791 lines
29 KiB
C
791 lines
29 KiB
C
/* $NetBSD: gtreg.h,v 1.5 2010/06/09 02:19:51 kiyohara Exp $ */
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/*
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* Copyright (c) 2002 Allegro Networks, Inc., Wasabi Systems, Inc.
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* 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 for the NetBSD Project by
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* Allegro Networks, Inc., and Wasabi Systems, Inc.
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* 4. The name of Allegro Networks, Inc. may not be used to endorse
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* or promote products derived from this software without specific prior
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* written permission.
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* 5. The name of Wasabi Systems, Inc. may not be used to endorse
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* or promote products derived from this software without specific prior
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* written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY ALLEGRO NETWORKS, INC. AND
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* WASABI SYSTEMS, INC. ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
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* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
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* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL EITHER ALLEGRO NETWORKS, INC. OR WASABI SYSTEMS, INC.
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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 THE
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* POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef _DISCOVERY_DEV_GTREG_H_
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#define _DISCOVERY_DEV_GTREG_H_
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#define GT__BIT(bit) (1U << (bit))
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#define GT__MASK(bit) (GT__BIT(bit) - 1)
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#define GT__EXT(data, bit, len) (((data) >> (bit)) & GT__MASK(len))
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#define GT__CLR(data, bit, len) ((data) &= ~(GT__MASK(len) << (bit)))
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#define GT__INS(new, bit) ((new) << (bit))
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#define GT_SIZE 0x10000
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/*
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* Table 30: CPU Address Decode Register Map
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*/
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#define GT_SCS0_Low_Decode 0x0008
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#define GT_SCS0_High_Decode 0x0010
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#define GT_SCS1_Low_Decode 0x0208
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#define GT_SCS1_High_Decode 0x0210
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#define GT_SCS2_Low_Decode 0x0018
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#define GT_SCS2_High_Decode 0x0020
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#define GT_SCS3_Low_Decode 0x0218
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#define GT_SCS3_High_Decode 0x0220
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#define GT_CS0_Low_Decode 0x0028
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#define GT_CS0_High_Decode 0x0030
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#define GT_CS1_Low_Decode 0x0228
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#define GT_CS1_High_Decode 0x0230
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#define GT_CS2_Low_Decode 0x0248
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#define GT_CS2_High_Decode 0x0250
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#define GT_CS3_Low_Decode 0x0038
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#define GT_CS3_High_Decode 0x0040
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#define GT_BootCS_Low_Decode 0x0238
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#define GT_BootCS_High_Decode 0x0240
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#define GT_PCI0_IO_Low_Decode 0x0048
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#define GT_PCI0_IO_High_Decode 0x0050
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#define GT_PCI0_Mem0_Low_Decode 0x0058
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#define GT_PCI0_Mem0_High_Decode 0x0060
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#define GT_PCI0_Mem1_Low_Decode 0x0080
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#define GT_PCI0_Mem1_High_Decode 0x0088
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#define GT_PCI0_Mem2_Low_Decode 0x0258
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#define GT_PCI0_Mem2_High_Decode 0x0260
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#define GT_PCI0_Mem3_Low_Decode 0x0280
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#define GT_PCI0_Mem3_High_Decode 0x0288
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#define GT_PCI1_IO_Low_Decode 0x0090
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#define GT_PCI1_IO_High_Decode 0x0098
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#define GT_PCI1_Mem0_Low_Decode 0x00a0
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#define GT_PCI1_Mem0_High_Decode 0x00a8
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#define GT_PCI1_Mem1_Low_Decode 0x00b0
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#define GT_PCI1_Mem1_High_Decode 0x00b8
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#define GT_PCI1_Mem2_Low_Decode 0x02a0
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#define GT_PCI1_Mem2_High_Decode 0x02a8
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#define GT_PCI1_Mem3_Low_Decode 0x02b0
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#define GT_PCI1_Mem3_High_Decode 0x02b8
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#define GT_Internal_Decode 0x0068
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#define GT_CPU0_Low_Decode 0x0290
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#define GT_CPU0_High_Decode 0x0298
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#define GT_CPU1_Low_Decode 0x02c0
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#define GT_CPU1_High_Decode 0x02c8
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#define GT_PCI0_IO_Remap 0x00f0
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#define GT_PCI0_Mem0_Remap_Low 0x00f8
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#define GT_PCI0_Mem0_Remap_High 0x0320
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#define GT_PCI0_Mem1_Remap_Low 0x0100
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#define GT_PCI0_Mem1_Remap_High 0x0328
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#define GT_PCI0_Mem2_Remap_Low 0x02f8
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#define GT_PCI0_Mem2_Remap_High 0x0330
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#define GT_PCI0_Mem3_Remap_Low 0x0300
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#define GT_PCI0_Mem3_Remap_High 0x0338
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#define GT_PCI1_IO_Remap 0x0108
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#define GT_PCI1_Mem0_Remap_Low 0x0110
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#define GT_PCI1_Mem0_Remap_High 0x0340
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#define GT_PCI1_Mem1_Remap_Low 0x0118
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#define GT_PCI1_Mem1_Remap_High 0x0348
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#define GT_PCI1_Mem2_Remap_Low 0x0310
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#define GT_PCI1_Mem2_Remap_High 0x0350
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#define GT_PCI1_Mem3_Remap_Low 0x0318
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#define GT_PCI1_Mem3_Remap_High 0x0358
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/*
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* Table 31: CPU Control Register Map
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*/
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#define GT_CPU_Cfg 0x0000
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#define GT_CPU_Mode 0x0120
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#define GT_CPU_Master_Ctl 0x0160
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#define GT_CPU_If_Xbar_Ctl_Low 0x0150
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#define GT_CPU_If_Xbar_Ctl_High 0x0158
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#define GT_CPU_If_Xbar_Timeout 0x0168
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#define GT_CPU_Rd_Rsp_Xbar_Ctl_Low 0x0170
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#define GT_CPU_Rd_Rsp_Xbar_Ctl_High 0x0178
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/*
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* Table 32: CPU Sync Barrier Register Map
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*/
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#define GT_PCI_Sync_Barrier(bus) (0x00c0 | ((bus) << 3))
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#define GT_PCI0_Sync_Barrier 0x00c0
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#define GT_PCI1_Sync_Barrier 0x00c8
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/*
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* Table 33: CPU Access Protection Register Map
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*/
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#define GT_Protect_Low_0 0x0180
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#define GT_Protect_High_0 0x0188
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#define GT_Protect_Low_1 0x0190
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#define GT_Protect_High_1 0x0198
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#define GT_Protect_Low_2 0x01a0
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#define GT_Protect_High_2 0x01a8
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#define GT_Protect_Low_3 0x01b0
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#define GT_Protect_High_3 0x01b8
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#define GT_Protect_Low_4 0x01c0
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#define GT_Protect_High_4 0x01c8
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#define GT_Protect_Low_5 0x01d0
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#define GT_Protect_High_5 0x01d8
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#define GT_Protect_Low_6 0x01e0
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#define GT_Protect_High_6 0x01e8
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#define GT_Protect_Low_7 0x01f0
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#define GT_Protect_High_7 0x01f8
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/*
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* Table 34: Snoop Control Register Map
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*/
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#define GT_Snoop_Base_0 0x0380
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#define GT_Snoop_Top_0 0x0388
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#define GT_Snoop_Base_1 0x0390
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#define GT_Snoop_Top_1 0x0398
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#define GT_Snoop_Base_2 0x03a0
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#define GT_Snoop_Top_2 0x03a8
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#define GT_Snoop_Base_3 0x03b0
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#define GT_Snoop_Top_3 0x03b8
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/*
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* Table 35: CPU Error Report Register Map
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*/
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#define GT_CPU_Error_Address_Low 0x0070
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#define GT_CPU_Error_Address_High 0x0078
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#define GT_CPU_Error_Data_Low 0x0128
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#define GT_CPU_Error_Data_High 0x0130
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#define GT_CPU_Error_Parity 0x0138
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#define GT_CPU_Error_Cause 0x0140
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#define GT_CPU_Error_Mask 0x0148
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#define GT_LowAddr_GET(v) (GT__EXT((v), 0, 12) << 20)
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#define GT_HighAddr_GET(v) \
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((v) != 0 ? ((GT__EXT((v), 0, 12) << 20) | 0xfffff) : 0)
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#define GT_LowAddr2_GET(v) (GT__EXT((v), 0, 16) << 16)
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#define GT_HighAddr2_GET(v) \
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((v) != 0 ? ((GT__EXT((v), 0, 16) << 16) | 0xffff) : 0)
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#define GT_LADDR_GET(v, mdl) \
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(((mdl) == MARVELL_DISCOVERY) ? GT_LowAddr_GET(v) : GT_LowAddr2_GET(v))
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#define GT_HADDR_GET(v, mdl) \
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(((mdl) == MARVELL_DISCOVERY) ? GT_HighAddr_GET(v) : GT_HighAddr2_GET(v))
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#define GT_MPP_Control0 0xf000
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#define GT_MPP_Control1 0xf004
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#define GT_MPP_Control2 0xf008
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#define GT_MPP_Control3 0xf00c
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#define GT_GPP_IO_Control 0xf100
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#define GT_GPP_Value 0xf104
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#define GT_GPP_Interrupt_Cause 0xf108
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#define GT_GPP_Interrupt_Mask 0xf10c
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#define GT_GPP_Level_Control 0xf110
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#define GT_GPP_Interrupt_Mask1 0xf114
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#define GT_GPP_Value_Set 0xf118
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#define GT_GPP_Value_Clear 0xf11c
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/*
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* Table 36: SCS[0]* Low Decode Address, Offset: 0x008
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* Table 38: SCS[1]* Low Decode Address, Offset: 0x208
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* Table 40: SCS[2]* Low Decode Address, Offset: 0x018
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* Table 42: SCS[3]* Low Decode Address, Offset: 0x218
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* Table 44: CS[0]* Low Decode Address, Offset: 0x028
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* Table 46: CS[1]* Low Decode Address, Offset: 0x228
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* Table 48: CS[2]* Low Decode Address, Offset: 0x248
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* Table 50: CS[3]* Low Decode Address, Offset: 0x038
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* Table 52: BootCS* Low Decode Address, Offset: 0x238
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* Table 75: CPU 0 Low Decode Address, Offset: 0x290
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* Table 77: CPU 1 Low Decode Address, Offset: 0x2c0
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*
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* 11:00 LowAddr SCS[0] Base Address
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* 31:12 Reserved Must be 0.
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*/
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/*
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* Table 37: SCS[0]* High Decode Address, Offset: 0x010
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* Table 39: SCS[1]* High Decode Address, Offset: 0x210
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* Table 41: SCS[2]* High Decode Address, Offset: 0x020
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* Table 43: SCS[3]* High Decode Address, Offset: 0x220
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* Table 45: CS[0]* High Decode Address, Offset: 0x030
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* Table 47: CS[1]* High Decode Address, Offset: 0x230
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* Table 49: CS[2]* High Decode Address, Offset: 0x250
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* Table 51: CS[3]* High Decode Address, Offset: 0x040
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* Table 53: BootCS* High Decode Address, Offset: 0x240
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* Table 76: CPU 0 High Decode Address, Offset: 0x298
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* Table 78: CPU 1 High Decode Address, Offset: 0x2c8
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*
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* 11:00 HighAddr SCS[0] Top Address
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* 31:12 Reserved
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*/
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/*
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* Table 54: PCI_0 I/O Low Decode Address, Offset: 0x048
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* Table 56: PCI_0 Memory 0 Low Decode Address, Offset: 0x058
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* Table 58: PCI_0 Memory 1 Low Decode Address, Offset: 0x080
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* Table 60: PCI_0 Memory 2 Low Decode Address, Offset: 0x258
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* Table 62: PCI_0 Memory 3 Low Decode Address, Offset: 0x280
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* Table 64: PCI_1 I/O Low Decode Address, Offset: 0x090
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* Table 66: PCI_1 Memory 0 Low Decode Address, Offset: 0x0a0
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* Table 68: PCI_1 Memory 1 Low Decode Address, Offset: 0x0b0
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* Table 70: PCI_1 Memory 2 Low Decode Address, Offset: 0x2a0
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* Table 72: PCI_1 Memory 3 Low Decode Address, Offset: 0x2b0
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*
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* 11:00 LowAddr PCI IO/Memory Space Base Address
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* 23:12 Reserved
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* 26:24 PCISwap PCI Master Data Swap Control (0: Byte Swap;
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* 1: No swapping; 2: Both byte and word swap;
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* 3: Word swap; 4..7: Reserved)
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* 27:27 PCIReq64 PCI master REQ64* policy (Relevant only when
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* configured to 64-bit PCI bus and not I/O)
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* 0: Assert s REQ64* only when transaction
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* is longer than 64-bits.
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* 1: Always assert REQ64*.
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* 31:28 Reserved
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*/
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#define GT_PCISwap_GET(v) GT__EXT((v), 24, 3)
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#define GT_PCISwap_ByteSwap 0
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#define GT_PCISwap_NoSwap 1
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#define GT_PCISwap_ByteWordSwap 2
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#define GT_PCISwap_WordSwap 3
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#define GT_PCI_LowDecode_PCIReq64 GT__BIT(27)
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/*
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* Table 55: PCI_0 I/O High Decode Address, Offset: 0x050
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* Table 57: PCI_0 Memory 0 High Decode Address, Offset: 0x060
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* Table 59: PCI_0 Memory 1 High Decode Address, Offset: 0x088
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* Table 61: PCI_0 Memory 2 High Decode Address, Offset: 0x260
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* Table 63: PCI_0 Memory 3 High Decode Address, Offset: 0x288
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* Table 65: PCI_1 I/O High Decode Address, Offset: 0x098
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* Table 67: PCI_1 Memory 0 High Decode Address, Offset: 0x0a8
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* Table 69: PCI_1 Memory 1 High Decode Address, Offset: 0x0b8
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* Table 71: PCI_1 Memory 2 High Decode Address, Offset: 0x2a8
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* Table 73: PCI_1 Memory 3 High Decode Address, Offset: 0x2b8
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*
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* 11:00 HighAddr PCI_0 I/O Space Top Address
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* 31:12 Reserved
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*/
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/*
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* Table 74: Internal Space Decode, Offset: 0x068
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* 15:00 IntDecode GT64260 Internal Space Base Address
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* 23:16 Reserved
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* 26:24 PCISwap Same as PCI_0 Memory 0 Low Decode Address.
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* NOTE: Reserved for Galileo Technology usage.
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* Relevant only for PCI master configuration
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* transactions on the PCI bus.
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* 31:27 Reserved
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*/
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/*
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* Table 79: PCI_0 I/O Address Remap, Offset: 0x0f0
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* Table 80: PCI_0 Memory 0 Address Remap Low, Offset: 0x0f8
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* Table 82: PCI_0 Memory 1 Address Remap Low, Offset: 0x100
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* Table 84: PCI_0 Memory 2 Address Remap Low, Offset: 0x2f8
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* Table 86: PCI_0 Memory 3 Address Remap Low, Offset: 0x300
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* Table 88: PCI_1 I/O Address Remap, Offset: 0x108
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* Table 89: PCI_1 Memory 0 Address Remap Low, Offset: 0x110
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* Table 91: PCI_1 Memory 1 Address Remap Low, Offset: 0x118
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* Table 93: PCI_1 Memory 2 Address Remap Low, Offset: 0x310
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* Table 95: PCI_1 Memory 3 Address Remap Low, Offset: 0x318
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*
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* 11:00 Remap PCI IO/Memory Space Address Remap (31:20)
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* 31:12 Reserved
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*/
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/*
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* Table 81: PCI_0 Memory 0 Address Remap High, Offset: 0x320
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* Table 83: PCI_0 Memory 1 Address Remap High, Offset: 0x328
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* Table 85: PCI_0 Memory 2 Address Remap High, Offset: 0x330
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* Table 87: PCI_0 Memory 3 Address Remap High, Offset: 0x338
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* Table 90: PCI_1 Memory 0 Address Remap High, Offset: 0x340
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* Table 92: PCI_1 Memory 1 Address Remap High, Offset: 0x348
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* Table 94: PCI_1 Memory 2 Address Remap High, Offset: 0x350
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* Table 96: PCI_1 Memory 3 Address Remap High, Offset: 0x358
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*
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* 31:00 Remap PCI Memory Address Remap (high 32 bits)
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*/
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/*
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* Table 97: CPU Configuration, Offset: 0x000
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* 07:00 NoMatchCnt CPU Address Miss Counter
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* 08:08 NoMatchCntEn CPU Address Miss Counter Enable
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* NOTE: Relevant only if multi-GT is enabled.
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* (0: Disabled; 1: Enabled)
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* 09:09 NoMatchCntExt CPU address miss counter MSB
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* 10:10 Reserved
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* 11:11 AACKDelay Address Acknowledge Delay
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* 0: AACK* is asserted one cycle after TS*.
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* 1: AACK* is asserted two cycles after TS*.
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* 12:12 Endianess Must be 0
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* NOTE: The GT64260 does not support the PowerPC
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* Little Endian convention
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* 13:13 Pipeline Pipeline Enable
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* 0: Disabled. The GT64260 will not respond with
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* AACK* to a new CPU transaction, before the
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* previous transaction data phase completes.
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* 1: Enabled.
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* 14:14 Reserved
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* 15:15 TADelay Transfer Acknowledge Delay
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* 0: TA* is asserted one cycle after AACK*
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* 1: TA* is asserted two cycles after AACK*
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* 16:16 RdOOO Read Out of Order Completion
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* 0: Not Supported, Data is always returned in
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* order (DTI[0-2] is always driven
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* 1: Supported
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* 17:17 StopRetry Relevant only if PCI Retry is enabled
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* 0: Keep Retry all PCI transactions targeted
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* to the GT64260.
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* 1: Stop Retry of PCI transactions.
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* 18:18 MultiGTDec Multi-GT Address Decode
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* 0: Normal address decoding
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* 1: Multi-GT address decoding
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* 19:19 DPValid CPU DP[0-7] Connection. CPU write parity ...
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* 0: is not checked. (Not connected)
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* 1: is checked (Connected)
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* 21:20 Reserved
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* 22:22 PErrProp Parity Error Propagation
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* 0: GT64260 always drives good parity on
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* DP[0-7] during CPU reads.
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* 1: GT64260 drives bad parity on DP[0-7] in case
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* the read response from the target interface
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* comes with erroneous data indication
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* (e.g. ECC error from SDRAM interface).
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* 25:23 Reserved
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* 26:26 APValid CPU AP[0-3] Connection. CPU address parity ...
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* 0: is not checked. (Not connected)
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* 1: is checked (Connected)
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* 27:27 RemapWrDis Address Remap Registers Write Control
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* 0: Write to Low Address decode register.
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* Results in writing of the corresponding
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* Remap register.
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* 1: Write to Low Address decode register. No
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* affect on the corresponding Remap register.
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* 28:28 ConfSBDis Configuration Read Sync Barrier Disable
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* 0: enabled; 1: disabled
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* 29:29 IOSBDis I/O Read Sync Barrier Disable
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* 0: enabled; 1: disabled
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* 30:30 ClkSync Clocks Synchronization
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* 0: The CPU interface is running with SysClk,
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* which is asynchronous to TClk.
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* 1: The CPU interface is running with TClk.
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* 31:31 Reserved
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*/
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#define GT_CPUCfg_NoMatchCnt_GET(v) GT__EXT((v), 0, 8)
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#define GT_CPUCfg_NoMatchCntEn GT__BIT( 9)
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#define GT_CPUCfg_NoMatchCntExt GT__BIT(10)
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#define GT_CPUCfg_AACKDelay GT__BIT(11)
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#define GT_CPUCfg_Endianess GT__BIT(12)
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#define GT_CPUCfg_Pipeline GT__BIT(13)
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|
#define GT_CPUCfg_TADelay GT__BIT(15)
|
|
#define GT_CPUCfg_RdOOO GT__BIT(16)
|
|
#define GT_CPUCfg_StopRetry GT__BIT(17)
|
|
#define GT_CPUCfg_MultiGTDec GT__BIT(18)
|
|
#define GT_CPUCfg_DPValid GT__BIT(19)
|
|
#define GT_CPUCfg_PErrProp GT__BIT(22)
|
|
#define GT_CPUCfg_APValid GT__BIT(26)
|
|
#define GT_CPUCfg_RemapWrDis GT__BIT(27)
|
|
#define GT_CPUCfg_ConfSBDis GT__BIT(28)
|
|
#define GT_CPUCfg_IOSBDis GT__BIT(29)
|
|
#define GT_CPUCfg_ClkSync GT__BIT(30)
|
|
|
|
/*
|
|
* Table 98: CPU Mode, Offset: 0x120, Read only
|
|
* 01:00 MultiGTID Multi-GT ID
|
|
* Represents the ID to which the GT64260 responds
|
|
* to during a multi-GT address decoding period.
|
|
* 02:02 MultiGT (0: Single; 1: Multiple) GT configuration
|
|
* 03:03 RetryEn (0: Don't; 1: Do) Retry PCI transactions
|
|
* 07:04 CPUType
|
|
* 0x0-0x3: Reserved
|
|
* 0x4: 64-bit PowerPC CPU, 60x bus
|
|
* 0x5: 64-bit PowerPC CPU, MPX bus
|
|
* 0x6-0xf: Reserved
|
|
* 31:08 Reserved
|
|
*/
|
|
#define GT_CPUMode_MultiGTID_GET(v) GT__EXT(v, 0, 2)
|
|
#define GT_CPUMode_MultiGT GT__BIT(2)
|
|
#define GT_CPUMode_RetryEn GT__BIT(3)
|
|
#define GT_CPUMode_CPUType_GET(v) GT__EXT(v, 4, 4)
|
|
|
|
/*
|
|
* Table 99: CPU Master Control, Offset: 0x160
|
|
* 07:00 Reserved
|
|
* 08:08 IntArb CPU Bus Internal Arbiter Enable
|
|
* NOTE: Only relevant to 60x bus mode. When
|
|
* running MPX bus, the GT64260 internal
|
|
* arbiter must be used.
|
|
* 0: Disabled. External arbiter is required.
|
|
* 1: Enabled. Use the GT64260 CPU bus arbiter.
|
|
* 09:09 IntBusCtl CPU Interface Unit Internal Bus Control
|
|
* NOTE: This bit must be set to 1. It is 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.
|
|
* 10:10 MWrTrig Master Write Transaction Trigger
|
|
* 0: With first valid write data
|
|
* 1: With last valid write data
|
|
* 11:11 MRdTrig Master Read Response Trigger
|
|
* 0: With first valid read data
|
|
* 1: With last valid read data
|
|
* 12:12 CleanBlock Clean Block Snoop Transaction Support
|
|
* 0: CPU does not support clean block (603e,750)
|
|
* 1: CPU supports clean block (604e,G4)
|
|
* 13:13 FlushBlock Flush Block Snoop Transaction Support
|
|
* 0: CPU does not support flush block (603e,750)
|
|
* 1: CPU supports flush block (604e,G4)
|
|
* 31:14 Reserved
|
|
*/
|
|
#define GT_CPUMstrCtl_IntArb GT__BIT(8)
|
|
#define GT_CPUMstrCtl_IntBusCtl GT__BIT(9)
|
|
#define GT_CPUMstrCtl_MWrTrig GT__BIT(10)
|
|
#define GT_CPUMstrCtl_MRdTrig GT__BIT(11)
|
|
#define GT_CPUMstrCtl_CleanBlock GT__BIT(12)
|
|
#define GT_CPUMstrCtl_FlushBlock GT__BIT(13)
|
|
|
|
#define GT_ArbSlice_SDRAM 0x0 /* SDRAM interface snoop request */
|
|
#define GT_ArbSlice_DEVICE 0x1 /* Device request */
|
|
#define GT_ArbSlice_NULL 0x2 /* NULL request */
|
|
#define GT_ArbSlice_PCI0 0x3 /* PCI_0 access */
|
|
#define GT_ArbSlice_PCI1 0x4 /* PCI_1 access */
|
|
#define GT_ArbSlice_COMM 0x5 /* Comm unit access */
|
|
#define GT_ArbSlice_IDMA0123 0x6 /* IDMA channels 0/1/2/3 access */
|
|
#define GT_ArbSlice_IDMA4567 0x7 /* IDMA channels 4/5/6/7 access */
|
|
/* 0x8-0xf: Reserved */
|
|
|
|
/* Pass in the slice number (from 0..16) as 'n'
|
|
*/
|
|
#define GT_XbarCtl_GET_ArbSlice(v, n) GT__EXT((v), (((n) & 7)*4, 4)
|
|
|
|
/*
|
|
* Table 100: CPU Interface Crossbar Control Low, Offset: 0x150
|
|
* 03:00 Arb0 Slice 0 of CPU Master pizza Arbiter
|
|
* 07:04 Arb1 Slice 1 of CPU Master pizza Arbiter
|
|
* 11:08 Arb2 Slice 2 of CPU Master pizza Arbiter
|
|
* 15:12 Arb3 Slice 3 of CPU Master pizza Arbiter
|
|
* 19:16 Arb4 Slice 4 of CPU Master pizza Arbiter
|
|
* 23:20 Arb5 Slice 5 of CPU Master pizza Arbiter
|
|
* 27:24 Arb6 Slice 6 of CPU Master pizza Arbiter
|
|
* 31:28 Arb7 Slice 7 of CPU Master pizza Arbiter
|
|
*/
|
|
|
|
/*
|
|
* Table 101: CPU Interface Crossbar Control High, Offset: 0x158
|
|
* 03:00 Arb8 Slice 8 of CPU Master pizza Arbiter
|
|
* 07:04 Arb9 Slice 9 of CPU Master pizza Arbiter
|
|
* 11:08 Arb10 Slice 10 of CPU Master pizza Arbiter
|
|
* 15:12 Arb11 Slice 11 of CPU Master pizza Arbiter
|
|
* 19:16 Arb12 Slice 12 of CPU Master pizza Arbiter
|
|
* 23:20 Arb13 Slice 13 of CPU Master pizza Arbiter
|
|
* 27:24 Arb14 Slice 14 of CPU Master pizza Arbiter
|
|
* 31:28 Arb15 Slice 15 of CPU Master pizza Arbiter
|
|
*/
|
|
|
|
/*
|
|
* Table 102: CPU Interface Crossbar Timeout, Offset: 0x168
|
|
* NOTE: Reserved for Galileo Technology usage.
|
|
* 07:00 Timeout Crossbar Arbiter Timeout Preset Value
|
|
* 15:08 Reserved
|
|
* 16:16 TimeoutEn Crossbar Arbiter Timer Enable
|
|
* (0: Enable; 1: Disable)
|
|
* 31:17 Reserved
|
|
*/
|
|
|
|
/*
|
|
* Table 103: CPU Read Response Crossbar Control Low, Offset: 0x170
|
|
* 03:00 Arb0 Slice 0 of CPU Slave pizza Arbiter
|
|
* 07:04 Arb1 Slice 1 of CPU Slave pizza Arbiter
|
|
* 11:08 Arb2 Slice 2 of CPU Slave pizza Arbiter
|
|
* 15:12 Arb3 Slice 3 of CPU Slave pizza Arbiter
|
|
* 19:16 Arb4 Slice 4 of CPU Slave pizza Arbiter
|
|
* 23:20 Arb5 Slice 5 of CPU Slave pizza Arbiter
|
|
* 27:24 Arb6 Slice 6 of CPU Slave pizza Arbiter
|
|
* 31:28 Arb7 Slice 7 of CPU Slave pizza Arbiter
|
|
*/
|
|
/*
|
|
* Table 104: CPU Read Response Crossbar Control High, Offset: 0x178
|
|
* 03:00 Arb8 Slice 8 of CPU Slave pizza Arbiter
|
|
* 07:04 Arb9 Slice 9 of CPU Slave pizza Arbiter
|
|
* 11:08 Arb10 Slice 10 of CPU Slave pizza Arbiter
|
|
* 15:12 Arb11 Slice 11 of CPU Slave pizza Arbiter
|
|
* 19:16 Arb12 Slice 12 of CPU Slave pizza Arbiter
|
|
* 23:20 Arb13 Slice 13 of CPU Slave pizza Arbiter
|
|
* 27:24 Arb14 Slice 14 of CPU Slave pizza Arbiter
|
|
* 31:28 Arb15 Slice 15 of CPU Slave pizza Arbiter
|
|
*/
|
|
|
|
/*
|
|
* Table 105: PCI_0 Sync Barrier Virtual Register, Offset: 0x0c0
|
|
* Table 106: PCI_1 Sync Barrier Virtual Register, Offset: 0x0c8
|
|
* NOTE: The read data is random and should be ignored.
|
|
* 31:00 SyncBarrier A CPU read from this register creates a
|
|
* synchronization barrier cycle.
|
|
*/
|
|
|
|
/*
|
|
* Table 107: CPU Protect Address 0 Low, Offset: 0x180
|
|
* Table 109: CPU Protect Address 1 Low, Offset: 0x190
|
|
* Table 111: CPU Protect Address 2 Low, Offset: 0x1a0
|
|
* Table 113: CPU Protect Address 3 Low, Offset: 0x1b0
|
|
* Table 115: CPU Protect Address 4 Low, Offset: 0x1c0
|
|
* Table 117: CPU Protect Address 5 Low, Offset: 0x1d0
|
|
* Table 119: CPU Protect Address 6 Low, Offset: 0x1e0
|
|
* Table 121: CPU Protect Address 7 Low, Offset: 0x1f0
|
|
*
|
|
* 11:00 LowAddr CPU Protect Region Base Address
|
|
* Corresponds to address bits[31:20].
|
|
* 15:12 Reserved. Must be 0
|
|
* 16:16 AccProtect CPU Access Protect
|
|
* Access is (0: allowed; 1: forbidden)
|
|
* 17:17 WrProtect CPU Write Protect
|
|
* Writes are (0: allowed; 1: forbidden)
|
|
* 18:18 CacheProtect CPU caching protect. Caching (block read)
|
|
* is (0: allowed; 1: forbidden)
|
|
* 31:19 Reserved
|
|
*/
|
|
#define GT_CPU_AccProtect GT__BIT(16)
|
|
#define GT_CPU_WrProtect GT__BIT(17)
|
|
#define GT_CPU_CacheProtect GT__BIT(18)
|
|
|
|
/*
|
|
* Table 108: CPU Protect Address 0 High, Offset: 0x188
|
|
* Table 110: CPU Protect Address 1 High, Offset: 0x198
|
|
* Table 112: CPU Protect Address 2 High, Offset: 0x1a8
|
|
* Table 114: CPU Protect Address 3 High, Offset: 0x1b8
|
|
* Table 116: CPU Protect Address 4 High, Offset: 0x1c8
|
|
* Table 118: CPU Protect Address 5 High, Offset: 0x1d8
|
|
* Table 120: CPU Protect Address 6 High, Offset: 0x1e8
|
|
* Table 122: CPU Protect Address 7 High, Offset: 0x1f8
|
|
*
|
|
* 11:00 HighAddr CPU Protect Region Top Address
|
|
* Corresponds to address bits[31:20]
|
|
* 31:12 Reserved
|
|
*/
|
|
|
|
/*
|
|
* Table 123: Snoop Base Address 0, Offset: 0x380
|
|
* Table 125: Snoop Base Address 1, Offset: 0x390
|
|
* Table 127: Snoop Base Address 2, Offset: 0x3a0
|
|
* Table 129: Snoop Base Address 3, Offset: 0x3b0
|
|
*
|
|
* 11:00 LowAddr Snoop Region Base Address [31:20]
|
|
* 15:12 Reserved Must be 0.
|
|
* 17:16 Snoop Snoop Type
|
|
* 0x0: No Snoop
|
|
* 0x1: Snoop to WT region
|
|
* 0x2: Snoop to WB region
|
|
* 0x3: Reserved
|
|
* 31:18 Reserved
|
|
*/
|
|
#define GT_Snoop_GET(v) GT__EXT((v), 16, 2)
|
|
#define GT_Snoop_INS(v) GT__INS((v), 16)
|
|
#define GT_Snoop_None 0
|
|
#define GT_Snoop_WT 1
|
|
#define GT_Snoop_WB 2
|
|
|
|
|
|
/*
|
|
* Table 124: Snoop Top Address 0, Offset: 0x388
|
|
* Table 126: Snoop Top Address 1, Offset: 0x398
|
|
* Table 128: Snoop Top Address 2, Offset: 0x3a8
|
|
* Table 130: Snoop Top Address 3, Offset: 0x3b8
|
|
* 11:00 HighAddr Snoop Region Top Address [31:20]
|
|
* 31:12 Reserved
|
|
*/
|
|
|
|
|
|
/*
|
|
* Table 131: CPU Error Address Low, Offset: 0x070, Read Only.
|
|
* In case of multiple errors, only the first one is latched. New error
|
|
* report latching is enabled only after the CPU Error Address Low register
|
|
* is being read.
|
|
* 31:00 ErrAddr Latched address bits [31:0] of a CPU
|
|
* transaction in case of:
|
|
* o illegal address (failed address decoding)
|
|
* o access protection violation
|
|
* o bad data parity
|
|
* o bad address parity
|
|
* Upon address latch, no new address are
|
|
* registered (due to additional error condition),
|
|
* until the register is being read.
|
|
*/
|
|
|
|
/*
|
|
* Table 132: CPU Error Address High, Offset: 0x078, Read Only.
|
|
* Once data is latched, no new data can be registered (due to additional
|
|
* error condition), until CPU Error Low Address is being read (which
|
|
* implies, it should be the last being read by the interrupt handler).
|
|
* 03:00 Reserved
|
|
* 07:04 ErrPar Latched address parity bits in case
|
|
* of bad CPU address parity detection.
|
|
* 31:08 Reserved
|
|
*/
|
|
#define GT_CPUErrorAddrHigh_ErrPar_GET(v) GT__EXT((v), 4, 4)
|
|
|
|
/*
|
|
* Table 133: CPU Error Data Low, Offset: 0x128, Read only.
|
|
* 31:00 PErrData Latched data bits [31:0] in case of bad data
|
|
* parity sampled on write transactions or on
|
|
* master read transactions.
|
|
*/
|
|
|
|
/*
|
|
* Table 134: CPU Error Data High, Offset: 0x130, Read only.
|
|
* 31:00 PErrData Latched data bits [63:32] in case of bad data
|
|
* parity sampled on write transactions or on
|
|
* master read transactions.
|
|
*/
|
|
|
|
/*
|
|
* Table 135: CPU Error Parity, Offset: 0x138, Read only.
|
|
* 07:00 PErrPar Latched data parity bus in case of bad data
|
|
* parity sampled on write transactions or on
|
|
* master read transactions.
|
|
* 31:10 Reserved
|
|
*/
|
|
#define GT_CPUErrorParity_PErrPar_GET(v) GT__EXT((v), 0, 8)
|
|
|
|
/*
|
|
* Table 136: CPU Error Cause, Offset: 0x140
|
|
* Bits[7:0] are clear only. A cause bit is set upon an error condition
|
|
* occurrence. Write a 0 value to clear the bit. Writing a 1 value has
|
|
* no affect.
|
|
* 00:00 AddrOut CPU Address Out of Range
|
|
* 01:01 AddrPErr Bad Address Parity Detected
|
|
* 02:02 TTErr Transfer Type Violation.
|
|
* The CPU attempts to burst (read or write) to an
|
|
* internal register.
|
|
* 03:03 AccErr Access to a Protected Region
|
|
* 04:04 WrErr Write to a Write Protected Region
|
|
* 05:05 CacheErr Read from a Caching protected region
|
|
* 06:06 WrDataPErr Bad Write Data Parity Detected
|
|
* 07:07 RdDataPErr Bad Read Data Parity Detected
|
|
* 26:08 Reserved
|
|
* 31:27 Sel Specifies the error event currently being
|
|
* reported in Error Address, Error Data, and
|
|
* Error Parity registers.
|
|
* 0x0: AddrOut
|
|
* 0x1: AddrPErr
|
|
* 0x2: TTErr
|
|
* 0x3: AccErr
|
|
* 0x4: WrErr
|
|
* 0x5: CacheErr
|
|
* 0x6: WrDataPErr
|
|
* 0x7: RdDataPErr
|
|
* 0x8-0x1f: Reserved
|
|
*/
|
|
#define GT_CPUError_AddrOut GT__BIT(GT_CPUError_Sel_AddrOut)
|
|
#define GT_CPUError_AddrPErr GT__BIT(GT_CPUError_Sel_AddrPErr)
|
|
#define GT_CPUError_TTErr GT__BIT(GT_CPUError_Sel_TTErr)
|
|
#define GT_CPUError_AccErr GT__BIT(GT_CPUError_Sel_AccErr)
|
|
#define GT_CPUError_WrErr GT__BIT(GT_CPUError_Sel_WrPErr)
|
|
#define GT_CPUError_CacheErr GT__BIT(GT_CPUError_Sel_CachePErr)
|
|
#define GT_CPUError_WrDataPErr GT__BIT(GT_CPUError_Sel_WrDataPErr)
|
|
#define GT_CPUError_RdDataPErr GT__BIT(GT_CPUError_Sel_RdDataPErr)
|
|
|
|
#define GT_CPUError_Sel_AddrOut 0
|
|
#define GT_CPUError_Sel_AddrPErr 1
|
|
#define GT_CPUError_Sel_TTErr 2
|
|
#define GT_CPUError_Sel_AccErr 3
|
|
#define GT_CPUError_Sel_WrErr 4
|
|
#define GT_CPUError_Sel_CacheErr 5
|
|
#define GT_CPUError_Sel_WrDataPErr 6
|
|
#define GT_CPUError_Sel_RdDataPErr 7
|
|
|
|
#define GT_CPUError_Sel_GET(v) GT__EXT((v), 27, 5)
|
|
|
|
/*
|
|
* Table 137: CPU Error Mask, Offset: 0x148
|
|
* 00:00 AddrOut If set to 1, enables AddrOut interrupt.
|
|
* 01:01 AddrPErr If set to 1, enables AddrPErr interrupt.
|
|
* 02:02 TTErr If set to 1, enables TTErr interrupt.
|
|
* 03:03 AccErr If set to 1, enables AccErr interrupt.
|
|
* 04:04 WrErr If set to 1, enables WrErr interrupt.
|
|
* 05:05 CacheErr If set to 1, enables CacheErr interrupt.
|
|
* 06:06 WrDataPErr If set to 1, enables WrDataPErr interrupt.
|
|
* 07:07 RdDataPErr If set to 1, enables RdDataPErr interrupt.
|
|
* 31:08 Reserved
|
|
*/
|
|
|
|
/*
|
|
* Comm Unit Interrupt registers
|
|
*/
|
|
#define GT_CommUnitIntr_Cause 0xf310
|
|
#define GT_CommUnitIntr_Mask 0xf314
|
|
#define GT_CommUnitIntr_ErrAddr 0xf318
|
|
|
|
#define GT_CommUnitIntr_E0 0x00000007
|
|
#define GT_CommUnitIntr_E1 0x00000070
|
|
#define GT_CommUnitIntr_E2 0x00000700
|
|
#define GT_CommUnitIntr_S0 0x00070000
|
|
#define GT_CommUnitIntr_S1 0x00700000
|
|
#define GT_CommUnitIntr_Sel 0x70000000
|
|
|
|
/*
|
|
* SDRAM Error Report (ECC) Registers
|
|
*/
|
|
#define GT_ECC_Data_Lo 0x484 /* latched Error Data (low) */
|
|
#define GT_ECC_Data_Hi 0x480 /* latched Error Data (high) */
|
|
#define GT_ECC_Addr 0x490 /* latched Error Address */
|
|
#define GT_ECC_Rec 0x488 /* latched ECC code from SDRAM */
|
|
#define GT_ECC_Calc 0x48c /* latched ECC code from SDRAM */
|
|
#define GT_ECC_Ctl 0x494 /* ECC Control */
|
|
#define GT_ECC_Count 0x498 /* ECC 1-bit error count */
|
|
|
|
/*
|
|
* Watchdog Registers
|
|
*/
|
|
#define GT_WDOG_Config 0xb410
|
|
#define GT_WDOG_Value 0xb414
|
|
#define GT_WDOG_Value_NMI GT__MASK(24)
|
|
#define GT_WDOG_Config_Preset GT__MASK(24)
|
|
#define GT_WDOG_Config_Ctl1a GT__BIT(24)
|
|
#define GT_WDOG_Config_Ctl1b GT__BIT(25)
|
|
#define GT_WDOG_Config_Ctl2a GT__BIT(26)
|
|
#define GT_WDOG_Config_Ctl2b GT__BIT(27)
|
|
#define GT_WDOG_Config_Enb GT__BIT(31)
|
|
|
|
#define GT_WDOG_NMI_DFLT (GT__MASK(24) & GT_WDOG_Value_NMI)
|
|
#define GT_WDOG_Preset_DFLT (GT__MASK(22) & GT_WDOG_Config_Preset)
|
|
|
|
/*
|
|
* Device Bus Interrupts
|
|
*/
|
|
#define GT_DEVBUS_ICAUSE 0x4d0 /* Device Interrupt Cause */
|
|
#define GT_DEVBUS_IMASK 0x4d4 /* Device Interrupt Mask */
|
|
#define GT_DEVBUS_ERR_ADDR 0x4d8 /* Device Error Address */
|
|
|
|
/*
|
|
* bit defines for GT_DEVBUS_ICAUSE, GT_DEVBUS_IMASK
|
|
*/
|
|
#define GT_DEVBUS_DBurstErr GT__BIT(0)
|
|
#define GT_DEVBUS_DRdyErr GT__BIT(1)
|
|
#define GT_DEVBUS_Sel GT__BIT(27)
|
|
#define GT_DEVBUS_RES ~(GT_DEVBUS_DBurstErr|GT_DEVBUS_DRdyErr|GT_DEVBUS_Sel)
|
|
|
|
|
|
#define ETH0_BASE 0x2400
|
|
#define ETH1_BASE 0x2800
|
|
#define ETH2_BASE 0x2c00
|
|
#define MPSC0_BASE 0x8000
|
|
#define MPSC1_BASE 0x9000
|
|
|
|
#endif /* !_DISCOVERY_DEV_GTREG_H */
|