1 /* $OpenBSD: czreg.h,v 1.3 2022/01/09 05:42:45 jsg Exp $ */ 2 /* $NetBSD$ */ 3 4 /*- 5 * Copyright (c) 2000 Zembu Labs, Inc. 6 * All rights reserved. 7 * 8 * Author: Jason R. Thorpe <thorpej@zembu.com> 9 * 10 * Redistribution and use in source and binary forms, with or without 11 * modification, are permitted provided that the following conditions 12 * are met: 13 * 1. Redistributions of source code must retain the above copyright 14 * notice, this list of conditions and the following disclaimer. 15 * 2. Redistributions in binary form must reproduce the above copyright 16 * notice, this list of conditions and the following disclaimer in the 17 * documentation and/or other materials provided with the distribution. 18 * 3. All advertising materials mentioning features or use of this software 19 * must display the following acknowledgement: 20 * This product includes software developed by Zembu Labs, Inc. 21 * 4. Neither the name of Zembu Labs nor the names of its employees may 22 * be used to endorse or promote products derived from this software 23 * without specific prior written permission. 24 * 25 * THIS SOFTWARE IS PROVIDED BY ZEMBU LABS, INC. ``AS IS'' AND ANY EXPRESS 26 * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WAR- 27 * RANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DIS- 28 * CLAIMED. IN NO EVENT SHALL ZEMBU LABS BE LIABLE FOR ANY DIRECT, INDIRECT, 29 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 30 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 31 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 32 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 33 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 34 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 35 */ 36 37 /* 38 * Register and firmware communication definitions for the Cyclades 39 * Z series of multi-port serial adapters. 40 */ 41 42 /* 43 * The Cyclades-Z series is an intelligent multi-port serial controller 44 * comprised of: 45 * 46 * - PLX PCI9060ES PCI bus interface 47 * - Xilinx XC5204 FPGA 48 * - IDT R3052 MIPS CPU 49 * 50 * Communication is performed by modifying structures in board local 51 * RAM or in host RAM. We define offsets into these structures so 52 * that either access method may be used. 53 * 54 * The Cyclades-Z comes in three basic flavors: 55 * 56 * - Cyclades-8Zo rev 1 -- This is an older 8-port board with no 57 * FPGA. 58 * 59 * - Cyclades-8Zo rev 2 -- This is the newer 8-port board, which 60 * uses an octopus cable. 61 * 62 * - Cyclades-Ze -- This is the top-of-the-line of the Cyclades 63 * multiport serial controllers. It uses a SCSI-2 cable to 64 * connect the card to a rack-mountable serial expansion box 65 * (1U high). Each box has 16 RJ45 serial ports, and up to 66 * 4 boxes can be chained together, for a total of 64 ports. 67 * Up to 2 boxes can be used without an extra power supply. 68 * Boxes 3 and 4 require their own external power supply, 69 * otherwise the firmware will refuse to start (as it cannot 70 * communicate with the UARTs in the boxes). 71 * 72 * The 8Zo flavors have not been tested, tho the programming interface 73 * is identical (except for the firmware load phase of the 8Zo rev 1; 74 * no FPGA load is done in that case), so they should work. 75 */ 76 77 /* 78 * PLX Local Address Base values for the board RAM and FPGA registers. 79 * 80 * These values are specific to the Cyclades-Z. 81 */ 82 #define LOCAL_ADDR0_RAM (0x00000000 | LASBA_ENABLE) 83 #define LOCAL_ADDR0_FPGA (0x14000000 | LASBA_ENABLE) 84 85 /* 86 * PLX Mailbox0 values. 87 * 88 * These values are specific to the Cyclades-Z. 89 */ 90 #define MAILBOX0_8Zo_V1 0 /* Cyclades-8Zo ver. 1 */ 91 #define MAILBOX0_8Zo_V2 1 /* Cyclades-8Zo ver. 2 */ 92 #define MAILBOX0_Ze_V1 2 /* Cyclades-Ze ver. 1 */ 93 94 /* 95 * Bits in the PLX INIT_CTRL register. 96 * 97 * These values are specific to the Cyclades-Z. 98 */ 99 #define CONTROL_FPGA_LOADED CONTROL_GPI 100 101 /* 102 * FPGA registers on the 8Zo boards. 103 */ 104 #define FPGA_ID 0x00 /* FPGA ID */ 105 #define FPGA_VERSION 0x04 /* FPGA version */ 106 #define FPGA_CPU_START 0x08 /* CPU start */ 107 #define FPGA_CPU_STOP 0x0c /* CPU stop */ 108 #define FPGA_MISC 0x10 /* Misc. register */ 109 #define FPGA_IDT_MODE 0x14 /* IDT MIPS R3000 mode */ 110 #define FPGA_UART_IRQ_STAT 0x18 /* UART interrupt status */ 111 #define FPGA_CLEAR_TIMER0_IRQ 0x1c /* clear timer 0 interrupt */ 112 #define FPGA_CLEAR_TIMER1_IRQ 0x20 /* clear timer 1 interrupt */ 113 #define FPGA_CLEAR_TIMER2_IRQ 0x24 /* clear timer 3 interrupt */ 114 #define FPGA_TEST 0x28 /* test register */ 115 #define FPGA_TEST_COUNT 0x2c /* test count register */ 116 #define FPGA_TIMER_SELECT 0x30 /* timer select */ 117 #define FPGA_PR_UART_IRQ_STAT 0x34 /* prioritized UART interrupt status */ 118 #define FPGA_RAM_WAIT_STATE 0x38 /* RAM wait state */ 119 #define FPGA_UART_WAIT_STATE 0x3c /* UART wait state */ 120 #define FPGA_TIMER_WAIT_STATE 0x40 /* timer wait state */ 121 #define FPGA_ACK_WAIT_STATE 0x44 /* ACK wait state */ 122 123 /* 124 * FPGA registers on the Ze boards. Note that the important registers 125 * (FPGA_ID, FPGA_VERSION, FPGA_CPU_START, FPGA_CPU_STOP) are all in the 126 * same place as on the 8Zo boards, and have the same meanings. 127 */ 128 #define FPGA_ZE_ID 0x00 /* FPGA ID */ 129 #define FPGA_ZE_VERSION 0x04 /* FPGA version */ 130 #define FPGA_ZE_CPU_START 0x08 /* CPU start */ 131 #define FPGA_ZE_CPU_STOP 0x0c /* CPU stop */ 132 #define FPGA_ZE_CTRL 0x10 /* CPU control */ 133 #define FPGA_ZE_ZBUS_WAIT 0x14 /* Z-Bus wait state */ 134 #define FPGA_ZE_TIMER_DIV 0x18 /* timer divisor */ 135 #define FPGA_ZE_TIMER_IRQ_ACK 0x1c /* timer interrupt ACK */ 136 137 /* 138 * Values for FPGA ID. 139 */ 140 #define FPGA_ID_8Zo_V1 0x95 /* Cyclades-8Zo ver. 1 */ 141 #define FPGA_ID_8Zo_V2 0x84 /* Cyclades-8Zo ver. 2 */ 142 #define FPGA_ID_Ze_V1 0x89 /* Cyclades-Ze ver. 1 */ 143 144 /* 145 * Values for Cyclades-Ze timer divisor. 146 */ 147 #define ZE_TIMER_DIV_1M 0x00 148 #define ZE_TIMER_DIV_256K 0x01 149 #define ZE_TIMER_DIV_128K 0x02 150 #define ZE_TIMER_DIV_32K 0x03 151 152 /* 153 * Firmware interface starts here. 154 * 155 * These values are valid for the following Cyclades-Z firmware: 156 * 157 * @(#) Copyright (c) Cyclades Corporation, 1996, 1999 158 * @(#) ZFIRM Cyclades-Z/PCI Firmware V_3.3.1 09/24/99 159 */ 160 161 /* 162 * Structure of the firmware header. 163 */ 164 #define ZFIRM_MAX_BLOCKS 16 /* max. # of firmware/FPGA blocks */ 165 struct zfirm_header { 166 u_int8_t zfh_name[64]; 167 u_int8_t zfh_date[32]; 168 u_int8_t zfh_aux[32]; 169 u_int32_t zfh_nconfig; 170 u_int32_t zfh_configoff; 171 u_int32_t zfh_nblocks; 172 u_int32_t zfh_blockoff; 173 u_int32_t zfh_reserved[9]; 174 } __packed; 175 176 struct zfirm_config { 177 u_int8_t zfc_name[64]; 178 u_int32_t zfc_mailbox; 179 u_int32_t zfc_function; 180 u_int32_t zfc_nblocks; 181 u_int32_t zfc_blocklist[ZFIRM_MAX_BLOCKS]; 182 } __packed; 183 184 #define ZFC_FUNCTION_NORMAL 0 /* normal operation */ 185 #define ZFC_FUNCTION_TEST 1 /* test mode operation */ 186 187 struct zfirm_block { 188 u_int32_t zfb_type; 189 u_int32_t zfb_fileoff; 190 u_int32_t zfb_ramoff; 191 u_int32_t zfb_size; 192 } __packed; 193 194 #define ZFB_TYPE_FIRMWARE 0 /* MIPS firmware */ 195 #define ZFB_TYPE_FPGA 1 /* FPGA code */ 196 197 #define ZFIRM_MAX_CHANNELS 64 /* max. # channels per board */ 198 199 /* 200 * Firmware ID structure, which the firmware sets up after it boots. 201 */ 202 #define ZFIRM_SIG_OFF 0x00000180 /* offset of signature in board RAM */ 203 #define ZFIRM_CTRLADDR_OFF 0x00000184 /* offset of offset of control 204 structure */ 205 #define ZFIRM_SIG 0x5557465A /* ZFIRM signature */ 206 #define ZFIRM_HLT 0x59505B5C /* Halt due to power problem */ 207 #define ZFIRM_RST 0x56040674 /* Firmware reset */ 208 209 /* 210 * The firmware control structures are made up of the following: 211 * 212 * BOARD CONTROL (64 bytes) 213 * CHANNEL CONTROL (96 bytes * ZFIRM_MAX_CHANNELS) 214 * BUFFER CONTROL (64 bytes * ZFIRM_MAX_CHANNELS) 215 */ 216 217 #define ZFIRM_BRDCTL_SIZE 64 218 #define ZFIRM_CHNCTL_SIZE 96 219 #define ZFIRM_BUFCTL_SIZE 64 220 221 #define ZFIRM_CHNCTL_OFF(chan, reg) \ 222 (ZFIRM_BRDCTL_SIZE + ((chan) * ZFIRM_CHNCTL_SIZE) + (reg)) 223 #define ZFIRM_BUFCTL_OFF(chan, reg) \ 224 (ZFIRM_CHNCTL_OFF(ZFIRM_MAX_CHANNELS, 0) + \ 225 ((chan) * ZFIRM_BUFCTL_SIZE) + (reg)) 226 227 /* 228 * Offsets in the BOARD CONTROL structure. 229 */ 230 /* static info provided by MIPS */ 231 #define BRDCTL_NCHANNEL 0x00 /* number of channels */ 232 #define BRDCTL_FWVERSION 0x04 /* firmware version */ 233 /* static info provided by driver */ 234 #define BRDCTL_C_OS 0x08 /* operating system ID */ 235 #define BRDCTL_DRVERSION 0x0c /* driver version */ 236 /* board control area */ 237 #define BRDCTL_INACTIVITY 0x10 /* inactivity control */ 238 /* host to firmware commands */ 239 #define BRDCTL_HCMD_CHANNEL 0x14 /* channel number */ 240 #define BRDCTL_HCMD_PARAM 0x18 /* parameter */ 241 /* firmware to host commands */ 242 #define BRDCTL_FWCMD_CHANNEL 0x1c /* channel number */ 243 #define BRDCTL_FWCMD_PARAM 0x20 /* parameter */ 244 #define BRDCTL_INT_QUEUE_OFF 0x24 /* offset to INT_QUEUE structure */ 245 246 /* 247 * Offsets in the CHANNEL CONTROL structure. 248 */ 249 #define CHNCTL_OP_MODE 0x00 /* operation mode */ 250 #define CHNCTL_INTR_ENABLE 0x04 /* interrupt making for UART */ 251 #define CHNCTL_SW_FLOW 0x08 /* SW flow control */ 252 #define CHNCTL_FLOW_STATUS 0x0c /* output flow status */ 253 #define CHNCTL_COMM_BAUD 0x10 /* baud rate -- numerically specified */ 254 #define CHNCTL_COMM_PARITY 0x14 /* parity */ 255 #define CHNCTL_COMM_DATA_L 0x18 /* data length/stop */ 256 #define CHNCTL_COMM_FLAGS 0x1c /* other flags */ 257 #define CHNCTL_HW_FLOW 0x20 /* HW flow control */ 258 #define CHNCTL_RS_CONTROL 0x24 /* RS-232 outputs */ 259 #define CHNCTL_RS_STATUS 0x28 /* RS-232 inputs */ 260 #define CHNCTL_FLOW_XON 0x2c /* XON character */ 261 #define CHNCTL_FLOW_XOFF 0x30 /* XOFF character */ 262 #define CHNCTL_HW_OVERFLOW 0x34 /* HW overflow counter */ 263 #define CHNCTL_SW_OVERFLOW 0x38 /* SW overflow counter */ 264 #define CHNCTL_COMM_ERROR 0x3c /* frame/parity error counter */ 265 #define CHNCTL_ICHAR 0x40 /* special interrupt character */ 266 267 /* 268 * Offsets in the BUFFER CONTROL structure. 269 */ 270 #define BUFCTL_FLAG_DMA 0x00 /* buffers are in Host memory */ 271 #define BUFCTL_TX_BUFADDR 0x04 /* address of Tx buffer */ 272 #define BUFCTL_TX_BUFSIZE 0x08 /* size of Tx buffer */ 273 #define BUFCTL_TX_THRESHOLD 0x0c /* Tx low water mark */ 274 #define BUFCTL_TX_GET 0x10 /* tail index Tx buf */ 275 #define BUFCTL_TX_PUT 0x14 /* head index Tx buf */ 276 #define BUFCTL_RX_BUFADDR 0x18 /* address of Rx buffer */ 277 #define BUFCTL_RX_BUFSIZE 0x1c /* size of Rx buffer */ 278 #define BUFCTL_RX_THRESHOLD 0x20 /* Rx high water mark */ 279 #define BUFCTL_RX_GET 0x24 /* tail index Rx buf */ 280 #define BUFCTL_RX_PUT 0x28 /* head index Rx buf */ 281 282 /* Values for operating system ID (BOARD CONTROL) */ 283 #define C_OS_SVR3 0x00000010 /* generic SVR3 */ 284 #define C_OS_XENIX 0x00000011 /* SCO XENIX */ 285 #define C_OS_SCO 0x00000012 /* SCO SVR3 */ 286 #define C_OS_SVR4 0x00000020 /* generic SVR4 */ 287 #define C_OS_UXWARE 0x00000021 /* UnixWare */ 288 #define C_OS_LINUX 0x00000030 /* Linux */ 289 #define C_OS_SOLARIS 0x00000040 /* Solaris */ 290 #define C_OS_BSD 0x00000050 /* generic BSD */ 291 #define C_OS_DOS 0x00000070 /* generic DOS */ 292 #define C_OS_NT 0x00000080 /* Windows NT */ 293 #define C_OS_OS2 0x00000090 /* IBM OS/2 */ 294 #define C_OS_MACOS 0x000000a0 /* MacOS */ 295 #define C_OS_AIX 0x000000b0 /* IBM AIX */ 296 297 /* Values for op_mode (CHANNEL CONTROL) */ 298 #define C_CH_DISABLE 0x00000000 /* channel is disabled */ 299 #define C_CH_TXENABLE 0x00000001 /* channel Tx enabled */ 300 #define C_CH_RXENABLE 0x00000002 /* channel Rx enabled */ 301 #define C_CH_ENABLE 0x00000003 /* channel Tx/Rx enabled */ 302 #define C_CH_LOOPBACK 0x00000004 /* Loopback mode */ 303 304 /* Values for comm_parity (CHANNEL CONTROL) */ 305 #define C_PR_NONE 0x00000000 /* None */ 306 #define C_PR_ODD 0x00000001 /* Odd */ 307 #define C_PR_EVEN 0x00000002 /* Even */ 308 #define C_PR_MARK 0x00000004 /* Mark */ 309 #define C_PR_SPACE 0x00000008 /* Space */ 310 #define C_PR_PARITY 0x000000ff 311 #define C_PR_DISCARD 0x00000100 /* discard char with 312 frame/parity error */ 313 #define C_PR_IGNORE 0x00000200 /* ignore frame/par error */ 314 315 /* Values for comm_data_l (CHANNEL CONTROL) */ 316 #define C_DL_CS5 0x00000001 317 #define C_DL_CS6 0x00000002 318 #define C_DL_CS7 0x00000004 319 #define C_DL_CS8 0x00000008 320 #define C_DL_CS 0x0000000f 321 #define C_DL_1STOP 0x00000010 322 #define C_DL_15STOP 0x00000020 323 #define C_DL_2STOP 0x00000040 324 #define C_DL_STOP 0x000000f0 325 326 /* Values for intr_enable (CHANNEL CONTROL) */ 327 #define C_IN_DISABLE 0x00000000 /* zero, disable interrupts */ 328 #define C_IN_TXBEMPTY 0x00000001 /* tx buffer empty */ 329 #define C_IN_TXLOWWM 0x00000002 /* tx buffer below LWM */ 330 #define C_IN_TXFEMPTY 0x00000004 /* tx buffer + FIFO + 331 shift reg. empty */ 332 #define C_IN_RXHIWM 0x00000010 /* rx buffer above HWM */ 333 #define C_IN_RXNNDT 0x00000020 /* rx no new data timeout */ 334 #define C_IN_MDCD 0x00000100 /* modem DCD change */ 335 #define C_IN_MDSR 0x00000200 /* modem DSR change */ 336 #define C_IN_MRI 0x00000400 /* modem RI change */ 337 #define C_IN_MCTS 0x00000800 /* modem CTS change */ 338 #define C_IN_RXBRK 0x00001000 /* Break received */ 339 #define C_IN_PR_ERROR 0x00002000 /* parity error */ 340 #define C_IN_FR_ERROR 0x00004000 /* frame error */ 341 #define C_IN_OVR_ERROR 0x00008000 /* overrun error */ 342 #define C_IN_RXOFL 0x00010000 /* RX buffer overflow */ 343 #define C_IN_IOCTLW 0x00020000 /* I/O control w/ wait */ 344 #define C_IN_MRTS 0x00040000 /* modem RTS drop */ 345 #define C_IN_ICHAR 0x00080000 /* special intr. char 346 received */ 347 348 /* Values for flow control (CHANNEL CONTROL) */ 349 #define C_FL_OXX 0x00000001 /* output Xon/Xoff flow 350 control */ 351 #define C_FL_IXX 0x00000002 /* input Xon/Xoff flow 352 control */ 353 #define C_FL_OIXANY 0x00000004 /* output Xon/Xoff (any xon) */ 354 #define C_FL_SWFLOW 0x0000000f 355 356 /* Values for flow status (CHANNEL CONTROL) */ 357 #define C_FS_TXIDLE 0x00000000 /* no Tx data in the buffer 358 or UART */ 359 #define C_FS_SENDING 0x00000001 /* UART is sending data */ 360 #define C_FS_SWFLOW 0x00000002 /* Tx is stopped by received 361 Xoff */ 362 363 /* Values for RS-232 signals (CHANNEL CONTROL) */ 364 #define C_RS_PARAM 0x80000000 /* indicates presence of 365 parameter in IOCTL command */ 366 #define C_RS_RTS 0x00000001 /* RTS */ 367 #define C_RS_DTR 0x00000004 /* DTR */ 368 #define C_RS_DCD 0x00000100 /* CD */ 369 #define C_RS_DSR 0x00000200 /* DSR */ 370 #define C_RS_RI 0x00000400 /* RI */ 371 #define C_RS_CTS 0x00000800 /* CTS */ 372 373 /* Commands Host <--> Board */ 374 #define C_CM_RESET 0x01 /* resets/flushes buffers */ 375 #define C_CM_IOCTL 0x02 /* re-reads CH_CTRL */ 376 #define C_CM_IOCTLW 0x03 /* re-reads CH_CTRL, intr when done */ 377 #define C_CM_IOCTLM 0x04 /* RS-232 outputs change */ 378 #define C_CM_SENDXOFF 0x10 /* sends Xoff */ 379 #define C_CM_SENDXON 0x11 /* sends Xon */ 380 #define C_CM_CLFLOW 0x12 /* Clears flow control (resume) */ 381 #define C_CM_SENDBRK 0x41 /* sends break */ 382 #define C_CM_INTBACK 0x42 /* Interrupt back */ 383 #define C_CM_SET_BREAK 0x43 /* Tx break on */ 384 #define C_CM_CLR_BREAK 0x44 /* Tx break off */ 385 #define C_CM_CMD_DONE 0x45 /* Previous command done */ 386 #define C_CM_INTBACK2 0x46 /* Alternate Interrupt back */ 387 #define C_CM_TINACT 0x51 /* sets inactivity detection */ 388 #define C_CM_IRQ_ENBL 0x52 /* enables generation of interrupts */ 389 #define C_CM_IRQ_DSBL 0x53 /* disables generation of interrupts */ 390 #define C_CM_ACK_ENBL 0x54 /* enables acknowledged interrupt 391 mode */ 392 #define C_CM_ACK_DSBL 0x55 /* disables acknowledged intr mode */ 393 #define C_CM_FLUSH_RX 0x56 /* flushes Rx buffer */ 394 #define C_CM_FLUSH_TX 0x57 /* flushes Tx buffer */ 395 #define C_CM_Q_ENABLE 0x58 /* enables queue access from the 396 driver */ 397 #define C_CM_Q_DISABLE 0x59 /* disables queue access from the 398 driver */ 399 #define C_CM_TXBEMPTY 0x60 /* Tx buffer is empty */ 400 #define C_CM_TXLOWWM 0x61 /* Tx buffer low water mark */ 401 #define C_CM_RXHIWM 0x62 /* Rx buffer high water mark */ 402 #define C_CM_RXNNDT 0x63 /* rx no new data timeout */ 403 #define C_CM_TXFEMPTY 0x64 /* Tx buffer, FIFO and shift reg. 404 are empty */ 405 #define C_CM_ICHAR 0x65 /* Special Interrupt Character 406 received */ 407 #define C_CM_MDCD 0x70 /* modem DCD change */ 408 #define C_CM_MDSR 0x71 /* modem DSR change */ 409 #define C_CM_MRI 0x72 /* modem RI change */ 410 #define C_CM_MCTS 0x73 /* modem CTS change */ 411 #define C_CM_MRTS 0x74 /* modem RTS drop */ 412 #define C_CM_RXBRK 0x84 /* Break received */ 413 #define C_CM_PR_ERROR 0x85 /* Parity error */ 414 #define C_CM_FR_ERROR 0x86 /* Frame error */ 415 #define C_CM_OVR_ERROR 0x87 /* Overrun error */ 416 #define C_CM_RXOFL 0x88 /* RX buffer overflow */ 417 #define C_CM_CMDERROR 0x90 /* command error */ 418 #define C_CM_FATAL 0x91 /* fatal error */ 419 #define C_CM_HW_RESET 0x92 /* reset board */ 420