1408c5595f9dSGerard Roudier }/*-------------------------< SEND_PPR >-------------------------*/,{ 1409c5595f9dSGerard Roudier /* 1410c5595f9dSGerard Roudier * Send the M_X_PPR_REQ 1411c5595f9dSGerard Roudier */ 1412c5595f9dSGerard Roudier SCR_MOVE_ABS (8) ^ SCR_MSG_OUT, 1413c5595f9dSGerard Roudier HADDR_1 (msgout), 1414c5595f9dSGerard Roudier SCR_JUMP, 1415c5595f9dSGerard Roudier PADDR_B (msg_out_done), 1416c5595f9dSGerard Roudier }/*-------------------------< NEGO_BAD_PHASE >-------------------*/,{ 1417c5595f9dSGerard Roudier SCR_INT, 1418c5595f9dSGerard Roudier SIR_NEGO_PROTO, 1419c5595f9dSGerard Roudier SCR_JUMP, 1420c5595f9dSGerard Roudier PADDR_A (dispatch), 1421c5595f9dSGerard Roudier }/*-------------------------< MSG_OUT >--------------------------*/,{ 1422c5595f9dSGerard Roudier /* 1423c5595f9dSGerard Roudier * The target requests a message. 1424c5595f9dSGerard Roudier * We donnot send messages that may 1425c5595f9dSGerard Roudier * require the device to go to bus free. 1426c5595f9dSGerard Roudier */ 1427c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_OUT, 1428c5595f9dSGerard Roudier HADDR_1 (msgout), 1429c5595f9dSGerard Roudier /* 1430c5595f9dSGerard Roudier * ... wait for the next phase 1431c5595f9dSGerard Roudier * if it's a message out, send it again, ... 1432c5595f9dSGerard Roudier */ 1433c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (WHEN (SCR_MSG_OUT)), 1434c5595f9dSGerard Roudier PADDR_B (msg_out), 1435c5595f9dSGerard Roudier }/*-------------------------< MSG_OUT_DONE >---------------------*/,{ 1436c5595f9dSGerard Roudier /* 1437c5595f9dSGerard Roudier * Let the C code be aware of the 1438c5595f9dSGerard Roudier * sent message and clear the message. 1439c5595f9dSGerard Roudier */ 1440c5595f9dSGerard Roudier SCR_INT, 1441c5595f9dSGerard Roudier SIR_MSG_OUT_DONE, 1442c5595f9dSGerard Roudier /* 1443c5595f9dSGerard Roudier * ... and process the next phase 1444c5595f9dSGerard Roudier */ 1445c5595f9dSGerard Roudier SCR_JUMP, 1446c5595f9dSGerard Roudier PADDR_A (dispatch), 1447c5595f9dSGerard Roudier }/*-------------------------< DATA_OVRUN >-----------------------*/,{ 1448c5595f9dSGerard Roudier /* 1449c5595f9dSGerard Roudier * Use scratcha to count the extra bytes. 1450c5595f9dSGerard Roudier */ 1451c5595f9dSGerard Roudier SCR_LOAD_ABS (scratcha, 4), 1452c5595f9dSGerard Roudier PADDR_B (zero), 1453c5595f9dSGerard Roudier }/*-------------------------< DATA_OVRUN1 >----------------------*/,{ 1454c5595f9dSGerard Roudier /* 1455c5595f9dSGerard Roudier * The target may want to transfer too much data. 1456c5595f9dSGerard Roudier * 1457c5595f9dSGerard Roudier * If phase is DATA OUT write 1 byte and count it. 1458c5595f9dSGerard Roudier */ 1459c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (WHEN (SCR_DATA_OUT)), 1460c5595f9dSGerard Roudier 16, 1461c5595f9dSGerard Roudier SCR_CHMOV_ABS (1) ^ SCR_DATA_OUT, 1462c5595f9dSGerard Roudier HADDR_1 (scratch), 1463c5595f9dSGerard Roudier SCR_JUMP, 1464c5595f9dSGerard Roudier PADDR_B (data_ovrun2), 1465c5595f9dSGerard Roudier /* 1466c5595f9dSGerard Roudier * If WSR is set, clear this condition, and 1467c5595f9dSGerard Roudier * count this byte. 1468c5595f9dSGerard Roudier */ 1469c5595f9dSGerard Roudier SCR_FROM_REG (scntl2), 1470c5595f9dSGerard Roudier 0, 1471c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (MASK (WSR, WSR)), 1472c5595f9dSGerard Roudier 16, 1473c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_OR, WSR), 1474c5595f9dSGerard Roudier 0, 1475c5595f9dSGerard Roudier SCR_JUMP, 1476c5595f9dSGerard Roudier PADDR_B (data_ovrun2), 1477c5595f9dSGerard Roudier /* 1478c5595f9dSGerard Roudier * Finally check against DATA IN phase. 1479c5595f9dSGerard Roudier * Signal data overrun to the C code 1480c5595f9dSGerard Roudier * and jump to dispatcher if not so. 1481c5595f9dSGerard Roudier * Read 1 byte otherwise and count it. 1482c5595f9dSGerard Roudier */ 1483c5595f9dSGerard Roudier SCR_JUMPR ^ IFTRUE (WHEN (SCR_DATA_IN)), 1484c5595f9dSGerard Roudier 16, 1485c5595f9dSGerard Roudier SCR_INT, 1486c5595f9dSGerard Roudier SIR_DATA_OVERRUN, 1487c5595f9dSGerard Roudier SCR_JUMP, 1488c5595f9dSGerard Roudier PADDR_A (dispatch), 1489c5595f9dSGerard Roudier SCR_CHMOV_ABS (1) ^ SCR_DATA_IN, 1490c5595f9dSGerard Roudier HADDR_1 (scratch), 1491c5595f9dSGerard Roudier }/*-------------------------< DATA_OVRUN2 >----------------------*/,{ 1492c5595f9dSGerard Roudier /* 1493c5595f9dSGerard Roudier * Count this byte. 1494c5595f9dSGerard Roudier * This will allow to return a negative 1495c5595f9dSGerard Roudier * residual to user. 1496c5595f9dSGerard Roudier */ 1497c5595f9dSGerard Roudier SCR_REG_REG (scratcha, SCR_ADD, 0x01), 1498c5595f9dSGerard Roudier 0, 1499c5595f9dSGerard Roudier SCR_REG_REG (scratcha1, SCR_ADDC, 0), 1500c5595f9dSGerard Roudier 0, 1501c5595f9dSGerard Roudier SCR_REG_REG (scratcha2, SCR_ADDC, 0), 1502c5595f9dSGerard Roudier 0, 1503c5595f9dSGerard Roudier /* 1504c5595f9dSGerard Roudier * .. and repeat as required. 1505c5595f9dSGerard Roudier */ 1506c5595f9dSGerard Roudier SCR_JUMP, 1507c5595f9dSGerard Roudier PADDR_B (data_ovrun1), 1508c5595f9dSGerard Roudier }/*-------------------------< ABORT_RESEL >----------------------*/,{ 1509c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1510c5595f9dSGerard Roudier 0, 1511c5595f9dSGerard Roudier SCR_CLR (SCR_ACK), 1512c5595f9dSGerard Roudier 0, 1513c5595f9dSGerard Roudier /* 1514c5595f9dSGerard Roudier * send the abort/abortag/reset message 1515c5595f9dSGerard Roudier * we expect an immediate disconnect 1516c5595f9dSGerard Roudier */ 1517c5595f9dSGerard Roudier SCR_REG_REG (scntl2, SCR_AND, 0x7f), 1518c5595f9dSGerard Roudier 0, 1519c5595f9dSGerard Roudier SCR_MOVE_ABS (1) ^ SCR_MSG_OUT, 1520c5595f9dSGerard Roudier HADDR_1 (msgout), 1521c5595f9dSGerard Roudier SCR_CLR (SCR_ACK|SCR_ATN), 1522c5595f9dSGerard Roudier 0, 1523c5595f9dSGerard Roudier SCR_WAIT_DISC, 1524c5595f9dSGerard Roudier 0, 1525c5595f9dSGerard Roudier SCR_INT, 1526c5595f9dSGerard Roudier SIR_RESEL_ABORTED, 1527c5595f9dSGerard Roudier SCR_JUMP, 1528c5595f9dSGerard Roudier PADDR_A (start), 1529c5595f9dSGerard Roudier }/*-------------------------< RESEND_IDENT >---------------------*/,{ 1530c5595f9dSGerard Roudier /* 1531c5595f9dSGerard Roudier * The target stays in MSG OUT phase after having acked 1532c5595f9dSGerard Roudier * Identify [+ Tag [+ Extended message ]]. Targets shall 1533c5595f9dSGerard Roudier * behave this way on parity error. 1534c5595f9dSGerard Roudier * We must send it again all the messages. 1535c5595f9dSGerard Roudier */ 1536c5595f9dSGerard Roudier SCR_SET (SCR_ATN), /* Shall be asserted 2 deskew delays before the */ 1537c5595f9dSGerard Roudier 0, /* 1rst ACK = 90 ns. Hope the chip isn't too fast */ 1538c5595f9dSGerard Roudier SCR_JUMP, 1539c5595f9dSGerard Roudier PADDR_A (send_ident), 1540c5595f9dSGerard Roudier }/*-------------------------< IDENT_BREAK >----------------------*/,{ 1541c5595f9dSGerard Roudier SCR_CLR (SCR_ATN), 1542c5595f9dSGerard Roudier 0, 1543c5595f9dSGerard Roudier SCR_JUMP, 1544c5595f9dSGerard Roudier PADDR_A (select2), 1545c5595f9dSGerard Roudier }/*-------------------------< IDENT_BREAK_ATN >------------------*/,{ 1546c5595f9dSGerard Roudier SCR_SET (SCR_ATN), 1547c5595f9dSGerard Roudier 0, 1548c5595f9dSGerard Roudier SCR_JUMP, 1549c5595f9dSGerard Roudier PADDR_A (select2), 1550c5595f9dSGerard Roudier }/*-------------------------< SDATA_IN >-------------------------*/,{ 1551c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_IN, 1552c5595f9dSGerard Roudier offsetof (struct sym_dsb, sense), 1553c5595f9dSGerard Roudier SCR_CALL, 1554c5595f9dSGerard Roudier PADDR_A (datai_done), 1555c5595f9dSGerard Roudier SCR_JUMP, 1556c5595f9dSGerard Roudier PADDR_B (data_ovrun), 1557c5595f9dSGerard Roudier }/*-------------------------< RESEL_BAD_LUN >--------------------*/,{ 1558c5595f9dSGerard Roudier /* 1559c5595f9dSGerard Roudier * Message is an IDENTIFY, but lun is unknown. 1560c5595f9dSGerard Roudier * Signal problem to C code for logging the event. 1561c5595f9dSGerard Roudier * Send a M_ABORT to clear all pending tasks. 1562c5595f9dSGerard Roudier */ 1563c5595f9dSGerard Roudier SCR_INT, 1564c5595f9dSGerard Roudier SIR_RESEL_BAD_LUN, 1565c5595f9dSGerard Roudier SCR_JUMP, 1566c5595f9dSGerard Roudier PADDR_B (abort_resel), 1567c5595f9dSGerard Roudier }/*-------------------------< BAD_I_T_L >------------------------*/,{ 1568c5595f9dSGerard Roudier /* 1569c5595f9dSGerard Roudier * We donnot have a task for that I_T_L. 1570c5595f9dSGerard Roudier * Signal problem to C code for logging the event. 1571c5595f9dSGerard Roudier * Send a M_ABORT message. 1572c5595f9dSGerard Roudier */ 1573c5595f9dSGerard Roudier SCR_INT, 1574c5595f9dSGerard Roudier SIR_RESEL_BAD_I_T_L, 1575c5595f9dSGerard Roudier SCR_JUMP, 1576c5595f9dSGerard Roudier PADDR_B (abort_resel), 1577c5595f9dSGerard Roudier }/*-------------------------< BAD_I_T_L_Q >----------------------*/,{ 1578c5595f9dSGerard Roudier /* 1579c5595f9dSGerard Roudier * We donnot have a task that matches the tag. 1580c5595f9dSGerard Roudier * Signal problem to C code for logging the event. 1581c5595f9dSGerard Roudier * Send a M_ABORTTAG message. 1582c5595f9dSGerard Roudier */ 1583c5595f9dSGerard Roudier SCR_INT, 1584c5595f9dSGerard Roudier SIR_RESEL_BAD_I_T_L_Q, 1585c5595f9dSGerard Roudier SCR_JUMP, 1586c5595f9dSGerard Roudier PADDR_B (abort_resel), 1587c5595f9dSGerard Roudier }/*-------------------------< BAD_STATUS >-----------------------*/,{ 1588c5595f9dSGerard Roudier /* 1589c5595f9dSGerard Roudier * Anything different from INTERMEDIATE 1590c5595f9dSGerard Roudier * CONDITION MET should be a bad SCSI status, 1591c5595f9dSGerard Roudier * given that GOOD status has already been tested. 1592c5595f9dSGerard Roudier * Call the C code. 1593c5595f9dSGerard Roudier */ 1594c5595f9dSGerard Roudier SCR_LOAD_ABS (scratcha, 4), 1595c5595f9dSGerard Roudier PADDR_B (startpos), 1596c5595f9dSGerard Roudier SCR_INT ^ IFFALSE (DATA (S_COND_MET)), 1597c5595f9dSGerard Roudier SIR_BAD_SCSI_STATUS, 1598c5595f9dSGerard Roudier SCR_RETURN, 1599c5595f9dSGerard Roudier 0, 1600c5595f9dSGerard Roudier }/*-------------------------< PM_HANDLE >------------------------*/,{ 1601c5595f9dSGerard Roudier /* 1602c5595f9dSGerard Roudier * Phase mismatch handling. 1603c5595f9dSGerard Roudier * 1604c5595f9dSGerard Roudier * Since we have to deal with 2 SCSI data pointers 1605c5595f9dSGerard Roudier * (current and saved), we need at least 2 contexts. 1606c5595f9dSGerard Roudier * Each context (pm0 and pm1) has a saved area, a 1607c5595f9dSGerard Roudier * SAVE mini-script and a DATA phase mini-script. 1608c5595f9dSGerard Roudier */ 1609c5595f9dSGerard Roudier /* 1610c5595f9dSGerard Roudier * Get the PM handling flags. 1611c5595f9dSGerard Roudier */ 1612c5595f9dSGerard Roudier SCR_FROM_REG (HF_REG), 1613c5595f9dSGerard Roudier 0, 1614c5595f9dSGerard Roudier /* 1615c5595f9dSGerard Roudier * If no flags (1rst PM for example), avoid 1616c5595f9dSGerard Roudier * all the below heavy flags testing. 1617c5595f9dSGerard Roudier * This makes the normal case a bit faster. 1618c5595f9dSGerard Roudier */ 1619c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (0, (HF_IN_PM0 | HF_IN_PM1 | HF_DP_SAVED))), 1620c5595f9dSGerard Roudier PADDR_B (pm_handle1), 1621c5595f9dSGerard Roudier /* 1622c5595f9dSGerard Roudier * If we received a SAVE DP, switch to the 1623c5595f9dSGerard Roudier * other PM context since the savep may point 1624c5595f9dSGerard Roudier * to the current PM context. 1625c5595f9dSGerard Roudier */ 1626c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (MASK (HF_DP_SAVED, HF_DP_SAVED)), 1627c5595f9dSGerard Roudier 8, 1628c5595f9dSGerard Roudier SCR_REG_REG (sfbr, SCR_XOR, HF_ACT_PM), 1629c5595f9dSGerard Roudier 0, 1630c5595f9dSGerard Roudier /* 1631c5595f9dSGerard Roudier * If we have been interrupt in a PM DATA mini-script, 1632c5595f9dSGerard Roudier * we take the return address from the corresponding 1633c5595f9dSGerard Roudier * saved area. 1634c5595f9dSGerard Roudier * This ensure the return address always points to the 1635c5595f9dSGerard Roudier * main DATA script for this transfer. 1636c5595f9dSGerard Roudier */ 1637c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (0, (HF_IN_PM0 | HF_IN_PM1))), 1638c5595f9dSGerard Roudier PADDR_B (pm_handle1), 1639c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (MASK (HF_IN_PM0, HF_IN_PM0)), 1640c5595f9dSGerard Roudier 16, 1641c5595f9dSGerard Roudier SCR_LOAD_REL (ia, 4), 1642c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm0.ret), 1643c5595f9dSGerard Roudier SCR_JUMP, 1644c5595f9dSGerard Roudier PADDR_B (pm_save), 1645c5595f9dSGerard Roudier SCR_LOAD_REL (ia, 4), 1646c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm1.ret), 1647c5595f9dSGerard Roudier SCR_JUMP, 1648c5595f9dSGerard Roudier PADDR_B (pm_save), 1649c5595f9dSGerard Roudier }/*-------------------------< PM_HANDLE1 >-----------------------*/,{ 1650c5595f9dSGerard Roudier /* 1651c5595f9dSGerard Roudier * Normal case. 1652c5595f9dSGerard Roudier * Update the return address so that it 1653c5595f9dSGerard Roudier * will point after the interrupted MOVE. 1654c5595f9dSGerard Roudier */ 1655c5595f9dSGerard Roudier SCR_REG_REG (ia, SCR_ADD, 8), 1656c5595f9dSGerard Roudier 0, 1657c5595f9dSGerard Roudier SCR_REG_REG (ia1, SCR_ADDC, 0), 1658c5595f9dSGerard Roudier 0, 1659c5595f9dSGerard Roudier }/*-------------------------< PM_SAVE >--------------------------*/,{ 1660c5595f9dSGerard Roudier /* 1661c5595f9dSGerard Roudier * Clear all the flags that told us if we were 1662c5595f9dSGerard Roudier * interrupted in a PM DATA mini-script and/or 1663c5595f9dSGerard Roudier * we received a SAVE DP. 1664c5595f9dSGerard Roudier */ 1665c5595f9dSGerard Roudier SCR_SFBR_REG (HF_REG, SCR_AND, (~(HF_IN_PM0|HF_IN_PM1|HF_DP_SAVED))), 1666c5595f9dSGerard Roudier 0, 1667c5595f9dSGerard Roudier /* 1668c5595f9dSGerard Roudier * Choose the current PM context. 1669c5595f9dSGerard Roudier */ 1670c5595f9dSGerard Roudier SCR_JUMP ^ IFTRUE (MASK (HF_ACT_PM, HF_ACT_PM)), 1671c5595f9dSGerard Roudier PADDR_B (pm1_save), 1672c5595f9dSGerard Roudier }/*-------------------------< PM0_SAVE >-------------------------*/,{ 1673c5595f9dSGerard Roudier SCR_STORE_REL (ia, 4), 1674c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm0.ret), 1675c5595f9dSGerard Roudier /* 1676c5595f9dSGerard Roudier * If WSR bit is set, either UA and RBC may 1677c5595f9dSGerard Roudier * have to be changed whether the device wants 1678c5595f9dSGerard Roudier * to ignore this residue or not. 1679c5595f9dSGerard Roudier */ 1680c5595f9dSGerard Roudier SCR_FROM_REG (scntl2), 1681c5595f9dSGerard Roudier 0, 1682c5595f9dSGerard Roudier SCR_CALL ^ IFTRUE (MASK (WSR, WSR)), 1683c5595f9dSGerard Roudier PADDR_B (pm_wsr_handle), 1684c5595f9dSGerard Roudier /* 1685c5595f9dSGerard Roudier * Save the remaining byte count, the updated 1686c5595f9dSGerard Roudier * address and the return address. 1687c5595f9dSGerard Roudier */ 1688c5595f9dSGerard Roudier SCR_STORE_REL (rbc, 4), 1689c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm0.sg.size), 1690c5595f9dSGerard Roudier SCR_STORE_REL (ua, 4), 1691c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm0.sg.addr), 1692c5595f9dSGerard Roudier /* 1693c5595f9dSGerard Roudier * Set the current pointer at the PM0 DATA mini-script. 1694c5595f9dSGerard Roudier */ 1695c5595f9dSGerard Roudier SCR_LOAD_ABS (temp, 4), 1696c5595f9dSGerard Roudier PADDR_B (pm0_data_addr), 1697c5595f9dSGerard Roudier SCR_JUMP, 1698c5595f9dSGerard Roudier PADDR_A (dispatch), 1699c5595f9dSGerard Roudier }/*-------------------------< PM1_SAVE >-------------------------*/,{ 1700c5595f9dSGerard Roudier SCR_STORE_REL (ia, 4), 1701c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm1.ret), 1702c5595f9dSGerard Roudier /* 1703c5595f9dSGerard Roudier * If WSR bit is set, either UA and RBC may 1704c5595f9dSGerard Roudier * have to be changed whether the device wants 1705c5595f9dSGerard Roudier * to ignore this residue or not. 1706c5595f9dSGerard Roudier */ 1707c5595f9dSGerard Roudier SCR_FROM_REG (scntl2), 1708c5595f9dSGerard Roudier 0, 1709c5595f9dSGerard Roudier SCR_CALL ^ IFTRUE (MASK (WSR, WSR)), 1710c5595f9dSGerard Roudier PADDR_B (pm_wsr_handle), 1711c5595f9dSGerard Roudier /* 1712c5595f9dSGerard Roudier * Save the remaining byte count, the updated 1713c5595f9dSGerard Roudier * address and the return address. 1714c5595f9dSGerard Roudier */ 1715c5595f9dSGerard Roudier SCR_STORE_REL (rbc, 4), 1716c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm1.sg.size), 1717c5595f9dSGerard Roudier SCR_STORE_REL (ua, 4), 1718c5595f9dSGerard Roudier offsetof(struct sym_ccb, phys.pm1.sg.addr), 1719c5595f9dSGerard Roudier /* 1720c5595f9dSGerard Roudier * Set the current pointer at the PM1 DATA mini-script. 1721c5595f9dSGerard Roudier */ 1722c5595f9dSGerard Roudier SCR_LOAD_ABS (temp, 4), 1723c5595f9dSGerard Roudier PADDR_B (pm1_data_addr), 1724c5595f9dSGerard Roudier SCR_JUMP, 1725c5595f9dSGerard Roudier PADDR_A (dispatch), 1726c5595f9dSGerard Roudier }/*-------------------------< PM_WSR_HANDLE >--------------------*/,{ 1727c5595f9dSGerard Roudier /* 1728c5595f9dSGerard Roudier * Phase mismatch handling from SCRIPT with WSR set. 1729c5595f9dSGerard Roudier * Such a condition can occur if the chip wants to 1730c5595f9dSGerard Roudier * execute a CHMOV(size > 1) when the WSR bit is 1731c5595f9dSGerard Roudier * set and the target changes PHASE. 1732c5595f9dSGerard Roudier * 1733c5595f9dSGerard Roudier * We must move the residual byte to memory. 1734c5595f9dSGerard Roudier * 1735c5595f9dSGerard Roudier * UA contains bit 0..31 of the address to 1736c5595f9dSGerard Roudier * move the residual byte. 1737c5595f9dSGerard Roudier * Move it to the table indirect. 1738c5595f9dSGerard Roudier */ 1739c5595f9dSGerard Roudier SCR_STORE_REL (ua, 4), 1740c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.wresid.addr), 1741c5595f9dSGerard Roudier /* 1742c5595f9dSGerard Roudier * Increment UA (move address to next position). 1743c5595f9dSGerard Roudier */ 1744c5595f9dSGerard Roudier SCR_REG_REG (ua, SCR_ADD, 1), 1745c5595f9dSGerard Roudier 0, 1746c5595f9dSGerard Roudier SCR_REG_REG (ua1, SCR_ADDC, 0), 1747c5595f9dSGerard Roudier 0, 1748c5595f9dSGerard Roudier SCR_REG_REG (ua2, SCR_ADDC, 0), 1749c5595f9dSGerard Roudier 0, 1750c5595f9dSGerard Roudier SCR_REG_REG (ua3, SCR_ADDC, 0), 1751c5595f9dSGerard Roudier 0, 1752c5595f9dSGerard Roudier /* 1753c5595f9dSGerard Roudier * Compute SCRATCHA as: 1754c5595f9dSGerard Roudier * - size to transfer = 1 byte. 1755c5595f9dSGerard Roudier * - bit 24..31 = high address bit [32...39]. 1756c5595f9dSGerard Roudier */ 1757c5595f9dSGerard Roudier SCR_LOAD_ABS (scratcha, 4), 1758c5595f9dSGerard Roudier PADDR_B (zero), 1759c5595f9dSGerard Roudier SCR_REG_REG (scratcha, SCR_OR, 1), 1760c5595f9dSGerard Roudier 0, 1761c5595f9dSGerard Roudier SCR_FROM_REG (rbc3), 1762c5595f9dSGerard Roudier 0, 1763c5595f9dSGerard Roudier SCR_TO_REG (scratcha3), 1764c5595f9dSGerard Roudier 0, 1765c5595f9dSGerard Roudier /* 1766c5595f9dSGerard Roudier * Move this value to the table indirect. 1767c5595f9dSGerard Roudier */ 1768c5595f9dSGerard Roudier SCR_STORE_REL (scratcha, 4), 1769c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.wresid.size), 1770c5595f9dSGerard Roudier /* 1771c5595f9dSGerard Roudier * Wait for a valid phase. 1772c5595f9dSGerard Roudier * While testing with bogus QUANTUM drives, the C1010 1773c5595f9dSGerard Roudier * sometimes raised a spurious phase mismatch with 1774c5595f9dSGerard Roudier * WSR and the CHMOV(1) triggered another PM. 1775c5595f9dSGerard Roudier * Waiting explicitely for the PHASE seemed to avoid 1776c5595f9dSGerard Roudier * the nested phase mismatch. Btw, this didn't happen 1777c5595f9dSGerard Roudier * using my IBM drives. 1778c5595f9dSGerard Roudier */ 1779c5595f9dSGerard Roudier SCR_JUMPR ^ IFFALSE (WHEN (SCR_DATA_IN)), 1780c5595f9dSGerard Roudier 0, 1781c5595f9dSGerard Roudier /* 1782c5595f9dSGerard Roudier * Perform the move of the residual byte. 1783c5595f9dSGerard Roudier */ 1784c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_IN, 1785c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.wresid), 1786c5595f9dSGerard Roudier /* 1787c5595f9dSGerard Roudier * We can now handle the phase mismatch with UA fixed. 1788c5595f9dSGerard Roudier * RBC[0..23]=0 is a special case that does not require 1789c5595f9dSGerard Roudier * a PM context. The C code also checks against this. 1790c5595f9dSGerard Roudier */ 1791c5595f9dSGerard Roudier SCR_FROM_REG (rbc), 1792c5595f9dSGerard Roudier 0, 1793c5595f9dSGerard Roudier SCR_RETURN ^ IFFALSE (DATA (0)), 1794c5595f9dSGerard Roudier 0, 1795c5595f9dSGerard Roudier SCR_FROM_REG (rbc1), 1796c5595f9dSGerard Roudier 0, 1797c5595f9dSGerard Roudier SCR_RETURN ^ IFFALSE (DATA (0)), 1798c5595f9dSGerard Roudier 0, 1799c5595f9dSGerard Roudier SCR_FROM_REG (rbc2), 1800c5595f9dSGerard Roudier 0, 1801c5595f9dSGerard Roudier SCR_RETURN ^ IFFALSE (DATA (0)), 1802c5595f9dSGerard Roudier 0, 1803c5595f9dSGerard Roudier /* 1804c5595f9dSGerard Roudier * RBC[0..23]=0. 1805c5595f9dSGerard Roudier * Not only we donnot need a PM context, but this would 1806c5595f9dSGerard Roudier * lead to a bogus CHMOV(0). This condition means that 1807c5595f9dSGerard Roudier * the residual was the last byte to move from this CHMOV. 1808c5595f9dSGerard Roudier * So, we just have to move the current data script pointer 1809c5595f9dSGerard Roudier * (i.e. TEMP) to the SCRIPTS address following the 1810c5595f9dSGerard Roudier * interrupted CHMOV and jump to dispatcher. 1811c5595f9dSGerard Roudier */ 1812c5595f9dSGerard Roudier SCR_STORE_ABS (ia, 4), 1813c5595f9dSGerard Roudier PADDR_B (scratch), 1814c5595f9dSGerard Roudier SCR_LOAD_ABS (temp, 4), 1815c5595f9dSGerard Roudier PADDR_B (scratch), 1816c5595f9dSGerard Roudier SCR_JUMP, 1817c5595f9dSGerard Roudier PADDR_A (dispatch), 1818c5595f9dSGerard Roudier }/*-------------------------< WSR_MA_HELPER >--------------------*/,{ 1819c5595f9dSGerard Roudier /* 1820c5595f9dSGerard Roudier * Helper for the C code when WSR bit is set. 1821c5595f9dSGerard Roudier * Perform the move of the residual byte. 1822c5595f9dSGerard Roudier */ 1823c5595f9dSGerard Roudier SCR_CHMOV_TBL ^ SCR_DATA_IN, 1824c5595f9dSGerard Roudier offsetof (struct sym_ccb, phys.wresid), 1825c5595f9dSGerard Roudier SCR_JUMP, 1826c5595f9dSGerard Roudier PADDR_A (dispatch), 1827c5595f9dSGerard Roudier }/*-------------------------< ZERO >-----------------------------*/,{ 1828c5595f9dSGerard Roudier SCR_DATA_ZERO, 1829c5595f9dSGerard Roudier }/*-------------------------< SCRATCH >--------------------------*/,{ 1830c5595f9dSGerard Roudier SCR_DATA_ZERO, 1831c5595f9dSGerard Roudier }/*-------------------------< PM0_DATA_ADDR >--------------------*/,{ 1832c5595f9dSGerard Roudier SCR_DATA_ZERO, 1833c5595f9dSGerard Roudier }/*-------------------------< PM1_DATA_ADDR >--------------------*/,{ 1834c5595f9dSGerard Roudier SCR_DATA_ZERO, 1835c5595f9dSGerard Roudier }/*-------------------------< SAVED_DSA >------------------------*/,{ 1836c5595f9dSGerard Roudier SCR_DATA_ZERO, 1837c5595f9dSGerard Roudier }/*-------------------------< SAVED_DRS >------------------------*/,{ 1838c5595f9dSGerard Roudier SCR_DATA_ZERO, 1839c5595f9dSGerard Roudier }/*-------------------------< DONE_POS >-------------------------*/,{ 1840c5595f9dSGerard Roudier SCR_DATA_ZERO, 1841c5595f9dSGerard Roudier }/*-------------------------< STARTPOS >-------------------------*/,{ 1842c5595f9dSGerard Roudier SCR_DATA_ZERO, 1843c5595f9dSGerard Roudier }/*-------------------------< TARGTBL >--------------------------*/,{ 1844c5595f9dSGerard Roudier SCR_DATA_ZERO, 1845c5595f9dSGerard Roudier 1846c5595f9dSGerard Roudier }/*-------------------------< SNOOPTEST >------------------------*/,{ 1847c5595f9dSGerard Roudier /* 1848c5595f9dSGerard Roudier * Read the variable from memory. 1849c5595f9dSGerard Roudier */ 1850c5595f9dSGerard Roudier SCR_LOAD_REL (scratcha, 4), 1851c5595f9dSGerard Roudier offsetof(struct sym_hcb, cache), 1852c5595f9dSGerard Roudier /* 1853c5595f9dSGerard Roudier * Write the variable to memory. 1854c5595f9dSGerard Roudier */ 1855c5595f9dSGerard Roudier SCR_STORE_REL (temp, 4), 1856c5595f9dSGerard Roudier offsetof(struct sym_hcb, cache), 1857c5595f9dSGerard Roudier /* 1858c5595f9dSGerard Roudier * Read back the variable from memory. 1859c5595f9dSGerard Roudier */ 1860c5595f9dSGerard Roudier SCR_LOAD_REL (temp, 4), 1861c5595f9dSGerard Roudier offsetof(struct sym_hcb, cache), 1862c5595f9dSGerard Roudier }/*-------------------------< SNOOPEND >-------------------------*/,{ 1863c5595f9dSGerard Roudier /* 1864c5595f9dSGerard Roudier * And stop. 1865c5595f9dSGerard Roudier */ 1866c5595f9dSGerard Roudier SCR_INT, 1867c5595f9dSGerard Roudier 99, 1868c5595f9dSGerard Roudier }/*-------------------------<>-----------------------------------*/ 1869c5595f9dSGerard Roudier }; 1870