NetBSD/sys/dev/marvell/gtpcireg.h
2003-03-24 17:03:18 +00:00

965 lines
40 KiB
C

/* $NetBSD: gtpcireg.h,v 1.2 2003/03/24 17:03:18 matt Exp $ */
/*
* Copyright (c) 2002 Allegro Networks, Inc., Wasabi Systems, Inc.
* 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. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed for the NetBSD Project by
* Allegro Networks, Inc., and Wasabi Systems, Inc.
* 4. The name of Allegro Networks, Inc. may not be used to endorse
* or promote products derived from this software without specific prior
* written permission.
* 5. The name of Wasabi Systems, Inc. may not be used to endorse
* or promote products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY ALLEGRO NETWORKS, INC. AND
* WASABI SYSTEMS, INC. ``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 EITHER ALLEGRO NETWORKS, INC. OR WASABI SYSTEMS, INC.
* 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.
*/
#ifndef _DEV_GTPCIREG_H
#define _DEV_GTPCIREG_H
#define PCI__BIT(bit) (1U << (bit))
#define PCI__MASK(bit) (PCI__BIT(bit) - 1)
#define PCI__GEN(bus, off, num) (((off)^((bus) << 7))+((num) << 4))
#define PCI__EXT(data, bit, len) (((data) >> (bit)) & PCI__MASK(len))
#define PCI__CLR(data, bit, len) ((data) &= ~(PCI__MASK(len) << (bit)))
#define PCI__INS(bit, new) ((new) << (bit))
#define PCI_SYNC_REG(bus) (0xc0 | ((bus) << 3))
/*
* Table 185: PCI Slave ADDRess Decoding Register Map
*/
#define PCI_SCS0_BAR_SIZE(bus) PCI__GEN(bus, 0x0c08, 0)
#define PCI_SCS2_BAR_SIZE(bus) PCI__GEN(bus, 0x0c0c, 0)
#define PCI_CS0_BAR_SIZE(bus) PCI__GEN(bus, 0x0c10, 0)
#define PCI_CS3_BAR_SIZE(bus) PCI__GEN(bus, 0x0c14, 0)
#define PCI_SCS1_BAR_SIZE(bus) PCI__GEN(bus, 0x0d08, 0)
#define PCI_SCS3_BAR_SIZE(bus) PCI__GEN(bus, 0x0d0c, 0)
#define PCI_CS1_BAR_SIZE(bus) PCI__GEN(bus, 0x0d10, 0)
#define PCI_BOOTCS_BAR_SIZE(bus) PCI__GEN(bus, 0x0d14, 0)
#define PCI_CS2_BAR_SIZE(bus) PCI__GEN(bus, 0x0d18, 0)
#define PCI_P2P_MEM0_BAR_SIZE(bus) PCI__GEN(bus, 0x0d1c, 0)
#define PCI_P2P_MEM1_BAR_SIZE(bus) PCI__GEN(bus, 0x0d20, 0)
#define PCI_P2P_IO_BAR_SIZE(bus) PCI__GEN(bus, 0x0d24, 0)
#define PCI_CPU_BAR_SIZE(bus) PCI__GEN(bus, 0x0d28, 0)
#define PCI_EXPANSION_ROM_BAR_SIZE(bus) PCI__GEN(bus, 0x0d2c, 0)
#define PCI_DAC_SCS0_BAR_SIZE(bus) PCI__GEN(bus, 0x0e00, 0)
#define PCI_DAC_SCS1_BAR_SIZE(bus) PCI__GEN(bus, 0x0e04, 0)
#define PCI_DAC_SCS2_BAR_SIZE(bus) PCI__GEN(bus, 0x0e08, 0)
#define PCI_DAC_SCS3_BAR_SIZE(bus) PCI__GEN(bus, 0x0e0c, 0)
#define PCI_DAC_CS0_BAR_SIZE(bus) PCI__GEN(bus, 0x0e10, 0)
#define PCI_DAC_CS1_BAR_SIZE(bus) PCI__GEN(bus, 0x0e14, 0)
#define PCI_DAC_CS2_BAR_SIZE(bus) PCI__GEN(bus, 0x0e18, 0)
#define PCI_DAC_CS3_BAR_SIZE(bus) PCI__GEN(bus, 0x0e1c, 0)
#define PCI_DAC_BOOTCS_BAR_SIZE(bus) PCI__GEN(bus, 0x0e20, 0)
#define PCI_DAC_P2P_MEM0_BAR_SIZE(bus) PCI__GEN(bus, 0x0e24, 0)
#define PCI_DAC_P2P_MEM1_BAR_SIZE(bus) PCI__GEN(bus, 0x0e28, 0)
#define PCI_DAC_CPU_BAR_SIZE(bus) PCI__GEN(bus, 0x0e2c, 0)
#define PCI_BASE_ADDR_REGISTERS_ENABLE(bus) PCI__GEN(bus, 0x0c3c, 0)
#define PCI_SCS0_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0c48, 0)
#define PCI_SCS1_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d48, 0)
#define PCI_SCS2_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0c4c, 0)
#define PCI_SCS3_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d4c, 0)
#define PCI_CS0_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0c50, 0)
#define PCI_CS1_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d50, 0)
#define PCI_CS2_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d58, 0)
#define PCI_CS3_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0c54, 0)
#define PCI_ADDR_DECODE_CONTROL(bus) PCI__GEN(bus, 0x0d3c, 0)
#define PCI_BOOTCS_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d54, 0)
#define PCI_P2P_MEM0_BASE_ADDR_REMAP_LOW(bus) PCI__GEN(bus, 0x0d5c, 0)
#define PCI_P2P_MEM0_BASE_ADDR_REMAP_HIGH(bus) PCI__GEN(bus, 0x0d60, 0)
#define PCI_P2P_MEM1_BASE_ADDR_REMAP_LOW(bus) PCI__GEN(bus, 0x0d64, 0)
#define PCI_P2P_MEM1_BASE_ADDR_REMAP_HIGH(bus) PCI__GEN(bus, 0x0d68, 0)
#define PCI_P2P_IO_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d6c, 0)
#define PCI_CPU_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0d70, 0)
#define PCI_DAC_SCS0_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f00, 0)
#define PCI_DAC_SCS1_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f04, 0)
#define PCI_DAC_SCS2_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f08, 0)
#define PCI_DAC_SCS3_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f0c, 0)
#define PCI_DAC_CS0_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f10, 0)
#define PCI_DAC_CS1_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f14, 0)
#define PCI_DAC_CS2_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f18, 0)
#define PCI_DAC_CS3_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f1c, 0)
#define PCI_DAC_BOOTCS_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f20, 0)
#define PCI_DAC_P2P_MEM0_BASE_ADDR_REMAP_LOW(bus) PCI__GEN(bus, 0x0f24, 0)
#define PCI_DAC_P2P_MEM0_BASE_ADDR_REMAP_HIGH(bus) PCI__GEN(bus, 0x0f28, 0)
#define PCI_DAC_P2P_MEM1_BASE_ADDR_REMAP_LOW(bus) PCI__GEN(bus, 0x0f2c, 0)
#define PCI_DAC_P2P_MEM1_BASE_ADDR_REMAP_HIGH(bus) PCI__GEN(bus, 0x0f30, 0)
#define PCI_DAC_CPU_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f34, 0)
#define PCI_EXPANSION_ROM_BASE_ADDR_REMAP(bus) PCI__GEN(bus, 0x0f38, 0)
/*
* Table 186: PCI Control Register Map
*/
#define PCI_COMMAND(bus) PCI__GEN(bus, 0x0c00, 0)
#define PCI_MODE(bus) PCI__GEN(bus, 0x0d00, 0)
#define PCI_TIMEOUT_RETRY(bus) PCI__GEN(bus, 0x0c04, 0)
#define PCI_READ_BUFFER_DISCARD_TIMER(bus) PCI__GEN(bus, 0x0d04, 0)
#define PCI_MSI_TRIGGER_TIMER(bus) PCI__GEN(bus, 0x0c38, 0)
#define PCI_ARBITER_CONTROL(bus) PCI__GEN(bus, 0x1d00, 0)
#define PCI_INTERFACE_XBAR_CONTROL_LOW(bus) PCI__GEN(bus, 0x1d08, 0)
#define PCI_INTERFACE_XBAR_CONTROL_HIGH(bus) PCI__GEN(bus, 0x1d0c, 0)
#define PCI_INTERFACE_XBAR_TIMEOUT(bus) PCI__GEN(bus, 0x1d04, 0)
#define PCI_READ_RESPONSE_XBAR_CONTROL_LOW(bus) PCI__GEN(bus, 0x1d18, 0)
#define PCI_READ_RESPONSE_XBAR_CONTROL_HIGH(bus) PCI__GEN(bus, 0x1d1c, 0)
#define PCI_SYNC_BARRIER(bus) PCI__GEN(bus, 0x1d10, 0)
#define PCI_P2P_CONFIGURATION(bus) PCI__GEN(bus, 0x1d14, 0)
#define PCI_P2P_SWAP_CONTROL(bus) PCI__GEN(bus, 0x1d54, 0)
#define PCI_ACCESS_CONTROL_BASE_LOW(bus, n) PCI__GEN(bus, 0x1e00, n)
#define PCI_ACCESS_CONTROL_BASE_HIGH(bus, n) PCI__GEN(bus, 0x1e04, n)
#define PCI_ACCESS_CONTROL_TOP(bus, n) PCI__GEN(bus, 0x1e08, n)
/*
* Table 187: PCI Snoop Control Register Map
*/
#define PCI_SNOOP_CONTROL_BASE_LOW(bus, n) PCI__GEN(bus, 0x1f00, n)
#define PCI_SNOOP_CONTROL_BASE_HIGH(bus, n) PCI__GEN(bus, 0x1f04, n)
#define PCI_SNOOP_CONTROL_TOP(bus, n) PCI__GEN(bus, 0x1f08, n)
/*
* Table 188: PCI Configuration ACCESS_Register Map
*/
#define PCI_CONFIG_ADDR(bus) PCI__GEN(bus, 0x0cf8, 0)
#define PCI_CONFIG_DATA(bus) PCI__GEN(bus, 0x0cfc, 0)
#define PCI_INTR_ACK(bus) PCI__GEN(bus, 0x0c34, 0)
/*
* Table 189: PCI ERROR Report Register Map
*/
#define PCI_SERR_MASK(bus) PCI__GEN(bus, 0x0c28, 0)
#define PCI_ERROR_ADDRESS_LOW(bus) PCI__GEN(bus, 0x1d40, 0)
#define PCI_ERROR_ADDRESS_HIGH(bus) PCI__GEN(bus, 0x1d44, 0)
#define PCI_ERROR_DATA_LOW(bus) PCI__GEN(bus, 0x1d48, 0)
#define PCI_ERROR_DATA_HIGH(bus) PCI__GEN(bus, 0x1d4c, 0)
#define PCI_ERROR_COMMAND(bus) PCI__GEN(bus, 0x1d50, 0)
#define PCI_ERROR_CAUSE(bus) PCI__GEN(bus, 0x1d58, 0)
#define PCI_ERROR_MASK(bus) PCI__GEN(bus, 0x1d5c, 0)
/*
* Table 223: PCI Base Address Registers Enable
* If a bit is clear, the BAR is enabled. If set, disabled. The GT64260]
* prevents disabling both memory mapped and I/O mapped BARs (bits 9 and 10
* cannot simultaneously be set to 1).
*/
#define PCI_BARE_SCS0En PCI__BIT(0) /* SCS[0]* BAR Enable */
#define PCI_BARE_SCS1En PCI__BIT(1) /* SCS[1]* BAR Enable */
#define PCI_BARE_SCS2En PCI__BIT(2) /* SCS[2]* BAR Enable */
#define PCI_BARE_SCS3En PCI__BIT(3) /* SCS[3]* BAR Enable */
#define PCI_BARE_CS0En PCI__BIT(4) /* CS[0]* BAR Enable */
#define PCI_BARE_CS1En PCI__BIT(5) /* CS[1]* BAR Enable */
#define PCI_BARE_CS2En PCI__BIT(6) /* CS[2]* BAR Enable */
#define PCI_BARE_CS3En PCI__BIT(7) /* CS[3]* BAR Enable */
#define PCI_BARE_BootCSEn PCI__BIT(8) /* BootCS* BAR Enable */
#define PCI_BARE_IntMemEn PCI__BIT(9) /* Memory Mapped Internal
* Registers BAR Enable */
#define PCI_BARE_IntIOEn PCI__BIT(10) /* I/O Mapped Internal
* Registers BAR Enable */
#define PCI_BARE_P2PMem0En PCI__BIT(11) /* P2P Mem0 BAR Enable */
#define PCI_BARE_P2PMem1En PCI__BIT(12) /* P2P Mem1 BAR Enable */
#define PCI_BARE_P2PIOEn PCI__BIT(13) /* P2P IO BAR Enable */
#define PCI_BARE_CPUEn PCI__BIT(14) /* CPU BAR Enable */
#define PCI_BARE_DSCS0En PCI__BIT(15) /* DAC SCS[0]* BAR Enable */
#define PCI_BARE_DSCS1En PCI__BIT(16) /* DAC SCS[1]* BAR Enable */
#define PCI_BARE_DSCS2En PCI__BIT(17) /* DAC SCS[2]* BAR Enable */
#define PCI_BARE_DSCS3En PCI__BIT(18) /* DAC SCS[3]* BAR Enable */
#define PCI_BARE_DCS0En PCI__BIT(19) /* DAC CS[0]* BAR Enable */
#define PCI_BARE_DCS1En PCI__BIT(20) /* DAC CS[1]* BAR Enable */
#define PCI_BARE_DCS2En PCI__BIT(21) /* DAC CS[2]* BAR Enable */
#define PCI_BARE_DCS3En PCI__BIT(22) /* DAC CS[3]* BAR Enable */
#define PCI_BARE_DBootCSEn PCI__BIT(23) /* DAC BootCS* BAR Enable */
#define PCI_BARE_DP2PMem0En PCI__BIT(24) /* DAC P2P Mem0 BAR Enable */
#define PCI_BARE_DP2PMem1En PCI__BIT(25) /* DAC P2P Mem1 BAR Enable */
#define PCI_BARE_DCPUEn PCI__BIT(26) /* DAC CPU BAR Enable */
/*
* Table 254: PCI Address Decode Control
* Bits 7:4 and 31:25 are reserved
* 00:00 RemapWrDis Address Remap Registers Write Disable
* 0: Writes to a BAR result in updating the
* corresponding remap register with the BAR's
* new value.
* 1: Writes to a BAR have no affect on the
* corresponding Remap register value.
* 01:01 ExpRomDev Expansion ROM Device (0: CS[3]; 1: BootCS)
* 02:02 VPDDev VPD Device (0: CS[3]; 1: BootCS)
* 03:03 MsgAcc Messaging registers access
* 0: Messaging unit registers are accessible on
* lowest 4Kbyte of SCS[0] BAR space.
* 1: Messaging unit registers are only accessible
* as part of the GT64260 internal space.
* 07:04 Reserved
* 24:08 VPDHighAddr VPD High Address bits
* [31:15] of VPD the address.
* 31:25 Reserved
*/
#define PCI_ADC_RemapWrDis PCI__BIT(0)
#define PCI_ADC_ExpRomDev PCI__BIT(1)
#define PCI_ADC_VPDDev PCI__BIT(2)
#define PCI_ADC_MsgAcc PCI__BIT(3)
#define PCI_ADC_VPDHighAddr_GET(v) PCI__EXT(v, 8, 16)
/*
* Table 255: PCI Command
* 00:00 MByteSwap PCI Master Byte Swap
* NOTE: GT-64120 and GT-64130 compatible.
* When set to 0, the GTO64260 PCI master swaps the bytes
* of the incoming and outgoing PCI data (swap the 8 bytes
* of a longword).
* 01:01 Reserved
* 02:02 Reserved Must be 0.
* 03:03 Reserved
* 04:04 MWrCom PCI Master Write Combine Enable
* When set to 1, write combining is enabled.
* 05:05 MRdCom PCI Master Read Combine Enable
* When set to 1, read combining is enabled.
* 06:06 MWrTrig PCI Master Write Trigger
* 0: Accesses the PCI bus only when the whole burst is
* written into the master write buffer.
* 1: Accesses the PCI bus when the first data is written
* into the master write buffer.
* 07:07 MRdTrig PCI Master Read Trigger
* 0: Returns read data to the initiating unit only when
* the whole burst is written into master read buffer.
* 1: Returns read data to the initiating unit when the
* first read data is written into master read buffer.
* 08:08 MRdLine PCI Master Memory Read Line Enable
* (0: Disable; 1: Enable)
* 09:09 MRdMul PCI Master Memory Read Multiple Enable
* (0: Disable; 1: Enable)
* 10:10 MWordSwap PCI Master Word Swap
* NOTE: GT-64120 and GT-64130 compatible.
* When set to 1, the GT64260 PCI master swaps the 32-bit
* words of the incoming and outgoing PCI data.
* 11:11 SWordSwap PCI Slave Word Swap
* NOTE: GT-64120 and GT-64130 compatible.
* When set to 1, the GT64260 PCI slave swaps the 32-bit
* words of the incoming and outgoing PCI data.
* 12:12 IntBusCtl PCI Interface Unit Internal Bus Control
* NOTE: Reserved for Galileo Technology usage
* 0: Enable internal bus sharing between master and
* slave interfaces.
* 1: Disable internal bus sharing between master and
* slave interfaces.
* 13:13 SBDis PCI Slave Sync Barrier Disable
* When set to 1, the PCI configuration read transaction
* will stop act as sync barrier transaction.
* 14:14 Reserved Must be 0
* 15:15 MReq64 PCI Master REQ64* Enable (0: Disable; 1: Enable)
* 16:16 SByteSwap PCI Slave Byte Swap
* NOTE: GT-64120 and GT-64130 compatible.
* When set to 0, the GT64260 PCI slave swaps the bytes of
* the incoming and outgoing PCI data (swap the 8 bytes of
* a long-word).
* 17:17 MDACEn PCI Master DAC Enable
* 0: Disable (The PCI master never drives the DAC cycle)
* 1: Enable (In case the upper 32-bit address is not 0,
* the PCI master drives the DAC cycle)
* 18:18 M64Allign PCI Master REQ64* assertion on non-aligned
* 0: Disable (The master asserts REQ64* only if
* the address is 64-bit aligned)
* 1: Enable (The master asserts REQ64* even if
* the address is not 64-bit aligned)
* 19:19 PErrProp Parity/ECC Errors Propagation Enable
* 0: Disable (The PCI interface always drives
* correct parity on the PAR signal)
* 1: Enable (In case of slave read bad ECC from
* SDRAM, or master write with bad parity/ECC
* indication from the initiator, the PCI interface
* drives bad parity on the PAR signal)
* 20:20 SSwapEn PCI Slave Swap Enable
* NOTE: Even if the SSwapEn bit is set to 1 and
* the PCI address does not match any of the
* Access Control registers, slave data swapping
* works according to SByteSwap and SWordSwap bits.
* 0: PCI slave data swapping is determined via
* SByteSwap and SWordSwap bits (bits 16 and 11),
* as in the GT-64120/130.
* 1: PCI slave data swapping is determined via PCISwap
* bits [25:24] in the PCI Access Control registers.
* 21:21 MSwapEn PCI Master Swap Enable
* 0: PCI master data swapping is determined via
* MByteSwap and MWordSwap bits (bits 0 and 10),
* as in the GT-64120/130.
* 1: PCI master data swapping is determined via
* PCISwap bits in CPU to PCI Address Decoding
* registers.
* 22:22 MIntSwapEn PCI Master Configuration Transactions Data Swap Enable
* NOTE: Reserved for Galileo Technology usage.
* 0: Disable (The PCI master configuration transaction
* to the PCI bus is always in Little Endian convention)
* 1: Enable (The PCI master configuration transaction to
* the PCI bus is determined according to the setting
* of MSwapEn bit)
* 23:23 LBEn PCI Loop Back Enable
* NOTE: Reserved for Galileo Technology usage.
* 0: Disable (The PCI slave does not respond to
* transactions initiated by the PCI master)
* 1: Enable (The PCI slave does respond to
* transactions initiated by the PCI master,
* if targeted to the slave (address match)
* 26:24 SIntSwap PCI Slave data swap control on PCI accesses to the
* GT64260 internal and configuration registers.
* Bits encoding are the same as bits[26:24] in PCI Access
* Control registers.
* 27:27 Reserved Must be 0.
* 31:28 Reserved Read only.
*/
#define PCI_CMD_MByteSwap PCI__BIT(0)
#define PCI_CMD_MBZ0_2 PCI__BIT(2)
#define PCI_CMD_MWrCom PCI__BIT(4)
#define PCI_CMD_MRdCom PCI__BIT(5)
#define PCI_CMD_MWrTrig PCI__BIT(6)
#define PCI_CMD_MRdTrig PCI__BIT(7)
#define PCI_CMD_MRdLine PCI__BIT(8)
#define PCI_CMD_MRdMul PCI__BIT(9)
#define PCI_CMD_MWordSwap PCI__BIT(10)
#define PCI_CMD_SWordSwap PCI__BIT(11)
#define PCI_CMD_IntBusCtl PCI__BIT(12)
#define PCI_CMD_SBDis PCI__BIT(13)
#define PCI_CMD_MBZ0_14 PCI__BIT(14)
#define PCI_CMD_MReq64 PCI__BIT(15)
#define PCI_CMD_SByteSwap PCI__BIT(16)
#define PCI_CMD_MDCAEn PCI__BIT(17)
#define PCI_CMD_M64Allign PCI__BIT(18)
#define PCI_CMD_PErrProp PCI__BIT(19)
#define PCI_CMD_SSwapEn PCI__BIT(20)
#define PCI_CMD_MSwapEn PCI__BIT(21)
#define PCI_CMD_MIntSwapEn PCI__BIT(22)
#define PCI_CMD_LBEn PCI__BIT(23)
#define PCI_CMD_SIntSwap_GET(v) PCI__EXT(v, 24, 3)
#define PCI_CMD_MBZ0_27 PCI__BIT(27)
/*
* Table 256: PCI Mode
* 00:00 PciID PCI Interface ID -- Read Only (PCI_0: 0x0; PCI_1: 0x1)
* 01:01 Reserved
* 02:02 Pci64 64-bit PCI Interface -- Read Only
* When set to 1, the PCI interface is configured to a
* 64 bit interface.
* 07:03 Reserved
* 08:08 ExpRom Expansion ROM Enable -- Read Only from PCI
* When set to 1, the expansion ROM BAR is enabled.
* 09:09 VPD VPD Enable -- Read Only from PCI
* When set to 1, VPD is supported.
* 10:10 MSI MSI Enable -- Read Only from PCI
* When set to 1, MSI is supported.
* 11:11 PMG Power Management Enable -- Read Only from PCI
* When set to 1, PMG is supported.
* 12:12 HotSwap CompactPCI Hot Swap Enable -- Read Only from PCI
* When set to 1, HotSwap is supported.
* 13:13 BIST BIST Enable -- Read only from PCI
* If set to 1, BIST is enabled.
* 30:14 Reserved
* 31:31 PRst PCI Interface Reset Indication -- Read Only
* Set to 0 as long as the RST* pin is asserted.
*/
#define PCI_MODE_PciID_GET(v) PCI__EXT(v, 0, 1)
#define PCI_MODE_Pci64 PCI__BIT(2)
#define PCI_MODE_ExpRom PCI__BIT(8)
#define PCI_MODE_VPD PCI__BIT(9)
#define PCI_MODE_MSI PCI__BIT(10)
#define PCI_MODE_PMG PCI__BIT(11)
#define PCI_MODE_HotSwap PCI__BIT(12)
#define PCI_MODE_BIST PCI__BIT(13)
#define PCI_MODE_PRst PCI__BIT(31)
/*
* Table 257: PCI Timeout and Retry
* 07:00 Timeout0 Specifies the number of PClk cycles the GT64260 slave
* holds the PCI bus before terminating a transaction
* with RETRY.
* 15:08 Timeout1 Specifies the number of PClk cycles the GT64260 slave
* holds the PCI bus before terminating a transaction
* with DISCONNECT.
* 23:16 RetryCtr Retry Counter
* Specifies the number of retries of the GT64260 Master.
* The GT64260 generates an interrupt when this timer
* expires. A 0x00 value means a retry forever.
* 31:24 Reserved
*/
#define PCI_TMORTRY_Timeout0_GET(v) PCI__EXT(v, 0, 8)
#define PCI_TMORTRY_Timeout1_GET(v) PCI__EXT(v, 8, 8)
#define PCI_TMORTRY_RetryCtr_GET(v) PCI__EXT(v, 16, 8)
/*
* Table 258: PCI Read Buffer Discard Timer
* 15:00 Timer Specifies the number of PClk cycles the GT64260
* slave keeps an non-accessed read buffers (non com-
* pleted delayed read) before invalidating the buffer.
* 23:16 RdBufEn Slave Read Buffers Enable
* Each bit corresponds to one of the eight read buffers.
* If set to 1, buffer is enabled.
* 31:24 Reserved
*/
#define PCI_RdBufDisTmr_Timer_GET(v) PCI__EXT(v, 0, 16)
#define PCI_RdBufDisTmr_RdBufEn_GET(v) PCI__EXT(v, 16, 8)
#define PCI_RdBufDisTmr_RdBufEn0(v) PCI__BIT(16)
#define PCI_RdBufDisTmr_RdBufEn1(v) PCI__BIT(17)
#define PCI_RdBufDisTmr_RdBufEn2(v) PCI__BIT(18)
#define PCI_RdBufDisTmr_RdBufEn3(v) PCI__BIT(19)
#define PCI_RdBufDisTmr_RdBufEn4(v) PCI__BIT(20)
#define PCI_RdBufDisTmr_RdBufEn5(v) PCI__BIT(21)
#define PCI_RdBufDisTmr_RdBufEn6(v) PCI__BIT(22)
#define PCI_RdBufDisTmr_RdBufEn7(v) PCI__BIT(23)
/*
* Table 259: MSI Trigger Timer
* 15:00 Timer Specifies the number of TClk cycles between consecutive
* MSI requests.
* 31:16 Reserved
*/
#define PCI_MSITrigger_Timer_GET(v) PCI__EXT(v, 0, 16)
/*
* Table 260: PCI Arbiter Control
* NOTE: If HPPV (bits [28:21]) is set to 0 and PAEn is set to 1,
* priority scheme is reversed. This means that high priority
* requests are granted if no low priority request is pending.
* 00:00 Reserved Must be 0. 0x0
* 01:01 BDEn Broken Detection Enable
* If set to 1, broken master detection is enabled. A mas-
* ter is said to be broken if it fails to respond to grant
* assertion within a window specified in BV (bits [6:3]).
* 02:02 PAEn Priority Arbitration Enable
* 0: Low priority requests are granted only when no high
* priority request is pending
* 1: Weighted round robin arbitration is performed
* between high priority and low priority groups.
* 06:03 BV Broken Value
* This value sets the maximum number of cycles that the
* arbiter waits for a PCI master to respond to its grant
* assertion. If a PCI master fails to assert FRAME* within
* this time, the PCI arbiter aborts the transaction and
* performs a new arbitration cycle and a maskable
* interrupt is generated. Must be greater than 0.
* NOTE: The PCI arbiter waits for the current
* transaction to end before starting to
* count the wait-for-broken cycles.
* Must be greater than 1 for masters that performs address
* stepping (such as the GTO 64260 PCI master), since they
* require GNT* assertion for two cycles.
* 13:07 P[6:0] Priority
* These bits assign priority levels to the requests
* connected to the PCI arbiter. When a PM bit is set to
* 1, priority of the associated request is high. The
* mapping between P[6:0] bits and the request/grant pairs
* are as follows:
* P[0]: internal PCI master P[1]: external REQ0/GNT0
* P[2]: external REQ1/GNT1 P[3]: external REQ2/GNT2
* P[4]: external REQ3/GNT3 P[5]: external REQ4/GNT4
* P[6]: external REQ5/GNT5
* 20:14 PD[6:0] Parking Disable
* Use these bits to disable parking on any of the PCI
* masters. When a PD bit is set to 1, parking on the
* associated PCI master is disabled.
* NOTE: The arbiter parks on the last master granted
* unless disabled through the PD bit. Also, if
* PD bits are all 1, the PCI arbiter parks on
* the internal PCI master.
* 28:21 HPPV High Priority Preset Value
* This is the preset value of the high priority counter
* (High_cnt). This counter decrements each time a high
* priority request is granted. When the counter reaches
* zero, it reloads with this preset value. The counter
* reloads when a low priority request is granted.
* 30:29 Reserved
* 31:31 EN Enable
* Setting this bit to 1 enables operation of the arbiter.
*/
#define PCI_ARBCTL_MBZ0_0 PCI__BIT(0)
#define PCI_ARBCTL_BDEn PCI__BIT(1)
#define PCI_ARBCTL_PAEn PCI__BIT(2)
#define PCI_ARBCTL_BV_GET(v) PCI__EXT(v, 3, 4)
#define PCI_ARBCTL_P_GET(v) PCI__EXT(v, 7, 7)
#define PCI_ARBCTL_PD_GET(v) PCI__EXT(v, 14, 7)
#define PCI_ARBCTL_HPPV_GET(v) PCI__EXT(v, 21, 7)
#define PCI_ARBCTL_EN PCI__BIT(31)
#define PCI_ARBPRI_IntPci PCI__BIT(0)
#define PCI_ARBPRI_ExtReqGnt0 PCI__BIT(1)
#define PCI_ARBPRI_ExtReqGnt1 PCI__BIT(2)
#define PCI_ARBPRI_EXtReqGnt2 PCI__BIT(3)
#define PCI_ARBPRI_EXtReqGnt3 PCI__BIT(4)
#define PCI_ARBPRI_EXtReqGnt4 PCI__BIT(5)
#define PCI_ARBPRI_EXtReqGnt5 PCI__BIT(6)
/*
* Table 261: PCI Interface Crossbar Control (Low)
* 03:00 Arb0 Slice 0 of PCI master pizza arbiter.
* 07:04 Arb1 Slice 1 of PCI master pizza arbiter.
* 11:08 Arb2 Slice 2 of PCI master pizza arbiter.
* 15:12 Arb3 Slice 3 of PCI master pizza arbiter.
* 19:16 Arb4 Slice 4 of PCI master pizza arbiter.
* 23:20 Arb5 Slice 5 of PCI master pizza arbiter.
* 27:24 Arb6 Slice 6 of PCI master pizza arbiter.
* 31:28 Arb7 Slice 7 of PCI master pizza arbiter.
*/
#define PCI_IFXBRCTL_GET_SLICE(v, n) PCI__EXT(v, (n) * 4, 4)
#define PCI_IFXBRCTL_SET_SLICE(v, n, s) ((void)(PCI__CLR(v, (n)*4, 4),\
(v) |= PCI__INS((n)*4, s)))
/*
* Table 262: PCI Interface Crossbar Control (High)
* 03:00 Arb8 Slice 8 of PCI master pizza arbiter.
* 07:04 Arb9 Slice 9 of PCI master pizza arbiter.
* 11:08 Arb10 Slice 10 of PCI master pizza arbiter.
* 15:12 Arb11 Slice 11 of PCI master pizza arbiter.
* 19:16 Arb12 Slice 12 of PCI master pizza arbiter.
* 23:20 Arb13 Slice 13 of PCI master pizza arbiter.
* 27:24 Arb14 Slice 14 of PCI master pizza arbiter.
* 31:28 Arb15 Slice 15 of PCI master pizza arbiter.
*/
#define PCI_IFXBRCH_GET_SLICE(v, n) PCI__EXT(v, ((n) - 8) * 4, 4)
#define PCI_IFXBRCH_SET_SLICE(v, n, s) ((void)(PCI__CLR(v, ((n)*-8)4, 4),\
(v) |= PCI__INS(((n)-8)*4, s)))
/*
* Table 263: PCI Interface Crossbar Timeout
(NOTE: Reserved for Galileo Technology usage.)
* 07:00 Timeout Crossbar Arbiter Timeout Preset Value
* 15:08 Reserved
* 16:16 TimeoutEn Crossbar Arbiter Timer Enable (1: Disable)
* 31:17 Reserved
*/
#define PCI_IFXBRTMO_Timeout_GET(v) PCI__EXT(v, 0, 8)
#define PCI_IFXBRTMO_TimeoutEn PCI__BIT(16)
/*
* Table 264: PCI Read Response Crossbar Control (Low)
* 03:00 Arb0 Slice 0 of PCI slave pizza arbiter.
* 07:04 Arb1 Slice 1 of PCI slave pizza arbiter.
* 11:08 Arb2 Slice 2 of PCI slave pizza arbiter.
* 15:12 Arb3 Slice 3 of PCI slave pizza arbiter.
* 19:16 Arb4 Slice 4 of PCI slave pizza arbiter.
* 23:20 Arb5 Slice 5 of PCI slave pizza arbiter.
* 27:24 Arb6 Slice 6 of PCI slave pizza arbiter.
* 31:28 Arb7 Slice 7 of PCI slave pizza arbiter.
*/
#define PCI_RRXBRCL_GET_SLICE(v, n) PCI__EXT(v, (n) * 4, 4)
#define PCI_RRXBRCL_SET_SLICE(v, n, s) ((void)(PCI__CLR(v, (n)*4, 4),\
(v) |= PCI__INS((n)*4, s)))
/*
* Table 265: PCI Read Response Crossbar Control (High)
* 03:00 Arb8 Slice 8 of PCI slave pizza arbiter.
* 07:04 Arb9 Slice 9 of PCI slave pizza arbiter.
* 11:08 Arb10 Slice 10 of PCI slave pizza arbiter.
* 15:12 Arb11 Slice 11 of PCI slave pizza arbiter.
* 19:16 Arb12 Slice 12 of PCI slave pizza arbiter.
* 23:20 Arb13 Slice 13 of PCI slave pizza arbiter.
* 27:24 Arb14 Slice 14 of PCI slave pizza arbiter.
* 31:28 Arb15 Slice 15 of PCI slave pizza arbiter.
*/
#define PCI_RRXBRCH_GET_SLICE(v, n) PCI__EXT(v, ((n) - 8) * 4, 4)
#define PCI_RRXBRCH_SET_SLICE(v, n, s) ((void)(PCI__CLR(v, ((n)*-8)4, 4),\
(v) |= PCI__INS(((n)-8)*4, s)))
/*
* Table 266: PCI Sync Barrier Virtual Register
* 31:0 SyncReg Sync Barrier Virtual Register
* PCI read from this register results in PCI slave sync barrier
* action. The returned data is un-deterministic. Read Only.
*/
/*
* Table 267: PCI P2P Configuration
* 07:00 2ndBusL Secondary PCI Interface Bus Range Lower Boundary
* 15:08 2ndBusH Secondary PCI Interface Bus Range Upper Boundary
* 23:16 BusNum The PCI bus number to which the PCI interface
* is connected.
* 28:24 DevNum The PCI interface's device number.
* 31:29 Reserved Reserved.
*/
#define PCI_P2PCFG_2ndBusL_GET(v) PCI__EXT(v, 0, 8)
#define PCI_P2PCFG_2ndBusH_GET(v) PCI__EXT(v, 8, 8)
#define PCI_P2PCFG_BusNum_GET(v) PCI__EXT(v, 16, 8)
#define PCI_P2PCFG_DevNum_GET(v) PCI__EXT(v, 24, 5)
/*
* Table 268: PCI P2P Swap Control
* 02:00 M0Sw P2P Mem0 BAR Swap Control
* 03:03 M0Req64 P2P Mem0 BAR Force REQ64
* 06:04 M1Sw P2P Mem1 BAR Swap Control
* 07:07 M1Req64 P2P Mem1 BAR Force REQ64
* 10:08 DM0Sw P2P DAC Mem0 BAR Swap Control
* 11:11 DM0Req64 P2P DAC Mem0 BAR Force REQ64
* 14:12 DM1Sw P2P DAC Mem1 BAR Swap Control
* 15:15 DM1Req64 P2P DAC Mem1 BAR Force REQ64
* 18:16 IOSw P2P I/O BAR Swap Control
* 19:19 Reserved
* 22:20 CfgSw P2P Configuration Swap Control
* 31:19 Reserved
*/
#define PCI_P2PSWAP_M0Sw_GET(v) PCI__EXT(v, 0, 3)
#define PCI_P2PSWAP_M0Req64 PCI__BIT(3)
#define PCI_P2PSWAP_M1Sw_GET(v) PCI__EXT(v, 4, 3)
#define PCI_P2PSWAP_M1Req64 PCI__BIT(7)
#define PCI_P2PSWAP_DM0Sw_GET(v) PCI__EXT(v, 8, 3)
#define PCI_P2PSWAP_DM0Req64 PCI__BIT(11)
#define PCI_P2PSWAP_DM1Sw_GET(v) PCI__EXT(v, 12, 3)
#define PCI_P2PSWAP_DM1Req64 PCI__BIT(15)
#define PCI_P2PSWAP_CfgSw_GET(v) PCI__EXT(v, 20, 3)
/*
* Table 269: PCI Access Control Base (Low)
* 11:00 Addr Base Address Corresponds to address bits[31:20].
* 12:12 PrefetchEn Read Prefetch Enable
* 0: Prefetch disabled (The PCI slave reads single words)
* 1: Prefetch enabled.
* 14:14 Reserved Must be 0
* 15:15 Reserved
* 16:16 RdPrefetch PCI Read Aggressive Prefetch Enable; 0: Disable;
* 1: Enable (The PCI slave prefetches two
* bursts in advance)
* 17:17 RdLinePrefetch PCI Read Line Aggressive Prefetch Enable; 0: Disable;
* 1: Enable (PCI slave prefetch two bursts in advance)
* 18:18 RdMulPrefetch PCI Read Multiple Aggressive Prefetch Enable
* 0: Disable; 1: Enable (PCI slave prefetch two bursts in
* advance)
* 19:19 Reserved
* 21:20 MBurst PCI Max Burst
* Specifies the maximum burst size for a single transac-
* tion between a PCI slave and the other interfaces
* 00 - 4 64-bit words
* 01 - 8 64-bit words
* 10 - 16 64-bit words
* 11 - Reserved
* 23:22 Reserved
* 25:24 PCISwap Data Swap Control
* 00 - Byte Swap
* 01 - No swapping
* 10 - Both byte and word swap
* 11 - Word swap
* 26:26 Reserved Must be 0
* 27:27 Reserved
* 28:28 AccProt Access Protect (0: PCI access is allowed; 1; Region is
not accessible from PCI)
* 29:29 WrProt Write Protect (0: PCI write is allowed; 1: Region is
* not writeable from PCI)
* 31:30 Reserved
*/
#define PCI_ACCCTLBASEL_Addr_GET(v) PCI__EXT(v, 0, 12)
#define PCI_ACCCTLBASEL_PrefetchEn PCI__BIT(12)
#define PCI_ACCCTLBASEL_MBZ0_14 PCI__BIT(14)
#define PCI_ACCCTLBASEL_RdPrefetch PCI__BIT(16)
#define PCI_ACCCTLBASEL_RdLinePrefetch PCI__BIT(17)
#define PCI_ACCCTLBASEL_RdMulPrefetch PCI__BIT(18)
#define PCI_ACCCTLBASEL_WBurst PCI__EXT(v, 20, 2)
#define PCI_ACCCTLBASEL_WBurst_8_QW PCI__INS(20, PCI_WBURST_8_QW)
#define PCI_ACCCTLBASEL_PCISwap PCI__EXT(v, 24, 2)
#define PCI_ACCCTLBASEL_PCISwap_NoSwap PCI__INS(24, PCI_PCISWAP_NoSwap)
#define PCI_ACCCTLBASEL_MBZ0_26 PCI__BIT(26)
#define PCI_ACCCTLBASEL_AccProt PCI__BIT(28)
#define PCI_ACCCTLBASEL_WrProt PCI__BIT(29)
#define PCI_WBURST_4_QW 0x00
#define PCI_WBURST_8_QW 0x01
#define PCI_WBURST_16_QW 0x02
#define PCI_WBURST_Reserved 0x04
#define PCI_PCISWAP_ByteSwap 0x00
#define PCI_PCISWAP_NoSwap 0x01
#define PCI_PCISWAP_ByteWordSwap 0x02
#define PCI_PCISWAP_WordSwap 0x04
/*
* Table 293: PCI Snoop Control Base (Low)
* 11:00 Addr Base Address Corresponds to address bits[31:20].
* 13:12 Snoop Snoop Type
* 31:14 Reserved
*/
#define PCI_SNOOPCTL_ADDR(v) PCI__EXT(v, 0, 12)
#define PCI_SNOOPCTL_TYPE(v) PCI__EXT(v, 12, 2)
#define PCI_SNOOP_None 0 /* no snoop */
#define PCI_SNOOP_WT 1 /* Snoop to WT region */
#define PCI_SNOOP_WB 2 /* Snoop to WB region */
/*
* Table 305: PCI Configuration Address
*
* 07:02 RegNum Register number.
* 10:08 FunctNum Function number.
* 15:11 DevNum Device number.
* 23:16 BusNum Bus number.
* 31:31 ConfigEn When set, an access to the Configuration Data
* register is translated into a Configuration
* or Special cycle on the PCI bus.
*/
#define PCI_CFG_MAKE_TAG(bus, dev, fun, reg) (PCI__BIT(31)|\
PCI__INS(16, (bus))|\
PCI__INS(11, (dev))|\
PCI__INS( 8, (fun))|\
PCI__INS( 0, (reg)))
#define PCI_CFG_GET_BUSNO(tag) PCI__EXT(tag, 16, 8)
#define PCI_CFG_GET_DEVNO(tag) PCI__EXT(tag, 11, 5)
#define PCI_CFG_GET_FUNCNO(tag) PCI__EXT(tag, 8, 3)
#define PCI_CFG_GET_REGNO(tag) PCI__EXT(tag, 0, 8)
/*
* Table 306: PCI Configuration Data
*
* 31:00 ConfigData The data is transferred to/from the PCI bus when
* the CPU accesses this register and the ConfigEn
* bit in the Configuration Address register is set
*
* A CPU access to this register causes the GT64260 to perform a Configuration
* or Special cycle on the PCI bus.
*/
/*
* Table 307: PCI Interrupt Acknowledge (This register is READ ONLY)
* 31:00 IntAck A CPU read access to this register forces an
* interrupt acknowledge cycle on the PCI bus.
*/
/*
* Table 308: PCI SERR* Mask
*
* NOTE: The GT64260 asserts SERR* only if SERR* is enabled via the PCI Status
* and Command register.
* If the corresponding bit is set, then asserts SERR* upon ...
*/
#define PCI_SERRMSK_SAPerr PCI__BIT(0) /* PCI slave detection of bad
* address parity. */
#define PCI_SERRMSK_SWrPerr PCI__BIT(1) /* PCI slave detection of bad
* write data parity. */
#define PCI_SERRMSK_SRdPerr PCI__BIT(2) /* a PERR* response to read
* data driven by the PCI
* slave. */
#define PCI_SERRMSK_MAPerr PCI__BIT(4) /* a PERR* response to an
* address driven by the PCI
* master. */
#define PCI_SERRMSK_MWrPerr PCI__BIT(5) /* a PERR* response to write
* data driven by the PCI
* master. */
#define PCI_SERRMSK_MRdPerr PCI__BIT(6) /* bad data parity detection
* during a PCI master read
* transaction. */
#define PCI_SERRMSK_MMabort PCI__BIT(8) /* a PCI master generation of
* master abort. */
#define PCI_SERRMSK_MTabort PCI__BIT(9) /* a PCI master detection of
* target abort. */
#define PCI_SERRMSK_MRetry PCI__BIT(11) /* a PCI master reaching retry
* counter limit. */
#define PCI_SERRMSK_SMabort PCI__BIT(16) /* a PCI slave detection of
* master abort. */
#define PCI_SERRMSK_STabort PCI__BIT(17) /* a PCI slave termination of
* a transaction with Target
* Abort. */
#define PCI_SERRMSK_SAccProt PCI__BIT(18) /* a PCI slave access protect
* violation. */
#define PCI_SERRMSK_SWrProt PCI__BIT(19) /* a PCI slave write protect
* violation. */
#define PCI_SERRMSK_SRdBuf PCI__BIT(20) /* the PCI slave's read buffer,
* discard timer expires */
#define PCI_SERRMSK_Arb PCI__BIT(21) /* the internal PCI arbiter
* detection of a broken PCI
* master. */
#define PCI_SERRMSK_ALL_ERRS \
(PCI_SERRMSK_SAPerr|PCI_SERRMSK_SWrPerr|PCI_SERRMSK_SRdPerr \
|PCI_SERRMSK_MAPerr|PCI_SERRMSK_MWrPerr|PCI_SERRMSK_MRdPerr \
|PCI_SERRMSK_MMabort|PCI_SERRMSK_MTabort|PCI_SERRMSK_MRetry \
|PCI_SERRMSK_SMabort|PCI_SERRMSK_STabort|PCI_SERRMSK_SAccProt \
|PCI_SERRMSK_SWrProt|PCI_SERRMSK_SRdBuf|PCI_SERRMSK_Arb)
/*
* Table 309: PCI Error Address (Low) -- Read Only.
* 31:00 ErrAddr PCI address bits [31:0] are latched upon an error
* condition. Upon address latch, no new addresses can
* be registered (due to additional error condition) until
* the register is being read.
*/
/*
* Table 310: PCI Error Address (High) Applicable only when running DAC cycles.
* 31:00 ErrAddr PCI address bits [63:32] are latched upon
* error condition.
*
* NOTE: Upon data sample, no new data is latched until the PCI Error Low
* Address register is read. This means that PCI Error Low Address
* register must bethe last register read by the interrupt handler.
*/
/*
* Table 311: PCI Error Data (Low)
* 31:00 ErrData PCI data bits [31:00] are latched upon error condition.
*/
/*
* Table 312: PCI Error Data (High) Applicable only when running
* 64-bit cycles.
* 31:00 ErrData PCI data bits [63:32] are latched upon error condition.
*/
/*
* Table 313: PCI Error Command
* 03:00 ErrCmd PCI command is latched upon error condition.
* 07:04 Reserved
* 15:08 ErrBE PCI byte enable is latched upon error condition.
* 16:16 ErrPAR PCI PAR is latched upon error condition.
* 17:17 ErrPAR64 PCI PAR64 is latched upon error condition.
* Applicable only when running 64-bit cycles.
* 31:18 Reserved
* NOTE: Upon data sample, no new data is latched until the PCI Error Low
* Address register is read. This means that PCI Error Low Address register
* must be the last register read by the interrupt handler.
*/
#define PCI_ERRCMD_Cmd_GET(v) PCI__EXT(v, 0, 4)
#define PCI_ERRCMD_ByteEn_GET(v) PCI__EXT(v, 8, 8)
#define PCI_ERRCMD_PAR PCI__BIT(16)
#define PCI_ERRCMD_PAR64 PCI__BIT(17)
/*
* Table 314: PCI Interrupt Cause
* 1. All bits are Clear Only. A cause bit set upon error event occurrence.
* A write of 0 clears the bit. A write of 1 has no affect.
* 2. PCI Interrupt bits are organized in four groups:
* bits[ 7: 0] for address and data parity errors,
* bits[15: 8] for PCI master transaction failure (possible external
* target problem),
* bits[23:16] for slave response failure (possible external master problem),
* bits[26:24] for external PCI events that require CPU handle.
*/
#define PCI_IC_SAPerr PCI__BIT(0) /* The PCI slave detected
* bad address parity. */
#define PCI_IC_SWrPerr PCI__BIT(1) /* The PCI slave detected
* bad write data parity. */
#define PCI_IC_SRdPerr PCI__BIT(2) /* PERR* response to read
* data driven by PCI slave. */
#define PCI_IC_MAPerr PCI__BIT(4) /* PERR* response to address
* driven by the PCI master. */
#define PCI_IC_MWrPerr PCI__BIT(5) /* PERR* response to write data
* driven by the PCI master. */
#define PCI_IC_MRdPerr PCI__BIT(6) /* Bad data parity detected
* during the PCI master read
* transaction. */
#define PCI_IC_MMabort PCI__BIT(8) /* The PCI master generated
* master abort. */
#define PCI_IC_MTabort PCI__BIT(9) /* The PCI master detected
* target abort. */
#define PCI_IC_MMasterEn PCI__BIT(10) /* An attempt to generate a PCI
* transaction while master is
* not enabled. */
#define PCI_IC_MRetry PCI__BIT(11) /* The PCI master reached
* retry counter limit. */
#define PCI_IC_SMabort PCI__BIT(16) /* The PCI slave detects an il-
* legal master termination. */
#define PCI_IC_STabort PCI__BIT(17) /* The PCI slave terminates a
* transaction with Target
* Abort. */
#define PCI_IC_SAccProt PCI__BIT(18) /* A PCI slave access protect
* violation. */
#define PCI_IC_SWrProt PCI__BIT(19) /* A PCI slave write protect
* violation. */
#define PCI_IC_SRdBuf PCI__BIT(20) /* A PCI slave read buffer
* discard timer expired. */
#define PCI_IC_Arb PCI__BIT(21) /* Internal PCI arbiter detec-
* tion of a broken master. */
#define PCI_IC_BIST PCI__BIT(24) /* PCI BIST Interrupt */
#define PCI_IC_PMG PCI__BIT(25) /* PCI Power Management
* Interrupt */
#define PCI_IC_PRST PCI__BIT(26) /* PCI Reset Assert */
/*
31:27 Sel Specifies the error event currently being reported in the
Error Address, Error Data, and Error Command registers.
*/
#define PCI_IC_SEL_GET(v) PCI__EXT((v), 27, 5)
#define PCI_IC_SEL_SAPerr 0x00
#define PCI_IC_SEL_SWrPerr 0x01
#define PCI_IC_SEL_SRdPerr 0x02
#define PCI_IC_SEL_MAPerr 0x04
#define PCI_IC_SEL_MWrPerr 0x05
#define PCI_IC_SEL_MRdPerr 0x06
#define PCI_IC_SEL_MMabort 0x08
#define PCI_IC_SEL_MTabort 0x09
#define PCI_IC_SEL_MMasterEn 0x0a
#define PCI_IC_SEL_MRetry 0x0b
#define PCI_IC_SEL_SMabort 0x10
#define PCI_IC_SEL_STabort 0x11
#define PCI_IC_SEL_SAccProt 0x12
#define PCI_IC_SEL_SWrProt 0x13
#define PCI_IC_SEL_SRdBuf 0x14
#define PCI_IC_SEL_Arb 0x15
#define PCI_IC_SEL_BIST 0x18
#define PCI_IC_SEL_PMG 0x19
#define PCI_IC_SEL_PRST 0x1a
#define PCI_IC_SEL_Strings { \
"SAPerr", "SWrPerr", "SRdPerr", "Rsvd#03", \
"MAPerr", "MWrPerr", "MRdPerr", "Rsvd#07", \
"MMabort", "MTabort", "MMasterEn", "MRetry", \
"Rsvd#0c", "Rsvd#0d", "Rsvd#0e", "Rsvd#0f", \
"SMabort", "STabort", "SAccProt", "SWrProt", \
"SRdBuf", "Arb", "Rsvd#16", "Rsvd#17", \
"BIST", "PMG", "PRST", "Rsvd#1b", \
"Rsvd#1c", "Rsvd#1d", "Rsvd#1e", "Rsvd#1f" }
/*
* Table 315: PCI Error Mask
* If the corresponding bit is 1, that interrupt is enabled
* Bits 3, 7, 12:15, 22:23, 27:31 are reserved.
*/
#define PCI_ERRMASK_SAPErr PCI__BIT(0)
#define PCI_ERRMASK_SWrPErr PCI__BIT(1)
#define PCI_ERRMASK_SRdPErr PCI__BIT(2)
#define PCI_ERRMASK_MAPErr PCI__BIT(4)
#define PCI_ERRMASK_MWRPErr PCI__BIT(5)
#define PCI_ERRMASK_MRDPErr PCI__BIT(6)
#define PCI_ERRMASK_MMAbort PCI__BIT(8)
#define PCI_ERRMASK_MTAbort PCI__BIT(9)
#define PCI_ERRMASK_MMasterEn PCI__BIT(10)
#define PCI_ERRMASK_MRetry PCI__BIT(11)
#define PCI_ERRMASK_SMAbort PCI__BIT(16)
#define PCI_ERRMASK_STAbort PCI__BIT(17)
#define PCI_ERRMASK_SAccProt PCI__BIT(18)
#define PCI_ERRMASK_SWrProt PCI__BIT(19)
#define PCI_ERRMASK_SRdBuf PCI__BIT(20)
#define PCI_ERRMASK_Arb PCI__BIT(21)
#define PCI_ERRMASK_BIST PCI__BIT(24)
#define PCI_ERRMASK_PMG PCI__BIT(25)
#define PCI_ERRMASK_PRST PCI__BIT(26)
#endif /* _DEV_GTPCIREG_H_ */