567ba9b00a
struct ifnet or the layer 2 common structure it was embedded in have been replaced with a struct ifnet pointer to be filled by a call to the new function, if_alloc(). The layer 2 common structure is also allocated via if_alloc() based on the interface type. It is hung off the new struct ifnet member, if_l2com. This change removes the size of these structures from the kernel ABI and will allow us to better manage them as interfaces come and go. Other changes of note: - Struct arpcom is no longer referenced in normal interface code. Instead the Ethernet address is accessed via the IFP2ENADDR() macro. To enforce this ac_enaddr has been renamed to _ac_enaddr. - The second argument to ether_ifattach is now always the mac address from driver private storage rather than sometimes being ac_enaddr. Reviewed by: sobomax, sam
1073 lines
32 KiB
C
1073 lines
32 KiB
C
/*-
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* Copyright (c) 1997, 1998, 1999
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* Bill Paul <wpaul@ctr.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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* Tigon register offsets. These are memory mapped registers
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* which can be accessed with the CSR_READ_4()/CSR_WRITE_4() macros.
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* Each register must be accessed using 32 bit operations.
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*
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* All reegisters are accessed through a 16K shared memory block.
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* The first group of registers are actually copies of the PCI
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* configuration space registers.
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*/
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#define TI_PCI_ID 0x000 /* PCI device/vendor ID */
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#define TI_PCI_CMDSTAT 0x004
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#define TI_PCI_CLASSCODE 0x008
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#define TI_PCI_BIST 0x00C
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#define TI_PCI_LOMEM 0x010 /* Shared memory base address */
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#define TI_PCI_SUBSYS 0x02C
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#define TI_PCI_ROMBASE 0x030
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#define TI_PCI_INT 0x03C
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#ifndef PCIM_CMD_MWIEN
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#define PCIM_CMD_MWIEN 0x0010
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#endif
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/*
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* Alteon AceNIC PCI vendor/device ID.
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*/
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#define ALT_VENDORID 0x12AE
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#define ALT_DEVICEID_ACENIC 0x0001
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#define ALT_DEVICEID_ACENIC_COPPER 0x0002
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/*
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* 3Com 3c985 PCI vendor/device ID.
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*/
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#define TC_VENDORID 0x10B7
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#define TC_DEVICEID_3C985 0x0001
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/*
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* Netgear GA620 PCI vendor/device ID.
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*/
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#define NG_VENDORID 0x1385
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#define NG_DEVICEID_GA620 0x620A
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#define NG_DEVICEID_GA620T 0x630A
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/*
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* SGI device/vendor ID.
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*/
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#define SGI_VENDORID 0x10A9
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#define SGI_DEVICEID_TIGON 0x0009
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/*
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* DEC vendor ID, Farallon device ID. Apparently, Farallon used
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* the DEC vendor ID in their cards by mistake.
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*/
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#define DEC_VENDORID 0x1011
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#define DEC_DEVICEID_FARALLON_PN9000SX 0x001a
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/*
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* Tigon configuration and control registers.
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*/
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#define TI_MISC_HOST_CTL 0x040
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#define TI_MISC_LOCAL_CTL 0x044
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#define TI_SEM_AB 0x048 /* Tigon 2 only */
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#define TI_MISC_CONF 0x050 /* Tigon 2 only */
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#define TI_TIMER_BITS 0x054
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#define TI_TIMERREF 0x058
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#define TI_PCI_STATE 0x05C
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#define TI_MAIN_EVENT_A 0x060
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#define TI_MAILBOX_EVENT_A 0x064
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#define TI_WINBASE 0x068
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#define TI_WINDATA 0x06C
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#define TI_MAIN_EVENT_B 0x070 /* Tigon 2 only */
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#define TI_MAILBOX_EVENT_B 0x074 /* Tigon 2 only */
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#define TI_TIMERREF_B 0x078 /* Tigon 2 only */
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#define TI_SERIAL 0x07C
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/*
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* Misc host control bits.
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*/
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#define TI_MHC_INTSTATE 0x00000001
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#define TI_MHC_CLEARINT 0x00000002
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#define TI_MHC_RESET 0x00000008
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#define TI_MHC_BYTE_SWAP_ENB 0x00000010
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#define TI_MHC_WORD_SWAP_ENB 0x00000020
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#define TI_MHC_MASK_INTS 0x00000040
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#define TI_MHC_CHIP_REV_MASK 0xF0000000
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#define TI_MHC_BIGENDIAN_INIT \
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(TI_MHC_BYTE_SWAP_ENB|TI_MHC_WORD_SWAP_ENB|TI_MHC_CLEARINT)
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#define TI_MHC_LITTLEENDIAN_INIT \
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(TI_MHC_WORD_SWAP_ENB|TI_MHC_CLEARINT)
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/*
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* Tigon chip rev values. Rev 4 is the Tigon 1. Rev 6 is the Tigon 2.
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* Rev 5 is also the Tigon 2, but is a broken version which was never
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* used in any actual hardware, so we ignore it.
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*/
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#define TI_REV_TIGON_I 0x40000000
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#define TI_REV_TIGON_II 0x60000000
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/*
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* Firmware revision that we want.
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*/
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#define TI_FIRMWARE_MAJOR 0xc
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#define TI_FIRMWARE_MINOR 0x4
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#define TI_FIRMWARE_FIX 0xb
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/*
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* Miscelaneous Local Control register.
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*/
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#define TI_MLC_EE_WRITE_ENB 0x00000010
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#define TI_MLC_SRAM_BANK_SIZE 0x00000300 /* Tigon 2 only */
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#define TI_MLC_LOCALADDR_21 0x00004000
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#define TI_MLC_LOCALADDR_22 0x00008000
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#define TI_MLC_SBUS_WRITEERR 0x00080000
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#define TI_MLC_EE_CLK 0x00100000
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#define TI_MLC_EE_TXEN 0x00200000
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#define TI_MLC_EE_DOUT 0x00400000
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#define TI_MLC_EE_DIN 0x00800000
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/* Possible memory sizes. */
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#define TI_MLC_SRAM_BANK_DISA 0x00000000
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#define TI_MLC_SRAM_BANK_1024K 0x00000100
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#define TI_MLC_SRAM_BANK_512K 0x00000200
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#define TI_MLC_SRAM_BANK_256K 0x00000300
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/*
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* Offset of MAC address inside EEPROM.
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*/
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#define TI_EE_MAC_OFFSET 0x8c
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#define TI_DMA_ASSIST 0x11C
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#define TI_CPU_STATE 0x140
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#define TI_CPU_PROGRAM_COUNTER 0x144
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#define TI_SRAM_ADDR 0x154
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#define TI_SRAM_DATA 0x158
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#define TI_GEN_0 0x180
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#define TI_GEN_X 0x1FC
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#define TI_MAC_TX_STATE 0x200
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#define TI_MAC_RX_STATE 0x220
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#define TI_CPU_CTL_B 0x240 /* Tigon 2 only */
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#define TI_CPU_PROGRAM_COUNTER_B 0x244 /* Tigon 2 only */
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#define TI_SRAM_ADDR_B 0x254 /* Tigon 2 only */
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#define TI_SRAM_DATA_B 0x258 /* Tigon 2 only */
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#define TI_GEN_B_0 0x280 /* Tigon 2 only */
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#define TI_GEN_B_X 0x2FC /* Tigon 2 only */
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/*
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* Misc config register.
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*/
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#define TI_MCR_SRAM_SYNCHRONOUS 0x00100000 /* Tigon 2 only */
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/*
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* PCI state register.
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*/
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#define TI_PCISTATE_FORCE_RESET 0x00000001
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#define TI_PCISTATE_PROVIDE_LEN 0x00000002
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#define TI_PCISTATE_READ_MAXDMA 0x0000001C
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#define TI_PCISTATE_WRITE_MAXDMA 0x000000E0
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#define TI_PCISTATE_MINDMA 0x0000FF00
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#define TI_PCISTATE_FIFO_RETRY_ENB 0x00010000
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#define TI_PCISTATE_USE_MEM_RD_MULT 0x00020000
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#define TI_PCISTATE_NO_SWAP_READ_DMA 0x00040000
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#define TI_PCISTATE_NO_SWAP_WRITE_DMA 0x00080000
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#define TI_PCISTATE_66MHZ_BUS 0x00080000 /* Tigon 2 only */
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#define TI_PCISTATE_32BIT_BUS 0x00100000 /* Tigon 2 only */
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#define TI_PCISTATE_ENB_BYTE_ENABLES 0x00800000 /* Tigon 2 only */
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#define TI_PCISTATE_READ_CMD 0x0F000000
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#define TI_PCISTATE_WRITE_CMD 0xF0000000
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#define TI_PCI_READMAX_4 0x04
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#define TI_PCI_READMAX_16 0x08
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#define TI_PCI_READMAX_32 0x0C
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#define TI_PCI_READMAX_64 0x10
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#define TI_PCI_READMAX_128 0x14
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#define TI_PCI_READMAX_256 0x18
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#define TI_PCI_READMAX_1024 0x1C
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#define TI_PCI_WRITEMAX_4 0x20
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#define TI_PCI_WRITEMAX_16 0x40
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#define TI_PCI_WRITEMAX_32 0x60
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#define TI_PCI_WRITEMAX_64 0x80
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#define TI_PCI_WRITEMAX_128 0xA0
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#define TI_PCI_WRITEMAX_256 0xC0
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#define TI_PCI_WRITEMAX_1024 0xE0
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#define TI_PCI_READ_CMD 0x06000000
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#define TI_PCI_WRITE_CMD 0x70000000
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/*
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* DMA state register.
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*/
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#define TI_DMASTATE_ENABLE 0x00000001
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#define TI_DMASTATE_PAUSE 0x00000002
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/*
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* CPU state register.
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*/
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#define TI_CPUSTATE_RESET 0x00000001
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#define TI_CPUSTATE_STEP 0x00000002
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#define TI_CPUSTATE_ROMFAIL 0x00000010
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#define TI_CPUSTATE_HALT 0x00010000
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/*
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* MAC TX state register
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*/
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#define TI_TXSTATE_RESET 0x00000001
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#define TI_TXSTATE_ENB 0x00000002
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#define TI_TXSTATE_STOP 0x00000004
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/*
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* MAC RX state register
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*/
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#define TI_RXSTATE_RESET 0x00000001
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#define TI_RXSTATE_ENB 0x00000002
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#define TI_RXSTATE_STOP 0x00000004
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/*
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* Tigon 2 mailbox registers. The mailbox area consists of 256 bytes
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* split into 64 bit registers. Only the lower 32 bits of each mailbox
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* are used.
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*/
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#define TI_MB_HOSTINTR_HI 0x500
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#define TI_MB_HOSTINTR_LO 0x504
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#define TI_MB_HOSTINTR TI_MB_HOSTINTR_LO
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#define TI_MB_CMDPROD_IDX_HI 0x508
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#define TI_MB_CMDPROD_IDX_LO 0x50C
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#define TI_MB_CMDPROD_IDX TI_MB_CMDPROD_IDX_LO
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#define TI_MB_SENDPROD_IDX_HI 0x510
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#define TI_MB_SENDPROD_IDX_LO 0x514
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#define TI_MB_SENDPROD_IDX TI_MB_SENDPROD_IDX_LO
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#define TI_MB_STDRXPROD_IDX_HI 0x518 /* Tigon 2 only */
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#define TI_MB_STDRXPROD_IDX_LO 0x51C /* Tigon 2 only */
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#define TI_MB_STDRXPROD_IDX TI_MB_STDRXPROD_IDX_LO
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#define TI_MB_JUMBORXPROD_IDX_HI 0x520 /* Tigon 2 only */
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#define TI_MB_JUMBORXPROD_IDX_LO 0x524 /* Tigon 2 only */
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#define TI_MB_JUMBORXPROD_IDX TI_MB_JUMBORXPROD_IDX_LO
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#define TI_MB_MINIRXPROD_IDX_HI 0x528 /* Tigon 2 only */
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#define TI_MB_MINIRXPROD_IDX_LO 0x52C /* Tigon 2 only */
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#define TI_MB_MINIRXPROD_IDX TI_MB_MINIRXPROD_IDX_LO
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#define TI_MB_RSVD 0x530
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/*
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* Tigon 2 general communication registers. These are 64 and 32 bit
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* registers which are only valid after the firmware has been
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* loaded and started. They actually exist in NIC memory but are
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* mapped into the host memory via the shared memory region.
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*
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* The NIC internally maps these registers starting at address 0,
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* so to determine the NIC address of any of these registers, we
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* subtract 0x600 (the address of the first register).
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*/
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#define TI_GCR_BASE 0x600
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#define TI_GCR_MACADDR 0x600
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#define TI_GCR_PAR0 0x600
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#define TI_GCR_PAR1 0x604
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#define TI_GCR_GENINFO_HI 0x608
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#define TI_GCR_GENINFO_LO 0x60C
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#define TI_GCR_MCASTADDR 0x610 /* obsolete */
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#define TI_GCR_MAR0 0x610 /* obsolete */
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#define TI_GCR_MAR1 0x614 /* obsolete */
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#define TI_GCR_OPMODE 0x618
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#define TI_GCR_DMA_READCFG 0x61C
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#define TI_GCR_DMA_WRITECFG 0x620
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#define TI_GCR_TX_BUFFER_RATIO 0x624
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#define TI_GCR_EVENTCONS_IDX 0x628
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#define TI_GCR_CMDCONS_IDX 0x62C
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#define TI_GCR_TUNEPARMS 0x630
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#define TI_GCR_RX_COAL_TICKS 0x630
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#define TI_GCR_TX_COAL_TICKS 0x634
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#define TI_GCR_STAT_TICKS 0x638
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#define TI_GCR_TX_MAX_COAL_BD 0x63C
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#define TI_GCR_RX_MAX_COAL_BD 0x640
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#define TI_GCR_NIC_TRACING 0x644
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#define TI_GCR_GLINK 0x648
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#define TI_GCR_LINK 0x64C
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#define TI_GCR_NICTRACE_PTR 0x650
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#define TI_GCR_NICTRACE_START 0x654
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#define TI_GCR_NICTRACE_LEN 0x658
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#define TI_GCR_IFINDEX 0x65C
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#define TI_GCR_IFMTU 0x660
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#define TI_GCR_MASK_INTRS 0x664
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#define TI_GCR_GLINK_STAT 0x668
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#define TI_GCR_LINK_STAT 0x66C
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#define TI_GCR_RXRETURNCONS_IDX 0x680
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#define TI_GCR_CMDRING 0x700
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#define TI_GCR_NIC_ADDR(x) (x - TI_GCR_BASE);
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/*
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* Local memory window. The local memory window is a 2K shared
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* memory region which can be used to access the NIC's internal
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* SRAM. The window can be mapped to a given 2K region using
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* the TI_WINDOW_BASE register.
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*/
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#define TI_WINDOW 0x800
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#define TI_WINLEN 0x800
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#define TI_TICKS_PER_SEC 1000000
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/*
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* Operation mode register.
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*/
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#define TI_OPMODE_BYTESWAP_BD 0x00000002
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#define TI_OPMODE_WORDSWAP_BD 0x00000004
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#define TI_OPMODE_WARN_ENB 0x00000008 /* not yet implimented */
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#define TI_OPMODE_BYTESWAP_DATA 0x00000010
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#define TI_OPMODE_1_DMA_ACTIVE 0x00000040
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#define TI_OPMODE_SBUS 0x00000100
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#define TI_OPMODE_DONT_FRAG_JUMBO 0x00000200
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#define TI_OPMODE_INCLUDE_CRC 0x00000400
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#define TI_OPMODE_RX_BADFRAMES 0x00000800
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#define TI_OPMODE_NO_EVENT_INTRS 0x00001000
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#define TI_OPMODE_NO_TX_INTRS 0x00002000
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#define TI_OPMODE_NO_RX_INTRS 0x00004000
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#define TI_OPMODE_FATAL_ENB 0x40000000 /* not yet implimented */
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#define TI_OPMODE_JUMBO_HDRSPLIT 0x00008000
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|
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/*
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|
* DMA configuration thresholds.
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*/
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#define TI_DMA_STATE_THRESH_16W 0x00000100
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#define TI_DMA_STATE_THRESH_8W 0x00000080
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#define TI_DMA_STATE_THRESH_4W 0x00000040
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#define TI_DMA_STATE_THRESH_2W 0x00000020
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#define TI_DMA_STATE_THRESH_1W 0x00000010
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|
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#define TI_DMA_STATE_FORCE_32_BIT 0x00000008
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|
|
/*
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|
* Gigabit link status bits.
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|
*/
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#define TI_GLNK_SENSE_NO_BEG 0x00002000
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|
#define TI_GLNK_LOOPBACK 0x00004000
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#define TI_GLNK_PREF 0x00008000
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|
#define TI_GLNK_1000MB 0x00040000
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|
#define TI_GLNK_FULL_DUPLEX 0x00080000
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#define TI_GLNK_TX_FLOWCTL_Y 0x00200000 /* Tigon 2 only */
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|
#define TI_GLNK_RX_FLOWCTL_Y 0x00800000
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#define TI_GLNK_AUTONEGENB 0x20000000
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#define TI_GLNK_ENB 0x40000000
|
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|
|
/*
|
|
* Link status bits.
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|
*/
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|
#define TI_LNK_LOOPBACK 0x00004000
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|
#define TI_LNK_PREF 0x00008000
|
|
#define TI_LNK_10MB 0x00010000
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|
#define TI_LNK_100MB 0x00020000
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|
#define TI_LNK_1000MB 0x00040000
|
|
#define TI_LNK_FULL_DUPLEX 0x00080000
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|
#define TI_LNK_HALF_DUPLEX 0x00100000
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#define TI_LNK_TX_FLOWCTL_Y 0x00200000 /* Tigon 2 only */
|
|
#define TI_LNK_RX_FLOWCTL_Y 0x00800000
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|
#define TI_LNK_AUTONEGENB 0x20000000
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|
#define TI_LNK_ENB 0x40000000
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|
|
|
/*
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|
* Ring size constants.
|
|
*/
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|
#define TI_EVENT_RING_CNT 256
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|
#define TI_CMD_RING_CNT 64
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|
#define TI_STD_RX_RING_CNT 512
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|
#define TI_JUMBO_RX_RING_CNT 256
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|
#define TI_MINI_RX_RING_CNT 1024
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|
#define TI_RETURN_RING_CNT 2048
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|
|
|
/*
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|
* Possible TX ring sizes.
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|
*/
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|
#define TI_TX_RING_CNT_128 128
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|
#define TI_TX_RING_BASE_128 0x3800
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#define TI_TX_RING_CNT_256 256
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|
#define TI_TX_RING_BASE_256 0x3000
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|
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#define TI_TX_RING_CNT_512 512
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#define TI_TX_RING_BASE_512 0x2000
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#define TI_TX_RING_CNT TI_TX_RING_CNT_512
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#define TI_TX_RING_BASE TI_TX_RING_BASE_512
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/*
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* The Tigon can have up to 8MB of external SRAM, however the Tigon 1
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* is limited to 2MB total, and in general I think most adapters have
|
|
* around 1MB. We use this value for zeroing the NIC's SRAM, so to
|
|
* be safe we use the largest possible value (zeroing memory that
|
|
* isn't there doesn't hurt anything).
|
|
*/
|
|
#define TI_MEM_MAX 0x7FFFFF
|
|
|
|
/*
|
|
* Maximum register address on the Tigon.
|
|
*/
|
|
#define TI_REG_MAX 0x3fff
|
|
|
|
/*
|
|
* These values were taken from Alteon's tg.h.
|
|
*/
|
|
#define TI_BEG_SRAM 0x0 /* host thinks it's here */
|
|
#define TI_BEG_SCRATCH 0xc00000 /* beg of scratch pad area */
|
|
#define TI_END_SRAM_II 0x800000 /* end of SRAM, for 2 MB stuffed */
|
|
#define TI_END_SCRATCH_II 0xc04000 /* end of scratch pad CPU A (16KB) */
|
|
#define TI_END_SCRATCH_B 0xc02000 /* end of scratch pad CPU B (8KB) */
|
|
#define TI_BEG_SCRATCH_B_DEBUG 0xd00000 /* beg of scratch pad for ioctl */
|
|
#define TI_END_SCRATCH_B_DEBUG 0xd02000 /* end of scratch pad for ioctl */
|
|
#define TI_SCRATCH_DEBUG_OFF 0x100000 /* offset for ioctl usage */
|
|
#define TI_END_SRAM_I 0x200000 /* end of SRAM, for 2 MB stuffed */
|
|
#define TI_END_SCRATCH_I 0xc00800 /* end of scratch pad area (2KB) */
|
|
#define TI_BEG_PROM 0x40000000 /* beg of PROM, special access */
|
|
#define TI_BEG_FLASH 0x80000000 /* beg of EEPROM, special access */
|
|
#define TI_END_FLASH 0x80100000 /* end of EEPROM for 1 MB stuff */
|
|
#define TI_BEG_SER_EEPROM 0xa0000000 /* beg of Serial EEPROM (fake out) */
|
|
#define TI_END_SER_EEPROM 0xa0002000 /* end of Serial EEPROM (fake out) */
|
|
#define TI_BEG_REGS 0xc0000000 /* beg of register area */
|
|
#define TI_END_REGS 0xc0000400 /* end of register area */
|
|
#define TI_END_WRITE_REGS 0xc0000180 /* can't write GPRs currently */
|
|
#define TI_BEG_REGS2 0xc0000200 /* beg of second writeable reg area */
|
|
/* the EEPROM is byte addressable in a pretty odd way */
|
|
#define EEPROM_BYTE_LOC 0xff000000
|
|
|
|
/*
|
|
* From Alteon's tg.h.
|
|
*/
|
|
#define TI_PROCESSOR_A 0
|
|
#define TI_PROCESSOR_B 1
|
|
#define TI_CPU_A TG_PROCESSOR_A
|
|
#define TI_CPU_B TG_PROCESSOR_B
|
|
|
|
/*
|
|
* Following macro can be used to access to any of the CPU registers
|
|
* It will adjust the address appropriately.
|
|
* Parameters:
|
|
* reg - The register to access, e.g TI_CPU_CONTROL
|
|
* cpu - cpu, i.e PROCESSOR_A or PROCESSOR_B (or TI_CPU_A or TI_CPU_B)
|
|
*/
|
|
#define CPU_REG(reg, cpu) ((reg) + (cpu) * 0x100)
|
|
|
|
/*
|
|
* Even on the alpha, pci addresses are 32-bit quantities
|
|
*/
|
|
|
|
#ifdef __64_bit_pci_addressing__
|
|
typedef struct {
|
|
u_int64_t ti_addr;
|
|
} ti_hostaddr;
|
|
#define TI_HOSTADDR(x) x.ti_addr
|
|
#else
|
|
typedef struct {
|
|
u_int32_t ti_addr_hi;
|
|
u_int32_t ti_addr_lo;
|
|
} ti_hostaddr;
|
|
#define TI_HOSTADDR(x) x.ti_addr_lo
|
|
#endif
|
|
|
|
/*
|
|
* Ring control block structure. The rules for the max_len field
|
|
* are as follows:
|
|
*
|
|
* For the send ring, max_len indicates the number of entries in the
|
|
* ring (128, 256 or 512).
|
|
*
|
|
* For the standard receive ring, max_len indicates the threshold
|
|
* used to decide when a frame should be put in the jumbo receive ring
|
|
* instead of the standard one.
|
|
*
|
|
* For the mini ring, max_len indicates the size of the buffers in the
|
|
* ring. This is the value used to decide when a frame is small enough
|
|
* to be placed in the mini ring.
|
|
*
|
|
* For the return receive ring, max_len indicates the number of entries
|
|
* in the ring. It can be one of 2048, 1024 or 0 (which is the same as
|
|
* 2048 for backwards compatibility). The value 1024 can only be used
|
|
* if the mini ring is disabled.
|
|
*/
|
|
struct ti_rcb {
|
|
ti_hostaddr ti_hostaddr;
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_max_len;
|
|
u_int16_t ti_flags;
|
|
#else
|
|
u_int16_t ti_flags;
|
|
u_int16_t ti_max_len;
|
|
#endif
|
|
u_int32_t ti_unused;
|
|
};
|
|
|
|
#define TI_RCB_FLAG_TCP_UDP_CKSUM 0x00000001
|
|
#define TI_RCB_FLAG_IP_CKSUM 0x00000002
|
|
#define TI_RCB_FLAG_NO_PHDR_CKSUM 0x00000008
|
|
#define TI_RCB_FLAG_VLAN_ASSIST 0x00000010
|
|
#define TI_RCB_FLAG_COAL_UPD_ONLY 0x00000020
|
|
#define TI_RCB_FLAG_HOST_RING 0x00000040
|
|
#define TI_RCB_FLAG_IEEE_SNAP_CKSUM 0x00000080
|
|
#define TI_RCB_FLAG_USE_EXT_RX_BD 0x00000100
|
|
#define TI_RCB_FLAG_RING_DISABLED 0x00000200
|
|
|
|
struct ti_producer {
|
|
u_int32_t ti_idx;
|
|
u_int32_t ti_unused;
|
|
};
|
|
|
|
/*
|
|
* Tigon general information block. This resides in host memory
|
|
* and contains the status counters, ring control blocks and
|
|
* producer pointers.
|
|
*/
|
|
|
|
struct ti_gib {
|
|
struct ti_stats ti_stats;
|
|
struct ti_rcb ti_ev_rcb;
|
|
struct ti_rcb ti_cmd_rcb;
|
|
struct ti_rcb ti_tx_rcb;
|
|
struct ti_rcb ti_std_rx_rcb;
|
|
struct ti_rcb ti_jumbo_rx_rcb;
|
|
struct ti_rcb ti_mini_rx_rcb;
|
|
struct ti_rcb ti_return_rcb;
|
|
ti_hostaddr ti_ev_prodidx_ptr;
|
|
ti_hostaddr ti_return_prodidx_ptr;
|
|
ti_hostaddr ti_tx_considx_ptr;
|
|
ti_hostaddr ti_refresh_stats_ptr;
|
|
};
|
|
|
|
/*
|
|
* Buffer descriptor structures. There are basically three types
|
|
* of structures: normal receive descriptors, extended receive
|
|
* descriptors and transmit descriptors. The extended receive
|
|
* descriptors are optionally used only for the jumbo receive ring.
|
|
*/
|
|
|
|
struct ti_rx_desc {
|
|
ti_hostaddr ti_addr;
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_idx;
|
|
u_int16_t ti_len;
|
|
#else
|
|
u_int16_t ti_len;
|
|
u_int16_t ti_idx;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_type;
|
|
u_int16_t ti_flags;
|
|
#else
|
|
u_int16_t ti_flags;
|
|
u_int16_t ti_type;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_ip_cksum;
|
|
u_int16_t ti_tcp_udp_cksum;
|
|
#else
|
|
u_int16_t ti_tcp_udp_cksum;
|
|
u_int16_t ti_ip_cksum;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_error_flags;
|
|
u_int16_t ti_vlan_tag;
|
|
#else
|
|
u_int16_t ti_vlan_tag;
|
|
u_int16_t ti_error_flags;
|
|
#endif
|
|
u_int32_t ti_rsvd;
|
|
u_int32_t ti_opaque;
|
|
};
|
|
|
|
struct ti_rx_desc_ext {
|
|
ti_hostaddr ti_addr1;
|
|
ti_hostaddr ti_addr2;
|
|
ti_hostaddr ti_addr3;
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_len1;
|
|
u_int16_t ti_len2;
|
|
#else
|
|
u_int16_t ti_len2;
|
|
u_int16_t ti_len1;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_len3;
|
|
u_int16_t ti_rsvd0;
|
|
#else
|
|
u_int16_t ti_rsvd0;
|
|
u_int16_t ti_len3;
|
|
#endif
|
|
ti_hostaddr ti_addr0;
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_idx;
|
|
u_int16_t ti_len0;
|
|
#else
|
|
u_int16_t ti_len0;
|
|
u_int16_t ti_idx;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_type;
|
|
u_int16_t ti_flags;
|
|
#else
|
|
u_int16_t ti_flags;
|
|
u_int16_t ti_type;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_ip_cksum;
|
|
u_int16_t ti_tcp_udp_cksum;
|
|
#else
|
|
u_int16_t ti_tcp_udp_cksum;
|
|
u_int16_t ti_ip_cksum;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_error_flags;
|
|
u_int16_t ti_vlan_tag;
|
|
#else
|
|
u_int16_t ti_vlan_tag;
|
|
u_int16_t ti_error_flags;
|
|
#endif
|
|
u_int32_t ti_rsvd1;
|
|
u_int32_t ti_opaque;
|
|
};
|
|
|
|
/*
|
|
* Transmit descriptors are, mercifully, very small.
|
|
*/
|
|
struct ti_tx_desc {
|
|
ti_hostaddr ti_addr;
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_len;
|
|
u_int16_t ti_flags;
|
|
#else
|
|
u_int16_t ti_flags;
|
|
u_int16_t ti_len;
|
|
#endif
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int16_t ti_rsvd;
|
|
u_int16_t ti_vlan_tag;
|
|
#else
|
|
u_int16_t ti_vlan_tag;
|
|
u_int16_t ti_rsvd;
|
|
#endif
|
|
};
|
|
|
|
/*
|
|
* NOTE! On the Alpha, we have an alignment constraint.
|
|
* The first thing in the packet is a 14-byte Ethernet header.
|
|
* This means that the packet is misaligned. To compensate,
|
|
* we actually offset the data 2 bytes into the cluster. This
|
|
* alignes the packet after the Ethernet header at a 32-bit
|
|
* boundary.
|
|
*/
|
|
|
|
#define ETHER_ALIGN 2
|
|
|
|
#define TI_FRAMELEN 1518
|
|
#define TI_JUMBO_FRAMELEN 9018
|
|
#define TI_JUMBO_MTU (TI_JUMBO_FRAMELEN-ETHER_HDR_LEN-ETHER_CRC_LEN)
|
|
#define TI_PAGE_SIZE PAGE_SIZE
|
|
#define TI_MIN_FRAMELEN 60
|
|
|
|
/*
|
|
* Buffer descriptor error flags.
|
|
*/
|
|
#define TI_BDERR_CRC 0x0001
|
|
#define TI_BDERR_COLLDETECT 0x0002
|
|
#define TI_BDERR_LINKLOST 0x0004
|
|
#define TI_BDERR_DECODE 0x0008
|
|
#define TI_BDERR_ODD_NIBBLES 0x0010
|
|
#define TI_BDERR_MAC_ABRT 0x0020
|
|
#define TI_BDERR_RUNT 0x0040
|
|
#define TI_BDERR_TRUNC 0x0080
|
|
#define TI_BDERR_GIANT 0x0100
|
|
|
|
/*
|
|
* Buffer descriptor flags.
|
|
*/
|
|
#define TI_BDFLAG_TCP_UDP_CKSUM 0x0001
|
|
#define TI_BDFLAG_IP_CKSUM 0x0002
|
|
#define TI_BDFLAG_END 0x0004
|
|
#define TI_BDFLAG_MORE 0x0008
|
|
#define TI_BDFLAG_JUMBO_RING 0x0010
|
|
#define TI_BDFLAG_UCAST_PKT 0x0020
|
|
#define TI_BDFLAG_MCAST_PKT 0x0040
|
|
#define TI_BDFLAG_BCAST_PKT 0x0060
|
|
#define TI_BDFLAG_IP_FRAG 0x0080
|
|
#define TI_BDFLAG_IP_FRAG_END 0x0100
|
|
#define TI_BDFLAG_VLAN_TAG 0x0200
|
|
#define TI_BDFLAG_ERROR 0x0400
|
|
#define TI_BDFLAG_COAL_NOW 0x0800
|
|
#define TI_BDFLAG_MINI_RING 0x1000
|
|
|
|
/*
|
|
* Descriptor type flags. I think these only have meaning for
|
|
* the Tigon 1. I had to extract them from the sample driver source
|
|
* since they aren't in the manual.
|
|
*/
|
|
#define TI_BDTYPE_TYPE_NULL 0x0000
|
|
#define TI_BDTYPE_SEND_BD 0x0001
|
|
#define TI_BDTYPE_RECV_BD 0x0002
|
|
#define TI_BDTYPE_RECV_JUMBO_BD 0x0003
|
|
#define TI_BDTYPE_RECV_BD_LAST 0x0004
|
|
#define TI_BDTYPE_SEND_DATA 0x0005
|
|
#define TI_BDTYPE_SEND_DATA_LAST 0x0006
|
|
#define TI_BDTYPE_RECV_DATA 0x0007
|
|
#define TI_BDTYPE_RECV_DATA_LAST 0x000b
|
|
#define TI_BDTYPE_EVENT_RUPT 0x000c
|
|
#define TI_BDTYPE_EVENT_NO_RUPT 0x000d
|
|
#define TI_BDTYPE_ODD_START 0x000e
|
|
#define TI_BDTYPE_UPDATE_STATS 0x000f
|
|
#define TI_BDTYPE_SEND_DUMMY_DMA 0x0010
|
|
#define TI_BDTYPE_EVENT_PROD 0x0011
|
|
#define TI_BDTYPE_TX_CONS 0x0012
|
|
#define TI_BDTYPE_RX_PROD 0x0013
|
|
#define TI_BDTYPE_REFRESH_STATS 0x0014
|
|
#define TI_BDTYPE_SEND_DATA_LAST_VLAN 0x0015
|
|
#define TI_BDTYPE_SEND_DATA_COAL 0x0016
|
|
#define TI_BDTYPE_SEND_DATA_LAST_COAL 0x0017
|
|
#define TI_BDTYPE_SEND_DATA_LAST_VLAN_COAL 0x0018
|
|
#define TI_BDTYPE_TX_CONS_NO_INTR 0x0019
|
|
|
|
/*
|
|
* Tigon command structure.
|
|
*/
|
|
struct ti_cmd_desc {
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int32_t ti_cmd:8;
|
|
u_int32_t ti_code:12;
|
|
u_int32_t ti_idx:12;
|
|
#else
|
|
u_int32_t ti_idx:12;
|
|
u_int32_t ti_code:12;
|
|
u_int32_t ti_cmd:8;
|
|
#endif
|
|
};
|
|
|
|
#define TI_CMD_HOST_STATE 0x01
|
|
#define TI_CMD_CODE_STACK_UP 0x01
|
|
#define TI_CMD_CODE_STACK_DOWN 0x02
|
|
|
|
/*
|
|
* This command enables software address filtering. It's a workaround
|
|
* for a bug in the Tigon 1 and not implemented for the Tigon 2.
|
|
*/
|
|
#define TI_CMD_FDR_FILTERING 0x02
|
|
#define TI_CMD_CODE_FILT_ENB 0x01
|
|
#define TI_CMD_CODE_FILT_DIS 0x02
|
|
|
|
#define TI_CMD_SET_RX_PROD_IDX 0x03 /* obsolete */
|
|
#define TI_CMD_UPDATE_GENCOM 0x04
|
|
#define TI_CMD_RESET_JUMBO_RING 0x05
|
|
#define TI_CMD_SET_PARTIAL_RX_CNT 0x06
|
|
#define TI_CMD_ADD_MCAST_ADDR 0x08 /* obsolete */
|
|
#define TI_CMD_DEL_MCAST_ADDR 0x09 /* obsolete */
|
|
|
|
#define TI_CMD_SET_PROMISC_MODE 0x0A
|
|
#define TI_CMD_CODE_PROMISC_ENB 0x01
|
|
#define TI_CMD_CODE_PROMISC_DIS 0x02
|
|
|
|
#define TI_CMD_LINK_NEGOTIATION 0x0B
|
|
#define TI_CMD_CODE_NEGOTIATE_BOTH 0x00
|
|
#define TI_CMD_CODE_NEGOTIATE_GIGABIT 0x01
|
|
#define TI_CMD_CODE_NEGOTIATE_10_100 0x02
|
|
|
|
#define TI_CMD_SET_MAC_ADDR 0x0C
|
|
#define TI_CMD_CLR_PROFILE 0x0D
|
|
|
|
#define TI_CMD_SET_ALLMULTI 0x0E
|
|
#define TI_CMD_CODE_ALLMULTI_ENB 0x01
|
|
#define TI_CMD_CODE_ALLMULTI_DIS 0x02
|
|
|
|
#define TI_CMD_CLR_STATS 0x0F
|
|
#define TI_CMD_SET_RX_JUMBO_PROD_IDX 0x10 /* obsolete */
|
|
#define TI_CMD_RFRSH_STATS 0x11
|
|
|
|
#define TI_CMD_EXT_ADD_MCAST 0x12
|
|
#define TI_CMD_EXT_DEL_MCAST 0x13
|
|
|
|
/*
|
|
* Utility macros to make issuing commands a little simpler. Assumes
|
|
* that 'sc' and 'cmd' are in local scope.
|
|
*/
|
|
#define TI_DO_CMD(x, y, z) \
|
|
cmd.ti_cmd = (x); \
|
|
cmd.ti_code = (y); \
|
|
cmd.ti_idx = (z); \
|
|
ti_cmd(sc, &cmd);
|
|
|
|
#define TI_DO_CMD_EXT(x, y, z, v, w) \
|
|
cmd.ti_cmd = (x); \
|
|
cmd.ti_code = (y); \
|
|
cmd.ti_idx = (z); \
|
|
ti_cmd_ext(sc, &cmd, (v), (w));
|
|
|
|
/*
|
|
* Other utility macros.
|
|
*/
|
|
#define TI_INC(x, y) (x) = (x + 1) % y
|
|
|
|
#define TI_UPDATE_JUMBOPROD(x, y) \
|
|
if (x->ti_hwrev == TI_HWREV_TIGON) { \
|
|
TI_DO_CMD(TI_CMD_SET_RX_JUMBO_PROD_IDX, 0, y); \
|
|
} else { \
|
|
CSR_WRITE_4(x, TI_MB_JUMBORXPROD_IDX, y); \
|
|
}
|
|
|
|
#define TI_UPDATE_MINIPROD(x, y) \
|
|
CSR_WRITE_4(x, TI_MB_MINIRXPROD_IDX, y);
|
|
|
|
#define TI_UPDATE_STDPROD(x, y) \
|
|
if (x->ti_hwrev == TI_HWREV_TIGON) { \
|
|
TI_DO_CMD(TI_CMD_SET_RX_PROD_IDX, 0, y); \
|
|
} else { \
|
|
CSR_WRITE_4(x, TI_MB_STDRXPROD_IDX, y); \
|
|
}
|
|
|
|
|
|
/*
|
|
* Tigon event structure.
|
|
*/
|
|
struct ti_event_desc {
|
|
#if BYTE_ORDER == BIG_ENDIAN
|
|
u_int32_t ti_event:8;
|
|
u_int32_t ti_code:12;
|
|
u_int32_t ti_idx:12;
|
|
#else
|
|
u_int32_t ti_idx:12;
|
|
u_int32_t ti_code:12;
|
|
u_int32_t ti_event:8;
|
|
#endif
|
|
u_int32_t ti_rsvd;
|
|
};
|
|
|
|
/*
|
|
* Tigon events.
|
|
*/
|
|
#define TI_EV_FIRMWARE_UP 0x01
|
|
#define TI_EV_STATS_UPDATED 0x04
|
|
|
|
#define TI_EV_LINKSTAT_CHANGED 0x06
|
|
#define TI_EV_CODE_GIG_LINK_UP 0x01
|
|
#define TI_EV_CODE_LINK_DOWN 0x02
|
|
#define TI_EV_CODE_LINK_UP 0x03
|
|
|
|
#define TI_EV_ERROR 0x07
|
|
#define TI_EV_CODE_ERR_INVAL_CMD 0x01
|
|
#define TI_EV_CODE_ERR_UNIMP_CMD 0x02
|
|
#define TI_EV_CODE_ERR_BADCFG 0x03
|
|
|
|
#define TI_EV_MCAST_UPDATED 0x08
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#define TI_EV_CODE_MCAST_ADD 0x01
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#define TI_EV_CODE_MCAST_DEL 0x02
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#define TI_EV_RESET_JUMBO_RING 0x09
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/*
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* Register access macros. The Tigon always uses memory mapped register
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* accesses and all registers must be accessed with 32 bit operations.
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*/
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#define CSR_WRITE_4(sc, reg, val) \
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bus_space_write_4(sc->ti_btag, sc->ti_bhandle, reg, val)
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#define CSR_READ_4(sc, reg) \
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bus_space_read_4(sc->ti_btag, sc->ti_bhandle, reg)
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#define TI_SETBIT(sc, reg, x) \
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CSR_WRITE_4(sc, reg, (CSR_READ_4(sc, reg) | x))
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#define TI_CLRBIT(sc, reg, x) \
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CSR_WRITE_4(sc, reg, (CSR_READ_4(sc, reg) & ~x))
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/*
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* Memory management stuff. Note: the SSLOTS, MSLOTS and JSLOTS
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* values are tuneable. They control the actual amount of buffers
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* allocated for the standard, mini and jumbo receive rings.
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*/
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#define TI_SSLOTS 256
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#define TI_MSLOTS 256
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#define TI_JSLOTS 384
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#define TI_JRAWLEN (TI_JUMBO_FRAMELEN + ETHER_ALIGN)
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#define TI_JLEN (TI_JRAWLEN + (sizeof(u_int64_t) - \
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(TI_JRAWLEN % sizeof(u_int64_t))))
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#define TI_JPAGESZ PAGE_SIZE
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#define TI_RESID (TI_JPAGESZ - (TI_JLEN * TI_JSLOTS) % TI_JPAGESZ)
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#define TI_JMEM ((TI_JLEN * TI_JSLOTS) + TI_RESID)
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|
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/*
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* Ring structures. Most of these reside in host memory and we tell
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* the NIC where they are via the ring control blocks. The exceptions
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* are the tx and command rings, which live in NIC memory and which
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* we access via the shared memory window.
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*/
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struct ti_ring_data {
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struct ti_rx_desc ti_rx_std_ring[TI_STD_RX_RING_CNT];
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#ifdef PRIVATE_JUMBOS
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struct ti_rx_desc ti_rx_jumbo_ring[TI_JUMBO_RX_RING_CNT];
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#else
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struct ti_rx_desc_ext ti_rx_jumbo_ring[TI_JUMBO_RX_RING_CNT];
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#endif
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struct ti_rx_desc ti_rx_mini_ring[TI_MINI_RX_RING_CNT];
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struct ti_rx_desc ti_rx_return_ring[TI_RETURN_RING_CNT];
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struct ti_event_desc ti_event_ring[TI_EVENT_RING_CNT];
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struct ti_tx_desc ti_tx_ring[TI_TX_RING_CNT];
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|
/*
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* Make sure producer structures are aligned on 32-byte cache
|
|
* line boundaries.
|
|
*/
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struct ti_producer ti_ev_prodidx_r;
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u_int32_t ti_pad0[6];
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struct ti_producer ti_return_prodidx_r;
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|
u_int32_t ti_pad1[6];
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|
struct ti_producer ti_tx_considx_r;
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|
u_int32_t ti_pad2[6];
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struct ti_tx_desc *ti_tx_ring_nic;/* pointer to shared mem */
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|
struct ti_cmd_desc *ti_cmd_ring; /* pointer to shared mem */
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|
struct ti_gib ti_info;
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|
};
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|
|
|
/*
|
|
* Mbuf pointers. We need these to keep track of the virtual addresses
|
|
* of our mbuf chains since we can only convert from physical to virtual,
|
|
* not the other way around.
|
|
*/
|
|
struct ti_chain_data {
|
|
struct mbuf *ti_tx_chain[TI_TX_RING_CNT];
|
|
struct mbuf *ti_rx_std_chain[TI_STD_RX_RING_CNT];
|
|
struct mbuf *ti_rx_jumbo_chain[TI_JUMBO_RX_RING_CNT];
|
|
struct mbuf *ti_rx_mini_chain[TI_MINI_RX_RING_CNT];
|
|
/* Stick the jumbo mem management stuff here too. */
|
|
caddr_t ti_jslots[TI_JSLOTS];
|
|
void *ti_jumbo_buf;
|
|
};
|
|
|
|
struct ti_type {
|
|
u_int16_t ti_vid;
|
|
u_int16_t ti_did;
|
|
char *ti_name;
|
|
};
|
|
|
|
#define TI_HWREV_TIGON 0x01
|
|
#define TI_HWREV_TIGON_II 0x02
|
|
#define TI_TIMEOUT 1000
|
|
#define TI_TXCONS_UNSET 0xFFFF /* impossible value */
|
|
|
|
struct ti_mc_entry {
|
|
struct ether_addr mc_addr;
|
|
SLIST_ENTRY(ti_mc_entry) mc_entries;
|
|
};
|
|
|
|
struct ti_jpool_entry {
|
|
int slot;
|
|
SLIST_ENTRY(ti_jpool_entry) jpool_entries;
|
|
};
|
|
|
|
typedef enum {
|
|
TI_FLAG_NONE = 0x00,
|
|
TI_FLAG_DEBUGING = 0x01,
|
|
TI_FLAG_WAIT_FOR_LINK = 0x02
|
|
} ti_flag_vals;
|
|
|
|
struct ti_softc {
|
|
STAILQ_ENTRY(ti_softc) ti_links;
|
|
struct ifnet *ti_ifp;
|
|
bus_space_handle_t ti_bhandle;
|
|
vm_offset_t ti_vhandle;
|
|
bus_space_tag_t ti_btag;
|
|
void *ti_intrhand;
|
|
struct resource *ti_irq;
|
|
struct resource *ti_res;
|
|
struct ifmedia ifmedia; /* media info */
|
|
u_int8_t ti_unit; /* interface number */
|
|
u_int8_t ti_hwrev; /* Tigon rev (1 or 2) */
|
|
u_int8_t ti_copper; /* 1000baseTX card */
|
|
u_int8_t ti_linkstat; /* Link state */
|
|
int ti_hdrsplit; /* enable header splitting */
|
|
bus_dma_tag_t ti_parent_dmat;
|
|
bus_dma_tag_t ti_rdata_dmat;
|
|
bus_dmamap_t ti_rdata_dmamap;
|
|
uint32_t ti_rdata_phys;
|
|
struct ti_ring_data *ti_rdata; /* rings */
|
|
struct ti_chain_data ti_cdata; /* mbufs */
|
|
#define ti_ev_prodidx ti_rdata->ti_ev_prodidx_r
|
|
#define ti_return_prodidx ti_rdata->ti_return_prodidx_r
|
|
#define ti_tx_considx ti_rdata->ti_tx_considx_r
|
|
u_int16_t ti_tx_saved_considx;
|
|
u_int16_t ti_rx_saved_considx;
|
|
u_int16_t ti_ev_saved_considx;
|
|
u_int16_t ti_cmd_saved_prodidx;
|
|
u_int16_t ti_std; /* current std ring head */
|
|
u_int16_t ti_mini; /* current mini ring head */
|
|
u_int16_t ti_jumbo; /* current jumo ring head */
|
|
SLIST_HEAD(__ti_mchead, ti_mc_entry) ti_mc_listhead;
|
|
SLIST_HEAD(__ti_jfreehead, ti_jpool_entry) ti_jfree_listhead;
|
|
SLIST_HEAD(__ti_jinusehead, ti_jpool_entry) ti_jinuse_listhead;
|
|
u_int32_t ti_stat_ticks;
|
|
u_int32_t ti_rx_coal_ticks;
|
|
u_int32_t ti_tx_coal_ticks;
|
|
u_int32_t ti_rx_max_coal_bds;
|
|
u_int32_t ti_tx_max_coal_bds;
|
|
u_int32_t ti_tx_buf_ratio;
|
|
int ti_if_flags;
|
|
int ti_txcnt;
|
|
struct mtx ti_mtx;
|
|
ti_flag_vals ti_flags;
|
|
struct cdev *dev;
|
|
};
|
|
|
|
#define TI_LOCK(_sc) mtx_lock(&(_sc)->ti_mtx)
|
|
#define TI_UNLOCK(_sc) mtx_unlock(&(_sc)->ti_mtx)
|
|
#define TI_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->ti_mtx, MA_OWNED)
|
|
|
|
/*
|
|
* Microchip Technology 24Cxx EEPROM control bytes
|
|
*/
|
|
#define EEPROM_CTL_READ 0xA1 /* 0101 0001 */
|
|
#define EEPROM_CTL_WRITE 0xA0 /* 0101 0000 */
|
|
|
|
/*
|
|
* Note that EEPROM_START leaves transmission enabled.
|
|
*/
|
|
#define EEPROM_START \
|
|
TI_SETBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_CLK); /* Pull clock pin high */\
|
|
TI_SETBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_DOUT); /* Set DATA bit to 1 */ \
|
|
TI_SETBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_TXEN); /* Enable xmit to write bit */\
|
|
TI_CLRBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_DOUT); /* Pull DATA bit to 0 again */\
|
|
TI_CLRBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_CLK); /* Pull clock low again */
|
|
|
|
/*
|
|
* EEPROM_STOP ends access to the EEPROM and clears the ETXEN bit so
|
|
* that no further data can be written to the EEPROM I/O pin.
|
|
*/
|
|
#define EEPROM_STOP \
|
|
TI_CLRBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_TXEN); /* Disable xmit */ \
|
|
TI_CLRBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_DOUT); /* Pull DATA to 0 */ \
|
|
TI_SETBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_CLK); /* Pull clock high */ \
|
|
TI_SETBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_TXEN); /* Enable xmit */ \
|
|
TI_SETBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_DOUT); /* Toggle DATA to 1 */ \
|
|
TI_CLRBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_TXEN); /* Disable xmit. */ \
|
|
TI_CLRBIT(sc, TI_MISC_LOCAL_CTL, TI_MLC_EE_CLK); /* Pull clock low again */
|
|
|
|
|
|
#ifdef __alpha__
|
|
#undef vtophys
|
|
#define vtophys(va) alpha_XXX_dmamap((vm_offset_t)va)
|
|
#endif
|