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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [i386/] [pc386/] [3c509/] [3c509.h] - Rev 493
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/* * Copyright (c) 1993 Herb Peyerl (hpeyerl@novatel.ca) All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. 2. The name * of the author may not be used to endorse or promote products derived from * this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * if_epreg.h,v 1.4 1994/11/13 10:12:37 gibbs Exp Modified by: * October 2, 1994 Modified by: Andres Vega Garcia INRIA - Sophia Antipolis, France e-mail: avega@sophia.inria.fr finger: avega@pax.inria.fr */ /* * $Id: 3c509.h,v 1.2 2001-09-27 11:59:47 chris Exp $ * * Promiscuous mode added and interrupt logic slightly changed * to reduce the number of adapter failures. Transceiver select * logic changed to use value from EEPROM. Autoconfiguration * features added. * Done by: * Serge Babkin * Chelindbank (Chelyabinsk, Russia) * babkin@hq.icb.chel.su */ /* * Pccard support for 3C589 by: * HAMADA Naoki * nao@tom-yam.or.jp */ /* typedef unsigned short u_short; typedef unsigned long u_long; typedef unsigned char u_char; */ /* * Some global constants */ #define F_RX_FIRST 0x1 #define F_PROMISC 0x8 #define F_ACCESS_32_BITS 0x100 #define TX_INIT_RATE 16 #define TX_INIT_MAX_RATE 64 #define RX_INIT_LATENCY 64 #define RX_INIT_EARLY_THRESH 208 /* not less than MINCLSIZE */ #define RX_NEXT_EARLY_THRESH 500 #define EEPROMSIZE 0x40 #define MAX_EEPROMBUSY 1000 #define EP_LAST_TAG 0xd7 #define EP_MAX_BOARDS 16 /* * This `ID' port is a mere hack. There's currently no chance to register * it with config's idea of the ports that are in use. * * "After the automatic configuration is completed, the IDS is in its initial * state (ID-WAIT), and it monitors all write access to I/O port 01x0h, where * 'x' is any hex digit. If a zero is written to any one of these ports, then * that address is remembered and becomes the ID port. A second zero written * to that port resets the ID sequence to its initial state. The IDS watches * for the ID sequence to be written to the ID port." * * We prefer 0x110 over 0x100 so to not conflict with the Plaque&Pray * ports. */ #define EP_ID_PORT 0x110 #define EP_IOSIZE 16 /* 16 bytes of I/O space used. */ /* * some macros to acces long named fields */ #define IS_BASE (is->id_iobase) #define BASE (sc->ep_io_addr) /* * Commands to read/write EEPROM trough EEPROM command register (Window 0, * Offset 0xa) */ #define EEPROM_CMD_RD 0x0080 /* Read: Address required (5 bits) */ #define EEPROM_CMD_WR 0x0040 /* Write: Address required (5 bits) */ #define EEPROM_CMD_ERASE 0x00c0 /* Erase: Address required (5 bits) */ #define EEPROM_CMD_EWEN 0x0030 /* Erase/Write Enable: No data required */ #define EEPROM_BUSY (1<<15) #define EEPROM_TST_MODE (1<<14) /* * Some short functions, worth to let them be a macro */ #define is_eeprom_busy(b) (inw((b)+EP_W0_EEPROM_COMMAND)&EEPROM_BUSY) #define GO_WINDOW(x) outw(BASE+EP_COMMAND, WINDOW_SELECT|(x)) /************************************************************************** * * * These define the EEPROM data structure. They are used in the probe * function to verify the existence of the adapter after having sent * the ID_Sequence. * * There are others but only the ones we use are defined here. * **************************************************************************/ #define EEPROM_NODE_ADDR_0 0x0 /* Word */ #define EEPROM_NODE_ADDR_1 0x1 /* Word */ #define EEPROM_NODE_ADDR_2 0x2 /* Word */ #define EEPROM_PROD_ID 0x3 /* 0x9[0-f]50 */ #define EEPROM_MFG_ID 0x7 /* 0x6d50 */ #define EEPROM_ADDR_CFG 0x8 /* Base addr */ #define EEPROM_RESOURCE_CFG 0x9 /* IRQ. Bits 12-15 */ /************************************************************************** * * * These are the registers for the 3Com 3c509 and their bit patterns when * * applicable. They have been taken out the the "EtherLink III Parallel * * Tasking EISA and ISA Technical Reference" "Beta Draft 10/30/92" manual * * from 3com. * * * **************************************************************************/ #define EP_COMMAND 0x0e /* Write. BASE+0x0e is always a * command reg. */ #define EP_STATUS 0x0e /* Read. BASE+0x0e is always status * reg. */ #define EP_WINDOW 0x0f /* Read. BASE+0x0f is always window * reg. */ /* * Window 0 registers. Setup. */ /* Write */ #define EP_W0_EEPROM_DATA 0x0c #define EP_W0_EEPROM_COMMAND 0x0a #define EP_W0_RESOURCE_CFG 0x08 #define EP_W0_ADDRESS_CFG 0x06 #define EP_W0_CONFIG_CTRL 0x04 /* Read */ #define EP_W0_PRODUCT_ID 0x02 #define EP_W0_MFG_ID 0x00 /* * Window 1 registers. Operating Set. */ /* Write */ #define EP_W1_TX_PIO_WR_2 0x02 #define EP_W1_TX_PIO_WR_1 0x00 /* Read */ #define EP_W1_FREE_TX 0x0c #define EP_W1_TX_STATUS 0x0b /* byte */ #define EP_W1_TIMER 0x0a /* byte */ #define EP_W1_RX_STATUS 0x08 #define EP_W1_RX_PIO_RD_2 0x02 #define EP_W1_RX_PIO_RD_1 0x00 /* * Window 2 registers. Station Address Setup/Read */ /* Read/Write */ #define EP_W2_ADDR_5 0x05 #define EP_W2_ADDR_4 0x04 #define EP_W2_ADDR_3 0x03 #define EP_W2_ADDR_2 0x02 #define EP_W2_ADDR_1 0x01 #define EP_W2_ADDR_0 0x00 /* * Window 3 registers. FIFO Management. */ /* Read */ #define EP_W3_FREE_TX 0x0c #define EP_W3_FREE_RX 0x0a /* * Window 4 registers. Diagnostics. */ /* Read/Write */ #define EP_W4_MEDIA_TYPE 0x0a #define EP_W4_CTRLR_STATUS 0x08 #define EP_W4_NET_DIAG 0x06 #define EP_W4_FIFO_DIAG 0x04 #define EP_W4_HOST_DIAG 0x02 #define EP_W4_TX_DIAG 0x00 /* * Window 5 Registers. Results and Internal status. */ /* Read */ #define EP_W5_READ_0_MASK 0x0c #define EP_W5_INTR_MASK 0x0a #define EP_W5_RX_FILTER 0x08 #define EP_W5_RX_EARLY_THRESH 0x06 #define EP_W5_TX_AVAIL_THRESH 0x02 #define EP_W5_TX_START_THRESH 0x00 /* * Window 6 registers. Statistics. */ /* Read/Write */ #define TX_TOTAL_OK 0x0c #define RX_TOTAL_OK 0x0a #define TX_DEFERRALS 0x08 #define RX_FRAMES_OK 0x07 #define TX_FRAMES_OK 0x06 #define RX_OVERRUNS 0x05 #define TX_COLLISIONS 0x04 #define TX_AFTER_1_COLLISION 0x03 #define TX_AFTER_X_COLLISIONS 0x02 #define TX_NO_SQE 0x01 #define TX_CD_LOST 0x00 /**************************************** * * Register definitions. * ****************************************/ /* * Command register. All windows. * * 16 bit register. * 15-11: 5-bit code for command to be executed. * 10-0: 11-bit arg if any. For commands with no args; * this can be set to anything. */ #define GLOBAL_RESET (u_short) 0x0000 /* Wait at least 1ms * after issuing */ #define WINDOW_SELECT (u_short) (0x1<<11) #define START_TRANSCEIVER (u_short) (0x2<<11) /* Read ADDR_CFG reg to * determine whether * this is needed. If * so; wait 800 uSec * before using trans- * ceiver. */ #define RX_DISABLE (u_short) (0x3<<11) /* state disabled on * power-up */ #define RX_ENABLE (u_short) (0x4<<11) #define RX_RESET (u_short) (0x5<<11) #define RX_DISCARD_TOP_PACK (u_short) (0x8<<11) #define TX_ENABLE (u_short) (0x9<<11) #define TX_DISABLE (u_short) (0xa<<11) #define TX_RESET (u_short) (0xb<<11) #define REQ_INTR (u_short) (0xc<<11) #define SET_INTR_MASK (u_short) (0xe<<11) #define SET_RD_0_MASK (u_short) (0xf<<11) #define SET_RX_FILTER (u_short) (0x10<<11) #define FIL_INDIVIDUAL (u_short) (0x1) #define FIL_GROUP (u_short) (0x2) #define FIL_BRDCST (u_short) (0x4) #define FIL_ALL (u_short) (0x8) #define SET_RX_EARLY_THRESH (u_short) (0x11<<11) #define SET_TX_AVAIL_THRESH (u_short) (0x12<<11) #define SET_TX_START_THRESH (u_short) (0x13<<11) #define STATS_ENABLE (u_short) (0x15<<11) #define STATS_DISABLE (u_short) (0x16<<11) #define STOP_TRANSCEIVER (u_short) (0x17<<11) /* * The following C_* acknowledge the various interrupts. Some of them don't * do anything. See the manual. */ #define ACK_INTR (u_short) (0x6800) #define C_INTR_LATCH (u_short) (ACK_INTR|0x1) #define C_CARD_FAILURE (u_short) (ACK_INTR|0x2) #define C_TX_COMPLETE (u_short) (ACK_INTR|0x4) #define C_TX_AVAIL (u_short) (ACK_INTR|0x8) #define C_RX_COMPLETE (u_short) (ACK_INTR|0x10) #define C_RX_EARLY (u_short) (ACK_INTR|0x20) #define C_INT_RQD (u_short) (ACK_INTR|0x40) #define C_UPD_STATS (u_short) (ACK_INTR|0x80) #define C_MASK (u_short) 0xFF /* mask of C_* */ /* * Status register. All windows. * * 15-13: Window number(0-7). * 12: Command_in_progress. * 11: reserved. * 10: reserved. * 9: reserved. * 8: reserved. * 7: Update Statistics. * 6: Interrupt Requested. * 5: RX Early. * 4: RX Complete. * 3: TX Available. * 2: TX Complete. * 1: Adapter Failure. * 0: Interrupt Latch. */ #define S_INTR_LATCH (u_short) (0x1) #define S_CARD_FAILURE (u_short) (0x2) #define S_TX_COMPLETE (u_short) (0x4) #define S_TX_AVAIL (u_short) (0x8) #define S_RX_COMPLETE (u_short) (0x10) #define S_RX_EARLY (u_short) (0x20) #define S_INT_RQD (u_short) (0x40) #define S_UPD_STATS (u_short) (0x80) #define S_MASK (u_short) 0xFF /* mask of S_* */ #define S_5_INTS (S_CARD_FAILURE|S_TX_COMPLETE|\ S_TX_AVAIL|S_RX_COMPLETE|S_RX_EARLY) #define S_COMMAND_IN_PROGRESS (u_short) (0x1000) /* Address Config. Register. * Window 0/Port 06 */ #define ACF_CONNECTOR_BITS 14 #define ACF_CONNECTOR_UTP 0 #define ACF_CONNECTOR_AUI 1 #define ACF_CONNECTOR_BNC 3 /* Resource configuration register. * Window 0/Port 08 * */ #define SET_IRQ(base,irq) outw((base) + EP_W0_RESOURCE_CFG, \ ((inw((base) + EP_W0_RESOURCE_CFG) & 0x0fff) | \ ((u_short)(irq)<<12)) ) /* set IRQ i */ /* * FIFO Registers. * RX Status. Window 1/Port 08 * * 15: Incomplete or FIFO empty. * 14: 1: Error in RX Packet 0: Incomplete or no error. * 13-11: Type of error. * 1000 = Overrun. * 1011 = Run Packet Error. * 1100 = Alignment Error. * 1101 = CRC Error. * 1001 = Oversize Packet Error (>1514 bytes) * 0010 = Dribble Bits. * (all other error codes, no errors.) * * 10-0: RX Bytes (0-1514) */ #define ERR_RX_INCOMPLETE (u_short) (0x1<<15) #define ERR_RX (u_short) (0x1<<14) #define ERR_RX_OVERRUN (u_short) (0x8<<11) #define ERR_RX_RUN_PKT (u_short) (0xb<<11) #define ERR_RX_ALIGN (u_short) (0xc<<11) #define ERR_RX_CRC (u_short) (0xd<<11) #define ERR_RX_OVERSIZE (u_short) (0x9<<11) #define ERR_RX_DRIBBLE (u_short) (0x2<<11) /* * FIFO Registers. * TX Status. Window 1/Port 0B * * Reports the transmit status of a completed transmission. Writing this * register pops the transmit completion stack. * * Window 1/Port 0x0b. * * 7: Complete * 6: Interrupt on successful transmission requested. * 5: Jabber Error (TP Only, TX Reset required. ) * 4: Underrun (TX Reset required. ) * 3: Maximum Collisions. * 2: TX Status Overflow. * 1-0: Undefined. * */ #define TXS_COMPLETE 0x80 #define TXS_SUCCES_INTR_REQ 0x40 #define TXS_JABBER 0x20 #define TXS_UNDERRUN 0x10 #define TXS_MAX_COLLISION 0x8 #define TXS_STATUS_OVERFLOW 0x4 /* * Configuration control register. * Window 0/Port 04 */ /* Read */ #define IS_AUI (1<<13) #define IS_BNC (1<<12) #define IS_UTP (1<<9) /* Write */ #define ENABLE_DRQ_IRQ 0x0001 #define W0_P4_CMD_RESET_ADAPTER 0x4 #define W0_P4_CMD_ENABLE_ADAPTER 0x1 /* * Media type and status. * Window 4/Port 0A */ #define ENABLE_UTP 0xc0 #define DISABLE_UTP 0x0 /* * Misc defines for various things. */ #define ACTIVATE_ADAPTER_TO_CONFIG 0xff /* to the id_port */ #define MFG_ID 0x6d50 /* in EEPROM and W0 ADDR_CONFIG */ #define PROD_ID 0x9150 #define AUI 0x1 #define BNC 0x2 #define UTP 0x4 #define RX_BYTES_MASK (u_short) (0x07ff)
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