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b24413180f
Many source files in the tree are missing licensing information, which makes it harder for compliance tools to determine the correct license. By default all files without license information are under the default license of the kernel, which is GPL version 2. Update the files which contain no license information with the 'GPL-2.0' SPDX license identifier. The SPDX identifier is a legally binding shorthand, which can be used instead of the full boiler plate text. This patch is based on work done by Thomas Gleixner and Kate Stewart and Philippe Ombredanne. How this work was done: Patches were generated and checked against linux-4.14-rc6 for a subset of the use cases: - file had no licensing information it it. - file was a */uapi/* one with no licensing information in it, - file was a */uapi/* one with existing licensing information, Further patches will be generated in subsequent months to fix up cases where non-standard license headers were used, and references to license had to be inferred by heuristics based on keywords. The analysis to determine which SPDX License Identifier to be applied to a file was done in a spreadsheet of side by side results from of the output of two independent scanners (ScanCode & Windriver) producing SPDX tag:value files created by Philippe Ombredanne. Philippe prepared the base worksheet, and did an initial spot review of a few 1000 files. The 4.13 kernel was the starting point of the analysis with 60,537 files assessed. Kate Stewart did a file by file comparison of the scanner results in the spreadsheet to determine which SPDX license identifier(s) to be applied to the file. She confirmed any determination that was not immediately clear with lawyers working with the Linux Foundation. Criteria used to select files for SPDX license identifier tagging was: - Files considered eligible had to be source code files. - Make and config files were included as candidates if they contained >5 lines of source - File already had some variant of a license header in it (even if <5 lines). All documentation files were explicitly excluded. The following heuristics were used to determine which SPDX license identifiers to apply. - when both scanners couldn't find any license traces, file was considered to have no license information in it, and the top level COPYING file license applied. For non */uapi/* files that summary was: SPDX license identifier # files ---------------------------------------------------|------- GPL-2.0 11139 and resulted in the first patch in this series. If that file was a */uapi/* path one, it was "GPL-2.0 WITH Linux-syscall-note" otherwise it was "GPL-2.0". Results of that was: SPDX license identifier # files ---------------------------------------------------|------- GPL-2.0 WITH Linux-syscall-note 930 and resulted in the second patch in this series. - if a file had some form of licensing information in it, and was one of the */uapi/* ones, it was denoted with the Linux-syscall-note if any GPL family license was found in the file or had no licensing in it (per prior point). Results summary: SPDX license identifier # files ---------------------------------------------------|------ GPL-2.0 WITH Linux-syscall-note 270 GPL-2.0+ WITH Linux-syscall-note 169 ((GPL-2.0 WITH Linux-syscall-note) OR BSD-2-Clause) 21 ((GPL-2.0 WITH Linux-syscall-note) OR BSD-3-Clause) 17 LGPL-2.1+ WITH Linux-syscall-note 15 GPL-1.0+ WITH Linux-syscall-note 14 ((GPL-2.0+ WITH Linux-syscall-note) OR BSD-3-Clause) 5 LGPL-2.0+ WITH Linux-syscall-note 4 LGPL-2.1 WITH Linux-syscall-note 3 ((GPL-2.0 WITH Linux-syscall-note) OR MIT) 3 ((GPL-2.0 WITH Linux-syscall-note) AND MIT) 1 and that resulted in the third patch in this series. - when the two scanners agreed on the detected license(s), that became the concluded license(s). - when there was disagreement between the two scanners (one detected a license but the other didn't, or they both detected different licenses) a manual inspection of the file occurred. - In most cases a manual inspection of the information in the file resulted in a clear resolution of the license that should apply (and which scanner probably needed to revisit its heuristics). - When it was not immediately clear, the license identifier was confirmed with lawyers working with the Linux Foundation. - If there was any question as to the appropriate license identifier, the file was flagged for further research and to be revisited later in time. In total, over 70 hours of logged manual review was done on the spreadsheet to determine the SPDX license identifiers to apply to the source files by Kate, Philippe, Thomas and, in some cases, confirmation by lawyers working with the Linux Foundation. Kate also obtained a third independent scan of the 4.13 code base from FOSSology, and compared selected files where the other two scanners disagreed against that SPDX file, to see if there was new insights. The Windriver scanner is based on an older version of FOSSology in part, so they are related. Thomas did random spot checks in about 500 files from the spreadsheets for the uapi headers and agreed with SPDX license identifier in the files he inspected. For the non-uapi files Thomas did random spot checks in about 15000 files. In initial set of patches against 4.14-rc6, 3 files were found to have copy/paste license identifier errors, and have been fixed to reflect the correct identifier. Additionally Philippe spent 10 hours this week doing a detailed manual inspection and review of the 12,461 patched files from the initial patch version early this week with: - a full scancode scan run, collecting the matched texts, detected license ids and scores - reviewing anything where there was a license detected (about 500+ files) to ensure that the applied SPDX license was correct - reviewing anything where there was no detection but the patch license was not GPL-2.0 WITH Linux-syscall-note to ensure that the applied SPDX license was correct This produced a worksheet with 20 files needing minor correction. This worksheet was then exported into 3 different .csv files for the different types of files to be modified. These .csv files were then reviewed by Greg. Thomas wrote a script to parse the csv files and add the proper SPDX tag to the file, in the format that the file expected. This script was further refined by Greg based on the output to detect more types of files automatically and to distinguish between header and source .c files (which need different comment types.) Finally Greg ran the script using the .csv files to generate the patches. Reviewed-by: Kate Stewart <kstewart@linuxfoundation.org> Reviewed-by: Philippe Ombredanne <pombredanne@nexb.com> Reviewed-by: Thomas Gleixner <tglx@linutronix.de> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
299 lines
15 KiB
C
299 lines
15 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/* $Date: 2006/04/28 19:20:17 $ $RCSfile: vsc7326_reg.h,v $ $Revision: 1.5 $ */
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#ifndef _VSC7321_REG_H_
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#define _VSC7321_REG_H_
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/* Register definitions for Vitesse VSC7321 (Meigs II) MAC
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*
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* Straight off the data sheet, VMDS-10038 Rev 2.0 and
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* PD0011-01-14-Meigs-II 2002-12-12
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*/
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/* Just 'cause it's in here doesn't mean it's used. */
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#define CRA(blk,sub,adr) ((((blk) & 0x7) << 13) | (((sub) & 0xf) << 9) | (((adr) & 0xff) << 1))
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/* System and CPU comm's registers */
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#define REG_CHIP_ID CRA(0x7,0xf,0x00) /* Chip ID */
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#define REG_BLADE_ID CRA(0x7,0xf,0x01) /* Blade ID */
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#define REG_SW_RESET CRA(0x7,0xf,0x02) /* Global Soft Reset */
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#define REG_MEM_BIST CRA(0x7,0xf,0x04) /* mem */
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#define REG_IFACE_MODE CRA(0x7,0xf,0x07) /* Interface mode */
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#define REG_MSCH CRA(0x7,0x2,0x06) /* CRC error count */
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#define REG_CRC_CNT CRA(0x7,0x2,0x0a) /* CRC error count */
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#define REG_CRC_CFG CRA(0x7,0x2,0x0b) /* CRC config */
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#define REG_SI_TRANSFER_SEL CRA(0x7,0xf,0x18) /* SI Transfer Select */
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#define REG_PLL_CLK_SPEED CRA(0x7,0xf,0x19) /* Clock Speed Selection */
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#define REG_SYS_CLK_SELECT CRA(0x7,0xf,0x1c) /* System Clock Select */
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#define REG_GPIO_CTRL CRA(0x7,0xf,0x1d) /* GPIO Control */
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#define REG_GPIO_OUT CRA(0x7,0xf,0x1e) /* GPIO Out */
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#define REG_GPIO_IN CRA(0x7,0xf,0x1f) /* GPIO In */
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#define REG_CPU_TRANSFER_SEL CRA(0x7,0xf,0x20) /* CPU Transfer Select */
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#define REG_LOCAL_DATA CRA(0x7,0xf,0xfe) /* Local CPU Data Register */
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#define REG_LOCAL_STATUS CRA(0x7,0xf,0xff) /* Local CPU Status Register */
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/* Aggregator registers */
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#define REG_AGGR_SETUP CRA(0x7,0x1,0x00) /* Aggregator Setup */
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#define REG_PMAP_TABLE CRA(0x7,0x1,0x01) /* Port map table */
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#define REG_MPLS_BIT0 CRA(0x7,0x1,0x08) /* MPLS bit0 position */
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#define REG_MPLS_BIT1 CRA(0x7,0x1,0x09) /* MPLS bit1 position */
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#define REG_MPLS_BIT2 CRA(0x7,0x1,0x0a) /* MPLS bit2 position */
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#define REG_MPLS_BIT3 CRA(0x7,0x1,0x0b) /* MPLS bit3 position */
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#define REG_MPLS_BITMASK CRA(0x7,0x1,0x0c) /* MPLS bit mask */
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#define REG_PRE_BIT0POS CRA(0x7,0x1,0x10) /* Preamble bit0 position */
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#define REG_PRE_BIT1POS CRA(0x7,0x1,0x11) /* Preamble bit1 position */
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#define REG_PRE_BIT2POS CRA(0x7,0x1,0x12) /* Preamble bit2 position */
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#define REG_PRE_BIT3POS CRA(0x7,0x1,0x13) /* Preamble bit3 position */
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#define REG_PRE_ERR_CNT CRA(0x7,0x1,0x14) /* Preamble parity error count */
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/* BIST registers */
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/*#define REG_RAM_BIST_CMD CRA(0x7,0x2,0x00)*/ /* RAM BIST Command Register */
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/*#define REG_RAM_BIST_RESULT CRA(0x7,0x2,0x01)*/ /* RAM BIST Read Status/Result */
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#define REG_RAM_BIST_CMD CRA(0x7,0x1,0x00) /* RAM BIST Command Register */
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#define REG_RAM_BIST_RESULT CRA(0x7,0x1,0x01) /* RAM BIST Read Status/Result */
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#define BIST_PORT_SELECT 0x00 /* BIST port select */
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#define BIST_COMMAND 0x01 /* BIST enable/disable */
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#define BIST_STATUS 0x02 /* BIST operation status */
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#define BIST_ERR_CNT_LSB 0x03 /* BIST error count lo 8b */
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#define BIST_ERR_CNT_MSB 0x04 /* BIST error count hi 8b */
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#define BIST_ERR_SEL_LSB 0x05 /* BIST error select lo 8b */
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#define BIST_ERR_SEL_MSB 0x06 /* BIST error select hi 8b */
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#define BIST_ERROR_STATE 0x07 /* BIST engine internal state */
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#define BIST_ERR_ADR0 0x08 /* BIST error address lo 8b */
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#define BIST_ERR_ADR1 0x09 /* BIST error address lomid 8b */
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#define BIST_ERR_ADR2 0x0a /* BIST error address himid 8b */
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#define BIST_ERR_ADR3 0x0b /* BIST error address hi 8b */
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/* FIFO registers
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* ie = 0 for ingress, 1 for egress
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* fn = FIFO number, 0-9
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*/
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#define REG_TEST(ie,fn) CRA(0x2,ie&1,0x00+fn) /* Mode & Test Register */
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#define REG_TOP_BOTTOM(ie,fn) CRA(0x2,ie&1,0x10+fn) /* FIFO Buffer Top & Bottom */
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#define REG_TAIL(ie,fn) CRA(0x2,ie&1,0x20+fn) /* FIFO Write Pointer */
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#define REG_HEAD(ie,fn) CRA(0x2,ie&1,0x30+fn) /* FIFO Read Pointer */
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#define REG_HIGH_LOW_WM(ie,fn) CRA(0x2,ie&1,0x40+fn) /* Flow Control Water Marks */
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#define REG_CT_THRHLD(ie,fn) CRA(0x2,ie&1,0x50+fn) /* Cut Through Threshold */
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#define REG_FIFO_DROP_CNT(ie,fn) CRA(0x2,ie&1,0x60+fn) /* Drop & CRC Error Counter */
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#define REG_DEBUG_BUF_CNT(ie,fn) CRA(0x2,ie&1,0x70+fn) /* Input Side Debug Counter */
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#define REG_BUCKI(fn) CRA(0x2,2,0x20+fn) /* Input Side Debug Counter */
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#define REG_BUCKE(fn) CRA(0x2,3,0x20+fn) /* Input Side Debug Counter */
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/* Traffic shaper buckets
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* ie = 0 for ingress, 1 for egress
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* bn = bucket number 0-10 (yes, 11 buckets)
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*/
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/* OK, this one's kinda ugly. Some hardware designers are perverse. */
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#define REG_TRAFFIC_SHAPER_BUCKET(ie,bn) CRA(0x2,ie&1,0x0a + (bn>7) | ((bn&7)<<4))
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#define REG_TRAFFIC_SHAPER_CONTROL(ie) CRA(0x2,ie&1,0x3b)
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#define REG_SRAM_ADR(ie) CRA(0x2,ie&1,0x0e) /* FIFO SRAM address */
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#define REG_SRAM_WR_STRB(ie) CRA(0x2,ie&1,0x1e) /* FIFO SRAM write strobe */
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#define REG_SRAM_RD_STRB(ie) CRA(0x2,ie&1,0x2e) /* FIFO SRAM read strobe */
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#define REG_SRAM_DATA_0(ie) CRA(0x2,ie&1,0x3e) /* FIFO SRAM data lo 8b */
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#define REG_SRAM_DATA_1(ie) CRA(0x2,ie&1,0x4e) /* FIFO SRAM data lomid 8b */
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#define REG_SRAM_DATA_2(ie) CRA(0x2,ie&1,0x5e) /* FIFO SRAM data himid 8b */
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#define REG_SRAM_DATA_3(ie) CRA(0x2,ie&1,0x6e) /* FIFO SRAM data hi 8b */
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#define REG_SRAM_DATA_BLK_TYPE(ie) CRA(0x2,ie&1,0x7e) /* FIFO SRAM tag */
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/* REG_ING_CONTROL equals REG_CONTROL with ie = 0, likewise REG_EGR_CONTROL is ie = 1 */
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#define REG_CONTROL(ie) CRA(0x2,ie&1,0x0f) /* FIFO control */
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#define REG_ING_CONTROL CRA(0x2,0x0,0x0f) /* Ingress control (alias) */
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#define REG_EGR_CONTROL CRA(0x2,0x1,0x0f) /* Egress control (alias) */
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#define REG_AGE_TIMER(ie) CRA(0x2,ie&1,0x1f) /* Aging timer */
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#define REG_AGE_INC(ie) CRA(0x2,ie&1,0x2f) /* Aging increment */
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#define DEBUG_OUT(ie) CRA(0x2,ie&1,0x3f) /* Output debug counter control */
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#define DEBUG_CNT(ie) CRA(0x2,ie&1,0x4f) /* Output debug counter */
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/* SPI4 interface */
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#define REG_SPI4_MISC CRA(0x5,0x0,0x00) /* Misc Register */
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#define REG_SPI4_STATUS CRA(0x5,0x0,0x01) /* CML Status */
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#define REG_SPI4_ING_SETUP0 CRA(0x5,0x0,0x02) /* Ingress Status Channel Setup */
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#define REG_SPI4_ING_SETUP1 CRA(0x5,0x0,0x03) /* Ingress Data Training Setup */
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#define REG_SPI4_ING_SETUP2 CRA(0x5,0x0,0x04) /* Ingress Data Burst Size Setup */
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#define REG_SPI4_EGR_SETUP0 CRA(0x5,0x0,0x05) /* Egress Status Channel Setup */
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#define REG_SPI4_DBG_CNT(n) CRA(0x5,0x0,0x10+n) /* Debug counters 0-9 */
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#define REG_SPI4_DBG_SETUP CRA(0x5,0x0,0x1A) /* Debug counters setup */
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#define REG_SPI4_TEST CRA(0x5,0x0,0x20) /* Test Setup Register */
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#define REG_TPGEN_UP0 CRA(0x5,0x0,0x21) /* Test Pattern generator user pattern 0 */
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#define REG_TPGEN_UP1 CRA(0x5,0x0,0x22) /* Test Pattern generator user pattern 1 */
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#define REG_TPCHK_UP0 CRA(0x5,0x0,0x23) /* Test Pattern checker user pattern 0 */
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#define REG_TPCHK_UP1 CRA(0x5,0x0,0x24) /* Test Pattern checker user pattern 1 */
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#define REG_TPSAM_P0 CRA(0x5,0x0,0x25) /* Sampled pattern 0 */
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#define REG_TPSAM_P1 CRA(0x5,0x0,0x26) /* Sampled pattern 1 */
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#define REG_TPERR_CNT CRA(0x5,0x0,0x27) /* Pattern checker error counter */
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#define REG_SPI4_STICKY CRA(0x5,0x0,0x30) /* Sticky bits register */
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#define REG_SPI4_DBG_INH CRA(0x5,0x0,0x31) /* Core egress & ingress inhibit */
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#define REG_SPI4_DBG_STATUS CRA(0x5,0x0,0x32) /* Sampled ingress status */
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#define REG_SPI4_DBG_GRANT CRA(0x5,0x0,0x33) /* Ingress cranted credit value */
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#define REG_SPI4_DESKEW CRA(0x5,0x0,0x43) /* Ingress cranted credit value */
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/* 10GbE MAC Block Registers */
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/* Note that those registers that are exactly the same for 10GbE as for
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* tri-speed are only defined with the version that needs a port number.
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* Pass 0xa in those cases.
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*
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* Also note that despite the presence of a MAC address register, this part
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* does no ingress MAC address filtering. That register is used only for
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* pause frame detection and generation.
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*/
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/* 10GbE specific, and different from tri-speed */
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#define REG_MISC_10G CRA(0x1,0xa,0x00) /* Misc 10GbE setup */
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#define REG_PAUSE_10G CRA(0x1,0xa,0x01) /* Pause register */
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#define REG_NORMALIZER_10G CRA(0x1,0xa,0x05) /* 10G normalizer */
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#define REG_STICKY_RX CRA(0x1,0xa,0x06) /* RX debug register */
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#define REG_DENORM_10G CRA(0x1,0xa,0x07) /* Denormalizer */
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#define REG_STICKY_TX CRA(0x1,0xa,0x08) /* TX sticky bits */
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#define REG_MAX_RXHIGH CRA(0x1,0xa,0x0a) /* XGMII lane 0-3 debug */
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#define REG_MAX_RXLOW CRA(0x1,0xa,0x0b) /* XGMII lane 4-7 debug */
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#define REG_MAC_TX_STICKY CRA(0x1,0xa,0x0c) /* MAC Tx state sticky debug */
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#define REG_MAC_TX_RUNNING CRA(0x1,0xa,0x0d) /* MAC Tx state running debug */
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#define REG_TX_ABORT_AGE CRA(0x1,0xa,0x14) /* Aged Tx frames discarded */
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#define REG_TX_ABORT_SHORT CRA(0x1,0xa,0x15) /* Short Tx frames discarded */
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#define REG_TX_ABORT_TAXI CRA(0x1,0xa,0x16) /* Taxi error frames discarded */
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#define REG_TX_ABORT_UNDERRUN CRA(0x1,0xa,0x17) /* Tx Underrun abort counter */
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#define REG_TX_DENORM_DISCARD CRA(0x1,0xa,0x18) /* Tx denormalizer discards */
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#define REG_XAUI_STAT_A CRA(0x1,0xa,0x20) /* XAUI status A */
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#define REG_XAUI_STAT_B CRA(0x1,0xa,0x21) /* XAUI status B */
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#define REG_XAUI_STAT_C CRA(0x1,0xa,0x22) /* XAUI status C */
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#define REG_XAUI_CONF_A CRA(0x1,0xa,0x23) /* XAUI configuration A */
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#define REG_XAUI_CONF_B CRA(0x1,0xa,0x24) /* XAUI configuration B */
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#define REG_XAUI_CODE_GRP_CNT CRA(0x1,0xa,0x25) /* XAUI code group error count */
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#define REG_XAUI_CONF_TEST_A CRA(0x1,0xa,0x26) /* XAUI test register A */
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#define REG_PDERRCNT CRA(0x1,0xa,0x27) /* XAUI test register B */
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/* pn = port number 0-9 for tri-speed, 10 for 10GbE */
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/* Both tri-speed and 10GbE */
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#define REG_MAX_LEN(pn) CRA(0x1,pn,0x02) /* Max length */
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#define REG_MAC_HIGH_ADDR(pn) CRA(0x1,pn,0x03) /* Upper 24 bits of MAC addr */
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#define REG_MAC_LOW_ADDR(pn) CRA(0x1,pn,0x04) /* Lower 24 bits of MAC addr */
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/* tri-speed only
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* pn = port number, 0-9
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*/
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#define REG_MODE_CFG(pn) CRA(0x1,pn,0x00) /* Mode configuration */
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#define REG_PAUSE_CFG(pn) CRA(0x1,pn,0x01) /* Pause configuration */
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#define REG_NORMALIZER(pn) CRA(0x1,pn,0x05) /* Normalizer */
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#define REG_TBI_STATUS(pn) CRA(0x1,pn,0x06) /* TBI status */
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#define REG_PCS_STATUS_DBG(pn) CRA(0x1,pn,0x07) /* PCS status debug */
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#define REG_PCS_CTRL(pn) CRA(0x1,pn,0x08) /* PCS control */
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#define REG_TBI_CONFIG(pn) CRA(0x1,pn,0x09) /* TBI configuration */
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#define REG_STICK_BIT(pn) CRA(0x1,pn,0x0a) /* Sticky bits */
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#define REG_DEV_SETUP(pn) CRA(0x1,pn,0x0b) /* MAC clock/reset setup */
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#define REG_DROP_CNT(pn) CRA(0x1,pn,0x0c) /* Drop counter */
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#define REG_PORT_POS(pn) CRA(0x1,pn,0x0d) /* Preamble port position */
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#define REG_PORT_FAIL(pn) CRA(0x1,pn,0x0e) /* Preamble port position */
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#define REG_SERDES_CONF(pn) CRA(0x1,pn,0x0f) /* SerDes configuration */
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#define REG_SERDES_TEST(pn) CRA(0x1,pn,0x10) /* SerDes test */
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#define REG_SERDES_STAT(pn) CRA(0x1,pn,0x11) /* SerDes status */
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#define REG_SERDES_COM_CNT(pn) CRA(0x1,pn,0x12) /* SerDes comma counter */
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#define REG_DENORM(pn) CRA(0x1,pn,0x15) /* Frame denormalization */
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#define REG_DBG(pn) CRA(0x1,pn,0x16) /* Device 1G debug */
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#define REG_TX_IFG(pn) CRA(0x1,pn,0x18) /* Tx IFG config */
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#define REG_HDX(pn) CRA(0x1,pn,0x19) /* Half-duplex config */
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/* Statistics */
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/* CRA(0x4,pn,reg) */
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/* reg below */
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/* pn = port number, 0-a, a = 10GbE */
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enum {
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RxInBytes = 0x00, // # Rx in octets
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RxSymbolCarrier = 0x01, // Frames w/ symbol errors
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RxPause = 0x02, // # pause frames received
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RxUnsupOpcode = 0x03, // # control frames with unsupported opcode
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RxOkBytes = 0x04, // # octets in good frames
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RxBadBytes = 0x05, // # octets in bad frames
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RxUnicast = 0x06, // # good unicast frames
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RxMulticast = 0x07, // # good multicast frames
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RxBroadcast = 0x08, // # good broadcast frames
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Crc = 0x09, // # frames w/ bad CRC only
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RxAlignment = 0x0a, // # frames w/ alignment err
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RxUndersize = 0x0b, // # frames undersize
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RxFragments = 0x0c, // # frames undersize w/ crc err
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RxInRangeLengthError = 0x0d, // # frames with length error
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RxOutOfRangeError = 0x0e, // # frames with illegal length field
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RxOversize = 0x0f, // # frames oversize
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RxJabbers = 0x10, // # frames oversize w/ crc err
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RxSize64 = 0x11, // # frames 64 octets long
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RxSize65To127 = 0x12, // # frames 65-127 octets
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RxSize128To255 = 0x13, // # frames 128-255
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RxSize256To511 = 0x14, // # frames 256-511
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RxSize512To1023 = 0x15, // # frames 512-1023
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RxSize1024To1518 = 0x16, // # frames 1024-1518
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RxSize1519ToMax = 0x17, // # frames 1519-max
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TxOutBytes = 0x18, // # octets tx
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TxPause = 0x19, // # pause frames sent
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TxOkBytes = 0x1a, // # octets tx OK
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TxUnicast = 0x1b, // # frames unicast
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TxMulticast = 0x1c, // # frames multicast
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TxBroadcast = 0x1d, // # frames broadcast
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TxMultipleColl = 0x1e, // # frames tx after multiple collisions
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TxLateColl = 0x1f, // # late collisions detected
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TxXcoll = 0x20, // # frames lost, excessive collisions
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TxDefer = 0x21, // # frames deferred on first tx attempt
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TxXdefer = 0x22, // # frames excessively deferred
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TxCsense = 0x23, // carrier sense errors at frame end
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TxSize64 = 0x24, // # frames 64 octets long
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TxSize65To127 = 0x25, // # frames 65-127 octets
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TxSize128To255 = 0x26, // # frames 128-255
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TxSize256To511 = 0x27, // # frames 256-511
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TxSize512To1023 = 0x28, // # frames 512-1023
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|
TxSize1024To1518 = 0x29, // # frames 1024-1518
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TxSize1519ToMax = 0x2a, // # frames 1519-max
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TxSingleColl = 0x2b, // # frames tx after single collision
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TxBackoff2 = 0x2c, // # frames tx ok after 2 backoffs/collisions
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TxBackoff3 = 0x2d, // after 3 backoffs/collisions
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TxBackoff4 = 0x2e, // after 4
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TxBackoff5 = 0x2f, // after 5
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TxBackoff6 = 0x30, // after 6
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TxBackoff7 = 0x31, // after 7
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TxBackoff8 = 0x32, // after 8
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TxBackoff9 = 0x33, // after 9
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TxBackoff10 = 0x34, // after 10
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TxBackoff11 = 0x35, // after 11
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TxBackoff12 = 0x36, // after 12
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TxBackoff13 = 0x37, // after 13
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TxBackoff14 = 0x38, // after 14
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TxBackoff15 = 0x39, // after 15
|
|
TxUnderrun = 0x3a, // # frames dropped from underrun
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|
// Hole. See REG_RX_XGMII_PROT_ERR below.
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|
RxIpgShrink = 0x3c, // # of IPG shrinks detected
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|
// Duplicate. See REG_STAT_STICKY10G below.
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StatSticky1G = 0x3e, // tri-speed sticky bits
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|
StatInit = 0x3f // Clear all statistics
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|
};
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#define REG_RX_XGMII_PROT_ERR CRA(0x4,0xa,0x3b) /* # protocol errors detected on XGMII interface */
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#define REG_STAT_STICKY10G CRA(0x4,0xa,StatSticky1G) /* 10GbE sticky bits */
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#define REG_RX_OK_BYTES(pn) CRA(0x4,pn,RxOkBytes)
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#define REG_RX_BAD_BYTES(pn) CRA(0x4,pn,RxBadBytes)
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#define REG_TX_OK_BYTES(pn) CRA(0x4,pn,TxOkBytes)
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|
|
|
/* MII-Management Block registers */
|
|
/* These are for MII-M interface 0, which is the bidirectional LVTTL one. If
|
|
* we hooked up to the one with separate directions, the middle 0x0 needs to
|
|
* change to 0x1. And the current errata states that MII-M 1 doesn't work.
|
|
*/
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|
|
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#define REG_MIIM_STATUS CRA(0x3,0x0,0x00) /* MII-M Status */
|
|
#define REG_MIIM_CMD CRA(0x3,0x0,0x01) /* MII-M Command */
|
|
#define REG_MIIM_DATA CRA(0x3,0x0,0x02) /* MII-M Data */
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#define REG_MIIM_PRESCALE CRA(0x3,0x0,0x03) /* MII-M MDC Prescale */
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|
#define REG_ING_FFILT_UM_EN CRA(0x2, 0, 0xd)
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#define REG_ING_FFILT_BE_EN CRA(0x2, 0, 0x1d)
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|
#define REG_ING_FFILT_VAL0 CRA(0x2, 0, 0x2d)
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|
#define REG_ING_FFILT_VAL1 CRA(0x2, 0, 0x3d)
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|
#define REG_ING_FFILT_MASK0 CRA(0x2, 0, 0x4d)
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#define REG_ING_FFILT_MASK1 CRA(0x2, 0, 0x5d)
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#define REG_ING_FFILT_MASK2 CRA(0x2, 0, 0x6d)
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|
#define REG_ING_FFILT_ETYPE CRA(0x2, 0, 0x7d)
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|
|
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/* Whew. */
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|
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#endif
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