74bd7acb1b
in all USB ethernet drivers. The qdat structure contains a pointer to the interface's struct ifnet and is used to process incoming packets, so simultaneous use of two similar devices caused crashes and confusion. The if_udav driver appeared in the tree since Daan's PR, so I made similar changes to that driver too. PR: kern/59290 Submitted by: Daan Vreeken <Danovitsch@Vitsch.net>
266 lines
7.6 KiB
C
266 lines
7.6 KiB
C
/*
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* Copyright (c) 1997, 1998, 1999
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* Bill Paul <wpaul@ee.columbia.edu>. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by Bill Paul.
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* 4. Neither the name of the author nor the names of any co-contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD
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* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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* THE POSSIBILITY OF SUCH DAMAGE.
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*
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* $FreeBSD$
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*/
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/*
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* Register definitions for ADMtek Pegasus AN986 USB to Ethernet
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* chip. The Pegasus uses a total of four USB endpoints: the control
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* endpoint (0), a bulk read endpoint for receiving packets (1),
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* a bulk write endpoint for sending packets (2) and an interrupt
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* endpoint for passing RX and TX status (3). Endpoint 0 is used
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* to read and write the ethernet module's registers. All registers
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* are 8 bits wide.
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*
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* Packet transfer is done in 64 byte chunks. The last chunk in a
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* transfer is denoted by having a length less that 64 bytes. For
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* the RX case, the data includes an optional RX status word.
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*/
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#define AUE_UR_READREG 0xF0
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#define AUE_UR_WRITEREG 0xF1
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#define AUE_CONFIG_NO 1
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#define AUE_IFACE_IDX 0
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/*
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* Note that while the ADMtek technically has four
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* endpoints, the control endpoint (endpoint 0) is
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* regarded as special by the USB code and drivers
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* don't have direct access to it. (We access it
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* using usbd_do_request() when reading/writing
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* registers.) Consequently, our endpoint indexes
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* don't match those in the ADMtek Pegasus manual:
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* we consider the RX data endpoint to be index 0
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* and work up from there.
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*/
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#define AUE_ENDPT_RX 0x0
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#define AUE_ENDPT_TX 0x1
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#define AUE_ENDPT_INTR 0x2
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#define AUE_ENDPT_MAX 0x3
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#define AUE_INTR_PKTLEN 0x8
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#define AUE_CTL0 0x00
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#define AUE_CTL1 0x01
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#define AUE_CTL2 0x02
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#define AUE_MAR0 0x08
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#define AUE_MAR1 0x09
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#define AUE_MAR2 0x0A
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#define AUE_MAR3 0x0B
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#define AUE_MAR4 0x0C
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#define AUE_MAR5 0x0D
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#define AUE_MAR6 0x0E
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#define AUE_MAR7 0x0F
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#define AUE_MAR AUE_MAR0
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#define AUE_PAR0 0x10
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#define AUE_PAR1 0x11
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#define AUE_PAR2 0x12
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#define AUE_PAR3 0x13
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#define AUE_PAR4 0x14
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#define AUE_PAR5 0x15
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#define AUE_PAR AUE_PAR0
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#define AUE_PAUSE0 0x18
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#define AUE_PAUSE1 0x19
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#define AUE_PAUSE AUE_PAUSE0
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#define AUE_RX_FLOWCTL_CNT 0x1A
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#define AUE_RX_FLOWCTL_FIFO 0x1B
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#define AUE_REG_1D 0x1D
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#define AUE_EE_REG 0x20
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#define AUE_EE_DATA0 0x21
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#define AUE_EE_DATA1 0x22
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#define AUE_EE_DATA AUE_EE_DATA0
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#define AUE_EE_CTL 0x23
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#define AUE_PHY_ADDR 0x25
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#define AUE_PHY_DATA0 0x26
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#define AUE_PHY_DATA1 0x27
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#define AUE_PHY_DATA AUE_PHY_DATA0
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#define AUE_PHY_CTL 0x28
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#define AUE_USB_STS 0x2A
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#define AUE_TXSTAT0 0x2B
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#define AUE_TXSTAT1 0x2C
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#define AUE_TXSTAT AUE_TXSTAT0
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#define AUE_RXSTAT 0x2D
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#define AUE_PKTLOST0 0x2E
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#define AUE_PKTLOST1 0x2F
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#define AUE_PKTLOST AUE_PKTLOST0
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#define AUE_REG_7B 0x7B
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#define AUE_GPIO0 0x7E
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#define AUE_GPIO1 0x7F
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#define AUE_REG_81 0x81
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#define AUE_CTL0_INCLUDE_RXCRC 0x01
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#define AUE_CTL0_ALLMULTI 0x02
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#define AUE_CTL0_STOP_BACKOFF 0x04
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#define AUE_CTL0_RXSTAT_APPEND 0x08
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#define AUE_CTL0_WAKEON_ENB 0x10
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#define AUE_CTL0_RXPAUSE_ENB 0x20
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#define AUE_CTL0_RX_ENB 0x40
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#define AUE_CTL0_TX_ENB 0x80
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#define AUE_CTL1_HOMELAN 0x04
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#define AUE_CTL1_RESETMAC 0x08
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#define AUE_CTL1_SPEEDSEL 0x10 /* 0 = 10mbps, 1 = 100mbps */
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#define AUE_CTL1_DUPLEX 0x20 /* 0 = half, 1 = full */
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#define AUE_CTL1_DELAYHOME 0x40
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#define AUE_CTL2_EP3_CLR 0x01 /* reading EP3 clrs status regs */
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#define AUE_CTL2_RX_BADFRAMES 0x02
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#define AUE_CTL2_RX_PROMISC 0x04
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#define AUE_CTL2_LOOPBACK 0x08
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#define AUE_CTL2_EEPROMWR_ENB 0x10
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#define AUE_CTL2_EEPROM_LOAD 0x20
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#define AUE_EECTL_WRITE 0x01
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#define AUE_EECTL_READ 0x02
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#define AUE_EECTL_DONE 0x04
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#define AUE_PHYCTL_PHYREG 0x1F
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#define AUE_PHYCTL_WRITE 0x20
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#define AUE_PHYCTL_READ 0x40
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#define AUE_PHYCTL_DONE 0x80
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#define AUE_USBSTS_SUSPEND 0x01
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#define AUE_USBSTS_RESUME 0x02
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#define AUE_TXSTAT0_JABTIMO 0x04
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#define AUE_TXSTAT0_CARLOSS 0x08
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#define AUE_TXSTAT0_NOCARRIER 0x10
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#define AUE_TXSTAT0_LATECOLL 0x20
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#define AUE_TXSTAT0_EXCESSCOLL 0x40
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#define AUE_TXSTAT0_UNDERRUN 0x80
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#define AUE_TXSTAT1_PKTCNT 0x0F
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#define AUE_TXSTAT1_FIFO_EMPTY 0x40
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#define AUE_TXSTAT1_FIFO_FULL 0x80
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#define AUE_RXSTAT_OVERRUN 0x01
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#define AUE_RXSTAT_PAUSE 0x02
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#define AUE_GPIO_IN0 0x01
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#define AUE_GPIO_OUT0 0x02
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#define AUE_GPIO_SEL0 0x04
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#define AUE_GPIO_IN1 0x08
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#define AUE_GPIO_OUT1 0x10
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#define AUE_GPIO_SEL1 0x20
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struct aue_intrpkt {
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u_int8_t aue_txstat0;
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u_int8_t aue_txstat1;
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u_int8_t aue_rxstat;
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u_int8_t aue_rxlostpkt0;
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u_int8_t aue_rxlostpkt1;
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u_int8_t aue_wakeupstat;
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u_int8_t aue_rsvd;
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};
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struct aue_rxpkt {
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u_int16_t aue_pktlen;
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u_int8_t aue_rxstat;
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};
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#define AUE_RXSTAT_MCAST 0x01
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#define AUE_RXSTAT_GIANT 0x02
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#define AUE_RXSTAT_RUNT 0x04
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#define AUE_RXSTAT_CRCERR 0x08
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#define AUE_RXSTAT_DRIBBLE 0x10
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#define AUE_RXSTAT_MASK 0x1E
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#define AUE_TX_LIST_CNT 1
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#define AUE_RX_LIST_CNT 1
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struct aue_softc;
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struct aue_chain {
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struct aue_softc *aue_sc;
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usbd_xfer_handle aue_xfer;
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char *aue_buf;
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struct mbuf *aue_mbuf;
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int aue_idx;
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};
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struct aue_cdata {
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struct aue_chain aue_tx_chain[AUE_TX_LIST_CNT];
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struct aue_chain aue_rx_chain[AUE_RX_LIST_CNT];
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struct aue_intrpkt *aue_ibuf;
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int aue_tx_prod;
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int aue_tx_cons;
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int aue_tx_cnt;
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int aue_rx_prod;
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};
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#define AUE_INC(x, y) (x) = (x + 1) % y
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struct aue_softc {
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#if defined(__FreeBSD__)
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#define GET_MII(sc) (device_get_softc((sc)->aue_miibus))
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#elif defined(__NetBSD__)
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#define GET_MII(sc) (&(sc)->aue_mii)
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#elif defined(__OpenBSD__)
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#define GET_MII(sc) (&(sc)->aue_mii)
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#endif
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struct arpcom arpcom;
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device_t aue_miibus;
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usbd_device_handle aue_udev;
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usbd_interface_handle aue_iface;
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u_int16_t aue_vendor;
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u_int16_t aue_product;
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int aue_ed[AUE_ENDPT_MAX];
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usbd_pipe_handle aue_ep[AUE_ENDPT_MAX];
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int aue_unit;
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u_int8_t aue_link;
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int aue_if_flags;
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struct aue_cdata aue_cdata;
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struct callout_handle aue_stat_ch;
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#if __FreeBSD_version >= 500000
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struct mtx aue_mtx;
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#endif
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u_int16_t aue_flags;
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char aue_dying;
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struct timeval aue_rx_notice;
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struct usb_qdat aue_qdat;
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};
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#if 0
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#define AUE_LOCK(_sc) mtx_lock(&(_sc)->aue_mtx)
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#define AUE_UNLOCK(_sc) mtx_unlock(&(_sc)->aue_mtx)
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#else
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#define AUE_LOCK(_sc)
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#define AUE_UNLOCK(_sc)
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#endif
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#define AUE_TIMEOUT 1000
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#define AUE_BUFSZ 1536
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#define AUE_MIN_FRAMELEN 60
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#define AUE_INTR_INTERVAL 100 /* ms */
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