From ad8c12eea0cb02040a2705ed28e020b49bb06a3c Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Kristina=20Mart=C5=A1enko?= Date: Fri, 25 Jul 2014 02:30:46 +0300 Subject: staging: silicom: remove driver MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit The driver hasn't been cleaned up and it doesn't look like anyone is working on it anymore (including the original author). So remove it. If someone wants to work on cleaning the driver up and moving it out of staging, this commit can be reverted. In addition, since this removes the CONFIG_NET_VENDOR_SILICOM config symbol, remove the symbol from all defconfig files that reference it. Signed-off-by: Kristina MartÅ¡enko Cc: Daniel Cotey Signed-off-by: Greg Kroah-Hartman --- arch/mips/configs/cavium_octeon_defconfig | 1 - arch/parisc/configs/generic-64bit_defconfig | 1 - arch/powerpc/configs/85xx/kmp204x_defconfig | 1 - drivers/staging/Kconfig | 2 - drivers/staging/Makefile | 1 - drivers/staging/silicom/Kconfig | 45 - drivers/staging/silicom/Makefile | 6 - drivers/staging/silicom/README | 14 - drivers/staging/silicom/TODO | 8 - drivers/staging/silicom/bits.h | 56 - drivers/staging/silicom/bp_ioctl.h | 140 - drivers/staging/silicom/bp_mod.h | 711 --- drivers/staging/silicom/bpctl_mod.c | 7530 -------------------------- drivers/staging/silicom/bypass.h | 202 - drivers/staging/silicom/bypasslib/Makefile | 6 - drivers/staging/silicom/bypasslib/bp_ioctl.h | 198 - drivers/staging/silicom/bypasslib/bplibk.h | 36 - drivers/staging/silicom/bypasslib/bypass.c | 536 -- drivers/staging/silicom/bypasslib/libbp_sd.h | 532 -- drivers/staging/silicom/libbp_sd.h | 550 -- 20 files changed, 10576 deletions(-) delete mode 100644 drivers/staging/silicom/Kconfig delete mode 100644 drivers/staging/silicom/Makefile delete mode 100644 drivers/staging/silicom/README delete mode 100644 drivers/staging/silicom/TODO delete mode 100644 drivers/staging/silicom/bits.h delete mode 100644 drivers/staging/silicom/bp_ioctl.h delete mode 100644 drivers/staging/silicom/bp_mod.h delete mode 100644 drivers/staging/silicom/bpctl_mod.c delete mode 100644 drivers/staging/silicom/bypass.h delete mode 100644 drivers/staging/silicom/bypasslib/Makefile delete mode 100644 drivers/staging/silicom/bypasslib/bp_ioctl.h delete mode 100644 drivers/staging/silicom/bypasslib/bplibk.h delete mode 100644 drivers/staging/silicom/bypasslib/bypass.c delete mode 100644 drivers/staging/silicom/bypasslib/libbp_sd.h delete mode 100644 drivers/staging/silicom/libbp_sd.h diff --git a/arch/mips/configs/cavium_octeon_defconfig b/arch/mips/configs/cavium_octeon_defconfig index dace582..b2476a1 100644 --- a/arch/mips/configs/cavium_octeon_defconfig +++ b/arch/mips/configs/cavium_octeon_defconfig @@ -124,7 +124,6 @@ CONFIG_RTC_CLASS=y CONFIG_RTC_DRV_DS1307=y CONFIG_STAGING=y CONFIG_OCTEON_ETHERNET=y -# CONFIG_NET_VENDOR_SILICOM is not set # CONFIG_IOMMU_SUPPORT is not set CONFIG_EXT4_FS=y CONFIG_EXT4_FS_POSIX_ACL=y diff --git a/arch/parisc/configs/generic-64bit_defconfig b/arch/parisc/configs/generic-64bit_defconfig index dc0d7ce..e945c08 100644 --- a/arch/parisc/configs/generic-64bit_defconfig +++ b/arch/parisc/configs/generic-64bit_defconfig @@ -241,7 +241,6 @@ CONFIG_UIO_AEC=m CONFIG_UIO_SERCOS3=m CONFIG_UIO_PCI_GENERIC=m CONFIG_STAGING=y -# CONFIG_NET_VENDOR_SILICOM is not set CONFIG_EXT2_FS=y CONFIG_EXT2_FS_XATTR=y CONFIG_EXT2_FS_SECURITY=y diff --git a/arch/powerpc/configs/85xx/kmp204x_defconfig b/arch/powerpc/configs/85xx/kmp204x_defconfig index e9a81e5..e362d58 100644 --- a/arch/powerpc/configs/85xx/kmp204x_defconfig +++ b/arch/powerpc/configs/85xx/kmp204x_defconfig @@ -192,7 +192,6 @@ CONFIG_RTC_DRV_DS3232=y CONFIG_RTC_DRV_CMOS=y CONFIG_UIO=y CONFIG_STAGING=y -# CONFIG_NET_VENDOR_SILICOM is not set CONFIG_CLK_PPC_CORENET=y CONFIG_EXT2_FS=y CONFIG_NTFS_FS=y diff --git a/drivers/staging/Kconfig b/drivers/staging/Kconfig index b08394c..90624df 100644 --- a/drivers/staging/Kconfig +++ b/drivers/staging/Kconfig @@ -96,8 +96,6 @@ source "drivers/staging/gdm72xx/Kconfig" source "drivers/staging/gdm724x/Kconfig" -source "drivers/staging/silicom/Kconfig" - source "drivers/staging/imx-drm/Kconfig" source "drivers/staging/fwserial/Kconfig" diff --git a/drivers/staging/Makefile b/drivers/staging/Makefile index 9623308..27f44cd 100644 --- a/drivers/staging/Makefile +++ b/drivers/staging/Makefile @@ -41,7 +41,6 @@ obj-$(CONFIG_STAGING_BOARD) += board/ obj-$(CONFIG_USB_WPAN_HCD) += ozwpan/ obj-$(CONFIG_WIMAX_GDM72XX) += gdm72xx/ obj-$(CONFIG_LTE_GDM724X) += gdm724x/ -obj-$(CONFIG_NET_VENDOR_SILICOM) += silicom/ obj-$(CONFIG_DRM_IMX) += imx-drm/ obj-$(CONFIG_FIREWIRE_SERIAL) += fwserial/ obj-$(CONFIG_GOLDFISH) += goldfish/ diff --git a/drivers/staging/silicom/Kconfig b/drivers/staging/silicom/Kconfig deleted file mode 100644 index 6651bd8..0000000 --- a/drivers/staging/silicom/Kconfig +++ /dev/null @@ -1,45 +0,0 @@ -# -# Silicom device configuration -# - -config NET_VENDOR_SILICOM - bool "Silicom devices" - default y - depends on PCI && NETDEVICES - ---help--- - If you have a network card (Ethernet) belonging to this class, - say Y. - - Note that the answer to this question does not directly affect - the kernel: saying N will just case the configurator to skip all - the questions regarding Silicom chipsets. If you say Y, you will be asked - for your specific chipset/driver in the following questions. - -if NET_VENDOR_SILICOM - -config SBYPASS - tristate "Silicom BypassCTL library support" - depends on PCI - depends on m - ---help--- - If you have a network (Ethernet) controller of this type, say Y - - To compile this driver as a module, choose M here. The module - will be called bypass. - -config BPCTL - tristate "Silicom BypassCTL net support" - depends on PCI - depends on m - select SBYPASS - select MII - ---help--- - If you have a network (Ethernet) controller of this type, say Y - or M and read the Ethernet-HOWTO, available from - . - - To compile this driver as a module, choose M here. The module - will be called bpctl_mod. - - -endif # NET_VENDOR_SILICOM diff --git a/drivers/staging/silicom/Makefile b/drivers/staging/silicom/Makefile deleted file mode 100644 index ca83594..0000000 --- a/drivers/staging/silicom/Makefile +++ /dev/null @@ -1,6 +0,0 @@ -# -# Makefile for the Bypass network device drivers. -# - -obj-$(CONFIG_BPCTL) += bpctl_mod.o -obj-$(CONFIG_SBYPASS) += bypasslib/ diff --git a/drivers/staging/silicom/README b/drivers/staging/silicom/README deleted file mode 100644 index ae970b3..0000000 --- a/drivers/staging/silicom/README +++ /dev/null @@ -1,14 +0,0 @@ - -Theory of Operation: - -The Silicom Bypass Network Interface Cards (NICs) are network cards with paired ports (2 or 4). -The pairs either act as a "wire" allowing the network packets to pass or insert the device in -between the two ports. When paired with the on-board hardware watchdog or other failsafe, -they provide high availability for the network in the face of software outages or maintenance. - -The software requirements are for a kernel level driver that interfaces with the bypass and watchdog, -as well as for control software. User control can be either the provided standalone executable -(/bin/bpctl) or the API exposed by the Silicom library. - - - diff --git a/drivers/staging/silicom/TODO b/drivers/staging/silicom/TODO deleted file mode 100644 index 09d07b0..0000000 --- a/drivers/staging/silicom/TODO +++ /dev/null @@ -1,8 +0,0 @@ -TODO: - - checkpatch.pl cleanups - - locking audit - - single module with all functionality - - userland - - fix monolithic build. - - diff --git a/drivers/staging/silicom/bits.h b/drivers/staging/silicom/bits.h deleted file mode 100644 index 8c411d0..0000000 --- a/drivers/staging/silicom/bits.h +++ /dev/null @@ -1,56 +0,0 @@ -/******************************************************************************/ -/* */ -/* Broadcom BCM5700 Linux Network Driver, Copyright (c) 2000 - 2004 Broadcom */ -/* Corporation. */ -/* All rights reserved. */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* History: */ -/* 02/25/00 Hav Khauv Initial version. */ -/******************************************************************************/ - -#ifndef BITS_H -#define BITS_H - -/******************************************************************************/ -/* Bit Mask definitions */ -/******************************************************************************/ - -#define BIT_NONE 0x00 -#define BIT_0 0x01 -#define BIT_1 0x02 -#define BIT_2 0x04 -#define BIT_3 0x08 -#define BIT_4 0x10 -#define BIT_5 0x20 -#define BIT_6 0x40 -#define BIT_7 0x80 -#define BIT_8 0x0100 -#define BIT_9 0x0200 -#define BIT_10 0x0400 -#define BIT_11 0x0800 -#define BIT_12 0x1000 -#define BIT_13 0x2000 -#define BIT_14 0x4000 -#define BIT_15 0x8000 -#define BIT_16 0x010000 -#define BIT_17 0x020000 -#define BIT_18 0x040000 -#define BIT_19 0x080000 -#define BIT_20 0x100000 -#define BIT_21 0x200000 -#define BIT_22 0x400000 -#define BIT_23 0x800000 -#define BIT_24 0x01000000 -#define BIT_25 0x02000000 -#define BIT_26 0x04000000 -#define BIT_27 0x08000000 -#define BIT_28 0x10000000 -#define BIT_29 0x20000000 -#define BIT_30 0x40000000 -#define BIT_31 0x80000000 - -#endif /* BITS_H */ diff --git a/drivers/staging/silicom/bp_ioctl.h b/drivers/staging/silicom/bp_ioctl.h deleted file mode 100644 index 57de34a..0000000 --- a/drivers/staging/silicom/bp_ioctl.h +++ /dev/null @@ -1,140 +0,0 @@ -/******************************************************************************/ -/* */ -/* Silicom Bypass Control Utility, Copyright (c) 2005-2007 Silicom */ -/* All rights reserved. */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* */ -/******************************************************************************/ - -#ifndef BP_IOCTL_H -#define BP_IOCTL_H - -#define BP_CAP 0x01 /* BIT_0 */ -#define BP_STATUS_CAP 0x02 -#define BP_STATUS_CHANGE_CAP 0x04 -#define SW_CTL_CAP 0x08 -#define BP_DIS_CAP 0x10 -#define BP_DIS_STATUS_CAP 0x20 -#define STD_NIC_CAP 0x40 -#define BP_PWOFF_ON_CAP 0x80 -#define BP_PWOFF_OFF_CAP 0x0100 -#define BP_PWOFF_CTL_CAP 0x0200 -#define BP_PWUP_ON_CAP 0x0400 -#define BP_PWUP_OFF_CAP 0x0800 -#define BP_PWUP_CTL_CAP 0x1000 -#define WD_CTL_CAP 0x2000 -#define WD_STATUS_CAP 0x4000 -#define WD_TIMEOUT_CAP 0x8000 -#define TX_CTL_CAP 0x10000 -#define TX_STATUS_CAP 0x20000 -#define TAP_CAP 0x40000 -#define TAP_STATUS_CAP 0x80000 -#define TAP_STATUS_CHANGE_CAP 0x100000 -#define TAP_DIS_CAP 0x200000 -#define TAP_DIS_STATUS_CAP 0x400000 -#define TAP_PWUP_ON_CAP 0x800000 -#define TAP_PWUP_OFF_CAP 0x1000000 -#define TAP_PWUP_CTL_CAP 0x2000000 -#define NIC_CAP_NEG 0x4000000 -#define TPL_CAP 0x8000000 -#define DISC_CAP 0x10000000 -#define DISC_DIS_CAP 0x20000000 -#define DISC_PWUP_CTL_CAP 0x40000000 - -#define TPL2_CAP_EX 0x01 -#define DISC_PORT_CAP_EX 0x02 - -#define WD_MIN_TIME_MASK(val) (val & 0xf) -#define WD_STEP_COUNT_MASK(val) ((val & 0xf) << 5) -#define WDT_STEP_TIME 0x10 /* BIT_4 */ - -#define WD_MIN_TIME_GET(desc) (desc & 0xf) -#define WD_STEP_COUNT_GET(desc) ((desc>>5) & 0xf) - -typedef enum { - IF_SCAN, - GET_DEV_NUM, - IS_BYPASS, - GET_BYPASS_SLAVE, - GET_BYPASS_CAPS, - GET_WD_SET_CAPS, - SET_BYPASS, - GET_BYPASS, - GET_BYPASS_CHANGE, - SET_BYPASS_WD, - GET_BYPASS_WD, - GET_WD_EXPIRE_TIME, - RESET_BYPASS_WD_TIMER, - SET_DIS_BYPASS, - GET_DIS_BYPASS, - SET_BYPASS_PWOFF, - GET_BYPASS_PWOFF, - SET_BYPASS_PWUP, - GET_BYPASS_PWUP, - SET_STD_NIC, - GET_STD_NIC, - SET_TX, - GET_TX, - SET_TAP, - GET_TAP, - GET_TAP_CHANGE, - SET_DIS_TAP, - GET_DIS_TAP, - SET_TAP_PWUP, - GET_TAP_PWUP, - SET_WD_EXP_MODE, - GET_WD_EXP_MODE, - SET_WD_AUTORESET, - GET_WD_AUTORESET, - SET_TPL, - GET_TPL, - SET_DISC, - GET_DISC, - GET_DISC_CHANGE, - SET_DIS_DISC, - GET_DIS_DISC, - SET_DISC_PWUP, - GET_DISC_PWUP, - GET_BYPASS_INFO = 100, - GET_BP_WAIT_AT_PWUP, - SET_BP_WAIT_AT_PWUP, - GET_BP_HW_RESET, - SET_BP_HW_RESET, - SET_DISC_PORT, - GET_DISC_PORT, - SET_DISC_PORT_PWUP, - GET_DISC_PORT_PWUP, - SET_BP_FORCE_LINK, - GET_BP_FORCE_LINK, -#ifdef BP_SELF_TEST - SET_BP_SELF_TEST = 200, - GET_BP_SELF_TEST, -#endif - -} CMND_TYPE_SD; - -/* -* The major device number. We can't rely on dynamic -* registration any more, because ioctls need to know -* it. -*/ - -#define MAGIC_NUM 'J' - -/* for passing single values */ -struct bpctl_cmd { - int status; - int data[8]; - int in_param[8]; - int out_param[8]; -}; - -#define IOCTL_TX_MSG(cmd) _IOWR(MAGIC_NUM, cmd, struct bpctl_cmd) - -#define DEVICE_NAME "bpctl" - -#endif diff --git a/drivers/staging/silicom/bp_mod.h b/drivers/staging/silicom/bp_mod.h deleted file mode 100644 index 82b4963..0000000 --- a/drivers/staging/silicom/bp_mod.h +++ /dev/null @@ -1,711 +0,0 @@ -/******************************************************************************/ -/* */ -/* Bypass Control utility, Copyright (c) 2005 Silicom */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* */ -/* bp_mod.h */ -/* */ -/******************************************************************************/ - -#ifndef BP_MOD_H -#define BP_MOD_H -#include "bits.h" - -#define usec_delay(x) udelay(x) -#ifndef msec_delay_bp -#define msec_delay_bp(x) \ -do { \ - int i; \ - if (1) { \ - for (i = 0; i < 1000; i++) { \ - udelay(x); \ - } \ - } else { \ - msleep(x); \ - } \ -} while (0) - -#endif - -#include - -#ifndef jiffies_to_msecs -#define jiffies_to_msecs(x) _kc_jiffies_to_msecs(x) -static inline unsigned int jiffies_to_msecs(const unsigned long j) -{ -#if HZ <= 1000 && !(1000 % HZ) - return (1000 / HZ) * j; -#elif HZ > 1000 && !(HZ % 1000) - return (j + (HZ / 1000) - 1) / (HZ / 1000); -#else - return (j * 1000) / HZ; -#endif -} -#endif - -#define SILICOM_VID 0x1374 -#define SILICOM_SVID 0x1374 - -#define SILICOM_PXG2BPFI_SSID 0x0026 -#define SILICOM_PXG2BPFILX_SSID 0x0027 -#define SILICOM_PXGBPI_SSID 0x0028 -#define SILICOM_PXGBPIG_SSID 0x0029 -#define SILICOM_PXG2TBFI_SSID 0x002a -#define SILICOM_PXG4BPI_SSID 0x002c -#define SILICOM_PXG4BPFI_SSID 0x002d -#define SILICOM_PXG4BPFILX_SSID 0x002e -#define SILICOM_PXG2BPFIL_SSID 0x002F -#define SILICOM_PXG2BPFILLX_SSID 0x0030 -#define SILICOM_PEG4BPI_SSID 0x0031 -#define SILICOM_PEG2BPI_SSID 0x0037 -#define SILICOM_PEG4BPIN_SSID 0x0038 -#define SILICOM_PEG2BPFI_SSID 0x0039 -#define SILICOM_PEG2BPFILX_SSID 0x003A -#define SILICOM_PMCXG2BPFI_SSID 0x003B -#define NOKIA_PMCXG2BPFIN_SSID 0x0510 -#define NOKIA_PMCXG2BPIN_SSID 0x0513 -#define NOKIA_PMCXG4BPIN_SSID 0x0514 -#define NOKIA_PMCXG2BPFIN_SVID 0x13B8 -#define NOKIA_PMCXG2BPIN2_SSID 0x0515 -#define NOKIA_PMCXG4BPIN2_SSID 0x0516 -#define SILICOM_PMCX2BPI_SSID 0x041 -#define SILICOM_PMCX4BPI_SSID 0x042 -#define SILICOM_PXG2BISC1_SSID 0x003d -#define SILICOM_PEG2TBFI_SSID 0x003E -#define SILICOM_PXG2TBI_SSID 0x003f -#define SILICOM_PXG4BPFID_SSID 0x0043 -#define SILICOM_PEG4BPFI_SSID 0x0040 -#define SILICOM_PEG4BPIPT_SSID 0x0044 -#define SILICOM_PXG6BPI_SSID 0x0045 -#define SILICOM_PEG4BPIL_SSID 0x0046 -#define SILICOM_PEG2BPI5_SSID 0x0052 -#define SILICOM_PEG6BPI_SSID 0x0053 -#define SILICOM_PEG4BPFI5_SSID 0x0050 -#define SILICOM_PEG4BPFI5LX_SSID 0x0051 -#define SILICOM_PEG2BISC6_SSID 0x54 - -#define SILICOM_PEG6BPIFC_SSID 0x55 - -#define SILICOM_PEG2BPFI5_SSID 0x0056 -#define SILICOM_PEG2BPFI5LX_SSID 0x0057 - -#define SILICOM_PXEG4BPFI_SSID 0x0058 - -#define SILICOM_PEG2BPFID_SSID 0x0047 -#define SILICOM_PEG2BPFIDLX_SSID 0x004C -#define SILICOM_MEG2BPFILN_SSID 0x0048 -#define SILICOM_MEG2BPFINX_SSID 0x0049 -#define SILICOM_PEG4BPFILX_SSID 0x004A -#define SILICOM_MHIO8AD_SSID 0x004F - -#define SILICOM_MEG2BPFILXLN_SSID 0x004b -#define SILICOM_PEG2BPIX1_SSID 0x004d -#define SILICOM_MEG2BPFILXNX_SSID 0x004e - -#define SILICOM_PE10G2BPISR_SSID 0x0102 -#define SILICOM_PE10G2BPILR_SSID 0x0103 -#define SILICOM_PE10G2BPICX4_SSID 0x0101 - -#define SILICOM_XE10G2BPILR_SSID 0x0163 -#define SILICOM_XE10G2BPISR_SSID 0x0162 -#define SILICOM_XE10G2BPICX4_SSID 0x0161 -#define SILICOM_XE10G2BPIT_SSID 0x0160 - -#define SILICOM_PE10GDBISR_SSID 0x0181 -#define SILICOM_PE10GDBILR_SSID 0x0182 - -#define SILICOM_PE210G2DBi9SR_SSID 0x0188 -#define SILICOM_PE210G2DBi9SRRB_SSID 0x0188 -#define SILICOM_PE210G2DBi9LR_SSID 0x0189 -#define SILICOM_PE210G2DBi9LRRB_SSID 0x0189 -#define SILICOM_PE310G4DBi940SR_SSID 0x018C - -#define SILICOM_PE310G4BPi9T_SSID 0x130 -#define SILICOM_PE310G4BPi9SR_SSID 0x132 -#define SILICOM_PE310G4BPi9LR_SSID 0x133 - -#define NOKIA_XE10G2BPIXR_SVID 0x13B8 -#define NOKIA_XE10G2BPIXR_SSID 0x051C - -#define INTEL_PEG4BPII_PID 0x10A0 -#define INTEL_PEG4BPFII_PID 0x10A1 -#define INTEL_PEG4BPII_SSID 0x11A0 -#define INTEL_PEG4BPFII_SSID 0x11A1 - -#define INTEL_PEG4BPIIO_SSID 0x10A0 -#define INTEL_PEG4BPIIO_PID 0x105e - -#define BROADCOM_VID 0x14e4 -#define BROADCOM_PE10G2_PID 0x164e - -#define SILICOM_PE10G2BPTCX4_SSID 0x0141 -#define SILICOM_PE10G2BPTSR_SSID 0x0142 -#define SILICOM_PE10G2BPTLR_SSID 0x0143 -#define SILICOM_PE10G2BPTT_SSID 0x0140 - -#define SILICOM_PEG4BPI6_SSID 0x0320 -#define SILICOM_PEG4BPFI6_SSID 0x0321 -#define SILICOM_PEG4BPFI6LX_SSID 0x0322 -#define SILICOM_PEG4BPFI6ZX_SSID 0x0323 - -#define SILICOM_PEG2BPI6_SSID 0x0300 -#define SILICOM_PEG2BPFI6_SSID 0x0301 -#define SILICOM_PEG2BPFI6LX_SSID 0x0302 -#define SILICOM_PEG2BPFI6ZX_SSID 0x0303 -#define SILICOM_PEG2BPFI6FLXM_SSID 0x0304 - -#define SILICOM_PEG2DBI6_SSID 0x0308 -#define SILICOM_PEG2DBFI6_SSID 0x0309 -#define SILICOM_PEG2DBFI6LX_SSID 0x030A -#define SILICOM_PEG2DBFI6ZX_SSID 0x030B - -#define SILICOM_MEG2BPI6_SSID 0x0310 -#define SILICOM_XEG2BPI6_SSID 0x0318 -#define SILICOM_PEG4BPI6FC_SSID 0x0328 -#define SILICOM_PEG4BPFI6FC_SSID 0x0329 -#define SILICOM_PEG4BPFI6FCLX_SSID 0x032A -#define SILICOM_PEG4BPFI6FCZX_SSID 0x032B - -#define SILICOM_PEG6BPI6_SSID 0x0340 - -#define SILICOM_PEG2BPI6SC6_SSID 0x0360 - -#define SILICOM_MEG2BPI6_SSID 0x0310 -#define SILICOM_XEG2BPI6_SSID 0x0318 -#define SILICOM_MEG4BPI6_SSID 0x0330 - -#define SILICOM_PE2G4BPi80L_SSID 0x0380 - -#define SILICOM_M6E2G8BPi80A_SSID 0x0474 - -#define SILICOM_PE2G4BPi35_SSID 0x03d8 - -#define SILICOM_PE2G4BPFi80_SSID 0x0381 -#define SILICOM_PE2G4BPFi80LX_SSID 0x0382 -#define SILICOM_PE2G4BPFi80ZX_SSID 0x0383 - -#define SILICOM_PE2G4BPi80_SSID 0x0388 - -#define SILICOM_PE2G2BPi80_SSID 0x0390 -#define SILICOM_PE2G2BPFi80_SSID 0x0391 -#define SILICOM_PE2G2BPFi80LX_SSID 0x0392 -#define SILICOM_PE2G2BPFi80ZX_SSID 0x0393 - -#define SILICOM_PE2G4BPi35L_SSID 0x03D0 -#define SILICOM_PE2G4BPFi35_SSID 0x03D1 -#define SILICOM_PE2G4BPFi35LX_SSID 0x03D2 -#define SILICOM_PE2G4BPFi35ZX_SSID 0x03D3 - -#define SILICOM_PE2G2BPi35_SSID 0x03c0 -#define SILICOM_PAC1200BPi35_SSID 0x03cc -#define SILICOM_PE2G2BPFi35_SSID 0x03C1 -#define SILICOM_PE2G2BPFi35LX_SSID 0x03C2 -#define SILICOM_PE2G2BPFi35ZX_SSID 0x03C3 - -#define SILICOM_PE2G6BPi35_SSID 0x03E0 -#define SILICOM_PE2G6BPi35CX_SSID 0x0AA0 - -#define INTEL_PE210G2SPI9_SSID 0x00C - -#define SILICOM_M1EG2BPI6_SSID 0x400 - -#define SILICOM_M1EG2BPFI6_SSID 0x0401 -#define SILICOM_M1EG2BPFI6LX_SSID 0x0402 -#define SILICOM_M1EG2BPFI6ZX_SSID 0x0403 - -#define SILICOM_M1EG4BPI6_SSID 0x0420 - -#define SILICOM_M1EG4BPFI6_SSID 0x0421 -#define SILICOM_M1EG4BPFI6LX_SSID 0x0422 -#define SILICOM_M1EG4BPFI6ZX_SSID 0x0423 - -#define SILICOM_M1EG6BPI6_SSID 0x0440 - -#define SILICOM_M1E2G4BPi80_SSID 0x0460 -#define SILICOM_M1E2G4BPFi80_SSID 0x0461 -#define SILICOM_M1E2G4BPFi80LX_SSID 0x0462 -#define SILICOM_M1E2G4BPFi80ZX_SSID 0x0463 - -#define SILICOM_M6E2G8BPi80_SSID 0x0470 -#define SILICOM_PE210G2BPi40_SSID 0x01a0 - -#define PEG540_IF_SERIES(pid) \ - ((pid == SILICOM_PE210G2BPi40_SSID)) - -#define OLD_IF_SERIES(pid)\ - ((pid == SILICOM_PXG2BPFI_SSID) || \ - (pid == SILICOM_PXG2BPFILX_SSID)) - -#define P2BPFI_IF_SERIES(pid) \ - ((pid == SILICOM_PXG2BPFI_SSID) || \ - (pid == SILICOM_PXG2BPFILX_SSID) || \ - (pid == SILICOM_PEG2BPFI_SSID) || \ - (pid == SILICOM_PEG2BPFID_SSID) || \ - (pid == SILICOM_PEG2BPFIDLX_SSID) || \ - (pid == SILICOM_MEG2BPFILN_SSID) || \ - (pid == SILICOM_MEG2BPFINX_SSID) || \ - (pid == SILICOM_PEG4BPFILX_SSID) || \ - (pid == SILICOM_PEG4BPFI_SSID) || \ - (pid == SILICOM_PXEG4BPFI_SSID) || \ - (pid == SILICOM_PXG4BPFID_SSID) || \ - (pid == SILICOM_PEG2TBFI_SSID) || \ - (pid == SILICOM_PE10G2BPISR_SSID) || \ - (pid == SILICOM_PE10G2BPILR_SSID) || \ - (pid == SILICOM_PEG2BPFILX_SSID) || \ - (pid == SILICOM_PMCXG2BPFI_SSID) || \ - (pid == SILICOM_MHIO8AD_SSID) || \ - (pid == SILICOM_PEG4BPFI5LX_SSID) || \ - (pid == SILICOM_PEG4BPFI5_SSID) || \ - (pid == SILICOM_PEG4BPFI6FC_SSID) || \ - (pid == SILICOM_PEG4BPFI6FCLX_SSID) || \ - (pid == SILICOM_PEG4BPFI6FCZX_SSID) || \ - (pid == NOKIA_PMCXG2BPFIN_SSID) || \ - (pid == SILICOM_MEG2BPFILXLN_SSID) || \ - (pid == SILICOM_MEG2BPFILXNX_SSID) || \ - (pid == SILICOM_XE10G2BPIT_SSID) || \ - (pid == SILICOM_XE10G2BPICX4_SSID) || \ - (pid == SILICOM_XE10G2BPISR_SSID) || \ - (pid == NOKIA_XE10G2BPIXR_SSID) || \ - (pid == SILICOM_PE10GDBISR_SSID) || \ - (pid == SILICOM_PE10GDBILR_SSID) || \ - (pid == SILICOM_XE10G2BPILR_SSID)) - -#define INTEL_IF_SERIES(pid) \ - ((pid == INTEL_PEG4BPII_SSID) || \ - (pid == INTEL_PEG4BPIIO_SSID) || \ - (pid == INTEL_PEG4BPFII_SSID)) - -#define NOKIA_SERIES(pid) \ - ((pid == NOKIA_PMCXG2BPIN_SSID) || \ - (pid == NOKIA_PMCXG4BPIN_SSID) || \ - (pid == SILICOM_PMCX4BPI_SSID) || \ - (pid == NOKIA_PMCXG2BPFIN_SSID) || \ - (pid == SILICOM_PMCXG2BPFI_SSID) || \ - (pid == NOKIA_PMCXG2BPIN2_SSID) || \ - (pid == NOKIA_PMCXG4BPIN2_SSID) || \ - (pid == SILICOM_PMCX2BPI_SSID)) - -#define DISCF_IF_SERIES(pid) \ - (pid == SILICOM_PEG2TBFI_SSID) - -#define PEGF_IF_SERIES(pid) \ - ((pid == SILICOM_PEG2BPFI_SSID) || \ - (pid == SILICOM_PEG2BPFID_SSID) || \ - (pid == SILICOM_PEG2BPFIDLX_SSID) || \ - (pid == SILICOM_PEG2BPFILX_SSID) || \ - (pid == SILICOM_PEG4BPFI_SSID) || \ - (pid == SILICOM_PXEG4BPFI_SSID) || \ - (pid == SILICOM_MEG2BPFILN_SSID) || \ - (pid == SILICOM_MEG2BPFINX_SSID) || \ - (pid == SILICOM_PEG4BPFILX_SSID) || \ - (pid == SILICOM_PEG2TBFI_SSID) || \ - (pid == SILICOM_MEG2BPFILXLN_SSID) || \ - (pid == SILICOM_MEG2BPFILXNX_SSID)) - -#define TPL_IF_SERIES(pid) \ - ((pid == SILICOM_PXG2BPFIL_SSID) || \ - (pid == SILICOM_PXG2BPFILLX_SSID) || \ - (pid == SILICOM_PXG2TBFI_SSID) || \ - (pid == SILICOM_PXG4BPFID_SSID) || \ - (pid == SILICOM_PXG4BPFI_SSID)) - -#define BP10G_IF_SERIES(pid) \ - ((pid == SILICOM_PE10G2BPISR_SSID) || \ - (pid == SILICOM_PE10G2BPICX4_SSID) || \ - (pid == SILICOM_PE10G2BPILR_SSID) || \ - (pid == SILICOM_XE10G2BPIT_SSID) || \ - (pid == SILICOM_XE10G2BPICX4_SSID) || \ - (pid == SILICOM_XE10G2BPISR_SSID) || \ - (pid == NOKIA_XE10G2BPIXR_SSID) || \ - (pid == SILICOM_PE10GDBISR_SSID) || \ - (pid == SILICOM_PE10GDBILR_SSID) || \ - (pid == SILICOM_XE10G2BPILR_SSID)) - -#define BP10GB_IF_SERIES(pid) \ - ((pid == SILICOM_PE10G2BPTCX4_SSID) || \ - (pid == SILICOM_PE10G2BPTSR_SSID) || \ - (pid == SILICOM_PE10G2BPTLR_SSID) || \ - (pid == SILICOM_PE10G2BPTT_SSID)) - -#define BP10G_CX4_SERIES(pid) \ - (pid == SILICOM_PE10G2BPICX4_SSID) - -#define BP10GB_CX4_SERIES(pid) \ - (pid == SILICOM_PE10G2BPTCX4_SSID) - -#define SILICOM_M2EG2BPFI6_SSID 0x0501 -#define SILICOM_M2EG2BPFI6LX_SSID 0x0502 -#define SILICOM_M2EG2BPFI6ZX_SSID 0x0503 -#define SILICOM_M2EG4BPI6_SSID 0x0520 - -#define SILICOM_M2EG4BPFI6_SSID 0x0521 -#define SILICOM_M2EG4BPFI6LX_SSID 0x0522 -#define SILICOM_M2EG4BPFI6ZX_SSID 0x0523 - -#define SILICOM_M2EG6BPI6_SSID 0x0540 - -#define SILICOM_M1E10G2BPI9CX4_SSID 0x481 -#define SILICOM_M1E10G2BPI9SR_SSID 0x482 -#define SILICOM_M1E10G2BPI9LR_SSID 0x483 -#define SILICOM_M1E10G2BPI9T_SSID 0x480 - -#define SILICOM_M2E10G2BPI9CX4_SSID 0x581 -#define SILICOM_M2E10G2BPI9SR_SSID 0x582 -#define SILICOM_M2E10G2BPI9LR_SSID 0x583 -#define SILICOM_M2E10G2BPI9T_SSID 0x580 - -#define SILICOM_PE210G2BPI9CX4_SSID 0x121 -#define SILICOM_PE210G2BPI9SR_SSID 0x122 -#define SILICOM_PE210G2BPI9LR_SSID 0x123 -#define SILICOM_PE210G2BPI9T_SSID 0x120 - -#define DBI_IF_SERIES(pid) \ - ((pid == SILICOM_PE10GDBISR_SSID) || \ - (pid == SILICOM_PE10GDBILR_SSID) || \ - (pid == SILICOM_XE10G2BPILR_SSID) || \ - (pid == SILICOM_PE210G2DBi9LR_SSID)) - -#define PEGF5_IF_SERIES(pid) \ - ((pid == SILICOM_PEG2BPFI5_SSID) || \ - (pid == SILICOM_PEG2BPFI5LX_SSID) || \ - (pid == SILICOM_PEG4BPFI6_SSID) || \ - (pid == SILICOM_PEG4BPFI6LX_SSID) || \ - (pid == SILICOM_PEG4BPFI6ZX_SSID) || \ - (pid == SILICOM_PEG2BPFI6_SSID) || \ - (pid == SILICOM_PEG2BPFI6LX_SSID) || \ - (pid == SILICOM_PEG2BPFI6ZX_SSID) || \ - (pid == SILICOM_PEG2BPFI6FLXM_SSID) || \ - (pid == SILICOM_PEG2DBFI6_SSID) || \ - (pid == SILICOM_PEG2DBFI6LX_SSID) || \ - (pid == SILICOM_PEG2DBFI6ZX_SSID) || \ - (pid == SILICOM_PEG4BPI6FC_SSID) || \ - (pid == SILICOM_PEG4BPFI6FCLX_SSID) || \ - (pid == SILICOM_PEG4BPI6FC_SSID) || \ - (pid == SILICOM_M1EG2BPFI6_SSID) || \ - (pid == SILICOM_M1EG2BPFI6LX_SSID) || \ - (pid == SILICOM_M1EG2BPFI6ZX_SSID) || \ - (pid == SILICOM_M1EG4BPFI6_SSID) || \ - (pid == SILICOM_M1EG4BPFI6LX_SSID) || \ - (pid == SILICOM_M1EG4BPFI6ZX_SSID) || \ - (pid == SILICOM_M2EG2BPFI6_SSID) || \ - (pid == SILICOM_M2EG2BPFI6LX_SSID) || \ - (pid == SILICOM_M2EG2BPFI6ZX_SSID) || \ - (pid == SILICOM_M2EG4BPFI6_SSID) || \ - (pid == SILICOM_M2EG4BPFI6LX_SSID) || \ - (pid == SILICOM_M2EG4BPFI6ZX_SSID) || \ - (pid == SILICOM_PEG4BPFI6FCZX_SSID)) - -#define PEG5_IF_SERIES(pid) \ - ((pid == SILICOM_PEG4BPI6_SSID) || \ - (pid == SILICOM_PEG2BPI6_SSID) || \ - (pid == SILICOM_PEG4BPI6FC_SSID) || \ - (pid == SILICOM_PEG6BPI6_SSID) || \ - (pid == SILICOM_PEG2BPI6SC6_SSID) || \ - (pid == SILICOM_MEG2BPI6_SSID) || \ - (pid == SILICOM_XEG2BPI6_SSID) || \ - (pid == SILICOM_MEG4BPI6_SSID) || \ - (pid == SILICOM_M1EG2BPI6_SSID) || \ - (pid == SILICOM_M1EG4BPI6_SSID) || \ - (pid == SILICOM_M1EG6BPI6_SSID) || \ - (pid == SILICOM_PEG6BPI_SSID) || \ - (pid == SILICOM_PEG4BPIL_SSID) || \ - (pid == SILICOM_PEG2BISC6_SSID) || \ - (pid == SILICOM_PEG2BPI5_SSID)) - -#define PEG80_IF_SERIES(pid) \ - ((pid == SILICOM_M1E2G4BPi80_SSID) || \ - (pid == SILICOM_M6E2G8BPi80_SSID) || \ - (pid == SILICOM_PE2G4BPi80L_SSID) || \ - (pid == SILICOM_M6E2G8BPi80A_SSID) || \ - (pid == SILICOM_PE2G2BPi35_SSID) || \ - (pid == SILICOM_PAC1200BPi35_SSID) || \ - (pid == SILICOM_PE2G4BPi35_SSID) || \ - (pid == SILICOM_PE2G4BPi35L_SSID) || \ - (pid == SILICOM_PE2G6BPi35_SSID) || \ - (pid == SILICOM_PE2G2BPi80_SSID) || \ - (pid == SILICOM_PE2G4BPi80_SSID) || \ - (pid == SILICOM_PE2G4BPFi80_SSID) || \ - (pid == SILICOM_PE2G4BPFi80LX_SSID) || \ - (pid == SILICOM_PE2G4BPFi80ZX_SSID) || \ - (pid == SILICOM_PE2G4BPFi80ZX_SSID) || \ - (pid == SILICOM_PE2G2BPFi80_SSID) || \ - (pid == SILICOM_PE2G2BPFi80LX_SSID) || \ - (pid == SILICOM_PE2G2BPFi80ZX_SSID) || \ - (pid == SILICOM_PE2G2BPFi35_SSID) || \ - (pid == SILICOM_PE2G2BPFi35LX_SSID) || \ - (pid == SILICOM_PE2G2BPFi35ZX_SSID) || \ - (pid == SILICOM_PE2G4BPFi35_SSID) || \ - (pid == SILICOM_PE2G4BPFi35LX_SSID) || \ - (pid == SILICOM_PE2G4BPFi35ZX_SSID)) - -#define PEGF80_IF_SERIES(pid) \ - ((pid == SILICOM_PE2G4BPFi80_SSID) || \ - (pid == SILICOM_PE2G4BPFi80LX_SSID) || \ - (pid == SILICOM_PE2G4BPFi80ZX_SSID) || \ - (pid == SILICOM_PE2G4BPFi80ZX_SSID) || \ - (pid == SILICOM_M1E2G4BPFi80_SSID) || \ - (pid == SILICOM_M1E2G4BPFi80LX_SSID) || \ - (pid == SILICOM_M1E2G4BPFi80ZX_SSID) || \ - (pid == SILICOM_PE2G2BPFi80_SSID) || \ - (pid == SILICOM_PE2G2BPFi80LX_SSID) || \ - (pid == SILICOM_PE2G2BPFi80ZX_SSID) || \ - (pid == SILICOM_PE2G2BPFi35_SSID) || \ - (pid == SILICOM_PE2G2BPFi35LX_SSID) || \ - (pid == SILICOM_PE2G2BPFi35ZX_SSID) || \ - (pid == SILICOM_PE2G4BPFi35_SSID) || \ - (pid == SILICOM_PE2G4BPFi35LX_SSID) || \ - (pid == SILICOM_PE2G4BPFi35ZX_SSID)) - -#define BP10G9_IF_SERIES(pid) \ - ((pid == INTEL_PE210G2SPI9_SSID) || \ - (pid == SILICOM_M1E10G2BPI9CX4_SSID) || \ - (pid == SILICOM_M1E10G2BPI9SR_SSID) || \ - (pid == SILICOM_M1E10G2BPI9LR_SSID) || \ - (pid == SILICOM_M1E10G2BPI9T_SSID) || \ - (pid == SILICOM_M2E10G2BPI9CX4_SSID) || \ - (pid == SILICOM_M2E10G2BPI9SR_SSID) || \ - (pid == SILICOM_M2E10G2BPI9LR_SSID) || \ - (pid == SILICOM_M2E10G2BPI9T_SSID) || \ - (pid == SILICOM_PE210G2BPI9CX4_SSID) || \ - (pid == SILICOM_PE210G2BPI9SR_SSID) || \ - (pid == SILICOM_PE210G2BPI9LR_SSID) || \ - (pid == SILICOM_PE210G2DBi9SR_SSID) || \ - (pid == SILICOM_PE210G2DBi9SRRB_SSID) || \ - (pid == SILICOM_PE210G2DBi9LR_SSID) || \ - (pid == SILICOM_PE210G2DBi9LRRB_SSID) || \ - (pid == SILICOM_PE310G4DBi940SR_SSID) || \ - (pid == SILICOM_PEG2BISC6_SSID) || \ - (pid == SILICOM_PE310G4BPi9T_SSID) || \ - (pid == SILICOM_PE310G4BPi9SR_SSID) || \ - (pid == SILICOM_PE310G4BPi9LR_SSID) || \ - (pid == SILICOM_PE210G2BPI9T_SSID)) - -/*******************************************************/ -/* 1G INTERFACE ****************************************/ -/*******************************************************/ - -/* Intel Registers */ -#define BPCTLI_CTRL 0x00000 -#define BPCTLI_CTRL_SWDPIO0 0x00400000 -#define BPCTLI_CTRL_SWDPIN0 0x00040000 - -#define BPCTLI_CTRL_EXT 0x00018 /* Extended Device Control - RW */ -#define BPCTLI_STATUS 0x00008 /* Device Status - RO */ - -/* HW related */ -#define BPCTLI_CTRL_EXT_SDP6_DATA 0x00000040 /* Value of SW - * Defineable Pin 6 - */ -#define BPCTLI_CTRL_EXT_SDP7_DATA 0x00000080 /* Value of SW - * Defineable Pin 7 - */ -#define BPCTLI_CTRL_SDP0_DATA 0x00040000 /* SWDPIN 0 value */ -#define BPCTLI_CTRL_EXT_SDP6_DIR 0x00000400 /* Direction of SDP6 - * 0=in 1=out - */ -#define BPCTLI_CTRL_EXT_SDP7_DIR 0x00000800 /* Direction of SDP7 - * 0=in 1=out - */ -#define BPCTLI_CTRL_SDP0_DIR 0x00400000 /* SDP0 Input or output */ -#define BPCTLI_CTRL_SWDPIN1 0x00080000 -#define BPCTLI_CTRL_SDP1_DIR 0x00800000 - -#define BPCTLI_STATUS_LU 0x00000002 /* Link up.0=no,1=link */ - -#define BPCTLI_CTRL_SDP0_SHIFT 18 -#define BPCTLI_CTRL_EXT_SDP6_SHIFT 6 - -#define BPCTLI_STATUS_TBIMODE 0x00000020 -#define BPCTLI_CTRL_EXT_LINK_MODE_PCIE_SERDES 0x00C00000 -#define BPCTLI_CTRL_EXT_LINK_MODE_MASK 0x00C00000 - -#define BPCTLI_CTRL_EXT_MCLK_DIR BPCTLI_CTRL_EXT_SDP7_DIR -#define BPCTLI_CTRL_EXT_MCLK_DATA BPCTLI_CTRL_EXT_SDP7_DATA -#define BPCTLI_CTRL_EXT_MDIO_DIR BPCTLI_CTRL_EXT_SDP6_DIR -#define BPCTLI_CTRL_EXT_MDIO_DATA BPCTLI_CTRL_EXT_SDP6_DATA - -#define BPCTLI_CTRL_EXT_MCLK_DIR5 BPCTLI_CTRL_SDP1_DIR -#define BPCTLI_CTRL_EXT_MCLK_DATA5 BPCTLI_CTRL_SWDPIN1 -#define BPCTLI_CTRL_EXT_MCLK_DIR80 BPCTLI_CTRL_EXT_SDP6_DIR -#define BPCTLI_CTRL_EXT_MCLK_DATA80 BPCTLI_CTRL_EXT_SDP6_DATA -#define BPCTLI_CTRL_EXT_MDIO_DIR5 BPCTLI_CTRL_SWDPIO0 -#define BPCTLI_CTRL_EXT_MDIO_DATA5 BPCTLI_CTRL_SWDPIN0 -#define BPCTLI_CTRL_EXT_MDIO_DIR80 BPCTLI_CTRL_SWDPIO0 -#define BPCTLI_CTRL_EXT_MDIO_DATA80 BPCTLI_CTRL_SWDPIN0 - -#define BPCTL_WRITE_REG(a, reg, value) \ - (writel((value), (void *)(((a)->mem_map) + BPCTLI_##reg))) - -#define BPCTL_READ_REG(a, reg) ( \ - readl((void *)((a)->mem_map) + BPCTLI_##reg)) - -#define BPCTL_WRITE_FLUSH(a) BPCTL_READ_REG(a, STATUS) - -#define BPCTL_BP_WRITE_REG(a, reg, value) ({ \ - BPCTL_WRITE_REG(a, reg, value); \ - BPCTL_WRITE_FLUSH(a); }) - -/**************************************************************/ -/************** 82575 Interface********************************/ -/**************************************************************/ - -#define BPCTLI_MII_CR_POWER_DOWN 0x0800 -#define BPCTLI_PHY_CONTROL 0x00 /* Control Register */ -#define BPCTLI_MDIC 0x00020 /* MDI Control - RW */ -#define BPCTLI_IGP01E1000_PHY_PAGE_SELECT 0x1F /* Page Select */ -#define BPCTLI_MAX_PHY_REG_ADDRESS 0x1F /* 5 bit address bus (0-0x1F) */ - -#define BPCTLI_MDIC_DATA_MASK 0x0000FFFF -#define BPCTLI_MDIC_REG_MASK 0x001F0000 -#define BPCTLI_MDIC_REG_SHIFT 16 -#define BPCTLI_MDIC_PHY_MASK 0x03E00000 -#define BPCTLI_MDIC_PHY_SHIFT 21 -#define BPCTLI_MDIC_OP_WRITE 0x04000000 -#define BPCTLI_MDIC_OP_READ 0x08000000 -#define BPCTLI_MDIC_READY 0x10000000 -#define BPCTLI_MDIC_INT_EN 0x20000000 -#define BPCTLI_MDIC_ERROR 0x40000000 - -#define BPCTLI_SWFW_PHY0_SM 0x02 -#define BPCTLI_SWFW_PHY1_SM 0x04 - -#define BPCTLI_SW_FW_SYNC 0x05B5C /* Software-Firmware - * Synchronization - RW - */ - -#define BPCTLI_SWSM 0x05B50 /* SW Semaphore */ -#define BPCTLI_FWSM 0x05B54 /* FW Semaphore */ - -#define BPCTLI_SWSM_SMBI 0x00000001 /* Driver Semaphore bit */ -#define BPCTLI_SWSM_SWESMBI 0x00000002 /* FW Semaphore bit */ -#define BPCTLI_MAX_PHY_MULTI_PAGE_REG 0xF -#define BPCTLI_GEN_POLL_TIMEOUT 640 - -/********************************************************/ - -/********************************************************/ -/* 10G INTERFACE ****************************************/ -/********************************************************/ - -#define BP10G_I2CCTL 0x28 - -/* I2CCTL Bit Masks */ -#define BP10G_I2C_CLK_IN 0x00000001 -#define BP10G_I2C_CLK_OUT 0x00000002 -#define BP10G_I2C_DATA_IN 0x00000004 -#define BP10G_I2C_DATA_OUT 0x00000008 - -#define BP10G_ESDP 0x20 - -#define BP10G_SDP0_DIR 0x100 -#define BP10G_SDP1_DIR 0x200 -#define BP10G_SDP3_DIR 0x800 -#define BP10G_SDP4_DIR BIT_12 -#define BP10G_SDP5_DIR 0x2000 -#define BP10G_SDP0_DATA 0x001 -#define BP10G_SDP1_DATA 0x002 -#define BP10G_SDP3_DATA 0x008 -#define BP10G_SDP4_DATA 0x010 -#define BP10G_SDP5_DATA 0x020 - -#define BP10G_SDP2_DIR 0x400 -#define BP10G_SDP2_DATA 0x4 - -#define BP10G_EODSDP 0x28 - -#define BP10G_SDP6_DATA_IN 0x001 -#define BP10G_SDP6_DATA_OUT 0x002 - -#define BP10G_SDP7_DATA_IN 0x004 -#define BP10G_SDP7_DATA_OUT 0x008 - -#define BP10G_MCLK_DATA_OUT BP10G_SDP7_DATA_OUT -#define BP10G_MDIO_DATA_OUT BP10G_SDP6_DATA_OUT -#define BP10G_MDIO_DATA_IN BP10G_SDP6_DATA_IN - -#define BP10G_MDIO_DATA /*BP10G_SDP5_DATA*/ BP10G_SDP3_DATA -#define BP10G_MDIO_DIR /*BP10G_SDP5_DIR*/ BP10G_SDP3_DATA - -/*#define BP10G_MCLK_DATA_OUT9 BP10G_I2C_CLK_OUT -#define BP10G_MDIO_DATA_OUT9 BP10G_I2C_DATA_OUT*/ - - /*#define BP10G_MCLK_DATA_OUT9*/ - /*BP10G_I2C_DATA_OUT */ -#define BP10G_MDIO_DATA_OUT9 BP10G_I2C_DATA_OUT /*BP10G_I2C_CLK_OUT */ - -/* VIA EOSDP ! */ -#define BP10G_MCLK_DATA_OUT9 BP10G_SDP4_DATA -#define BP10G_MCLK_DIR_OUT9 BP10G_SDP4_DIR - -/*#define BP10G_MDIO_DATA_IN9 BP10G_I2C_DATA_IN*/ - -#define BP10G_MDIO_DATA_IN9 BP10G_I2C_DATA_IN /*BP10G_I2C_CLK_IN */ - -#define BP540_MDIO_DATA /*BP10G_SDP5_DATA*/ BP10G_SDP0_DATA -#define BP540_MDIO_DIR /*BP10G_SDP5_DIR*/ BP10G_SDP0_DIR -#define BP540_MCLK_DATA BP10G_SDP2_DATA -#define BP540_MCLK_DIR BP10G_SDP2_DIR - -#define BP10G_WRITE_REG(a, reg, value) \ - (writel((value), (void *)(((a)->mem_map) + BP10G_##reg))) - -#define BP10G_READ_REG(a, reg) ( \ - readl((void *)((a)->mem_map) + BP10G_##reg)) - -/*****BROADCOM*******************************************/ - -#define BP10GB_MISC_REG_GPIO 0xa490 -#define BP10GB_GPIO3_P0 BIT_3 -#define BP10GB_GPIO3_P1 BIT_7 - -#define BP10GB_GPIO3_SET_P0 BIT_11 -#define BP10GB_GPIO3_CLR_P0 BIT_19 -#define BP10GB_GPIO3_OE_P0 BIT_27 - -#define BP10GB_GPIO3_SET_P1 BIT_15 -#define BP10GB_GPIO3_CLR_P1 BIT_23 -#define BP10GB_GPIO3_OE_P1 BIT_31 - -#define BP10GB_GPIO0_P1 0x10 -#define BP10GB_GPIO0_P0 0x1 -#define BP10GB_GPIO0_CLR_P0 0x10000 -#define BP10GB_GPIO0_CLR_P1 0x100000 -#define BP10GB_GPIO0_SET_P0 0x100 -#define BP10GB_GPIO0_SET_P1 0x1000 - -#define BP10GB_GPIO0_OE_P1 0x10000000 -#define BP10GB_GPIO0_OE_P0 0x1000000 - -#define BP10GB_MISC_REG_SPIO 0xa4fc -#define BP10GB_GPIO4_OE BIT_28 -#define BP10GB_GPIO5_OE BIT_29 -#define BP10GB_GPIO4_CLR BIT_20 -#define BP10GB_GPIO5_CLR BIT_21 -#define BP10GB_GPIO4_SET BIT_12 -#define BP10GB_GPIO5_SET BIT_13 -#define BP10GB_GPIO4 BIT_4 -#define BP10GB_GPIO5 BIT_5 - -#define BP10GB_MCLK_DIR BP10GB_GPIO5_OE -#define BP10GB_MDIO_DIR BP10GB_GPIO4_OE - -#define BP10GB_MCLK_DATA BP10GB_GPIO5 -#define BP10GB_MDIO_DATA BP10GB_GPIO4 - -#define BP10GB_MCLK_SET BP10GB_GPIO5_SET -#define BP10GB_MDIO_SET BP10GB_GPIO4_SET - -#define BP10GB_MCLK_CLR BP10GB_GPIO5_CLR -#define BP10GB_MDIO_CLR BP10GB_GPIO4_CLR - -#define BP10GB_WRITE_REG(a, reg, value) \ - (writel((value), (void *)(((a)->mem_map) + BP10GB_##reg))) - -#define BP10GB_READ_REG(a, reg) ( \ - readl((void *)((a)->mem_map) + BP10GB_##reg)) - -#endif diff --git a/drivers/staging/silicom/bpctl_mod.c b/drivers/staging/silicom/bpctl_mod.c deleted file mode 100644 index 765fce8..0000000 --- a/drivers/staging/silicom/bpctl_mod.c +++ /dev/null @@ -1,7530 +0,0 @@ -/******************************************************************************/ -/* */ -/* Bypass Control utility, Copyright (c) 2005-2011 Silicom */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* Copyright(c) 2007 - 2009, 2013 Intel Corporation. All rights reserved. */ -/* */ -/* */ -/******************************************************************************/ - -#include /* We're doing kernel work */ -#include /* Specifically, a module */ -#include -#include -#include -#include -#include -#include -#include - -#include /* for get_user and put_user */ -#include -#include -#include - -#include "bp_ioctl.h" -#include "bp_mod.h" -#include "bypass.h" -#include "libbp_sd.h" - -#define SUCCESS 0 -#define BP_MOD_VER "9.0.4" -#define BP_MOD_DESCR "Silicom Bypass-SD Control driver" -#define BP_SYNC_FLAG 1 - -static int major_num; - -MODULE_AUTHOR("Anna Lukin, annal@silicom.co.il"); -MODULE_LICENSE("GPL"); -MODULE_DESCRIPTION(BP_MOD_DESCR); -MODULE_VERSION(BP_MOD_VER); -static spinlock_t bpvm_lock; - -#define unlock_bpctl() \ - up(&bpctl_sema); - -/* Media Types */ -enum bp_media_type { - BP_COPPER = 0, - BP_FIBER, - BP_CX4, - BP_NONE, -}; - -struct bypass_pfs_sd { - char dir_name[32]; - struct proc_dir_entry *bypass_entry; -}; - -struct bpctl_dev { - char *name; - char *desc; - struct pci_dev *pdev; /* PCI device */ - struct net_device *ndev; /* net device */ - unsigned long mem_map; - uint8_t bus; - uint8_t slot; - uint8_t func; - u_int32_t device; - u_int32_t vendor; - u_int32_t subvendor; - u_int32_t subdevice; - int ifindex; - uint32_t bp_caps; - uint32_t bp_caps_ex; - uint8_t bp_fw_ver; - int bp_ext_ver; - int wdt_status; - unsigned long bypass_wdt_on_time; - uint32_t bypass_timer_interval; - struct timer_list bp_timer; - uint32_t reset_time; - uint8_t bp_status_un; - atomic_t wdt_busy; - enum bp_media_type media_type; - int bp_tpl_flag; - struct timer_list bp_tpl_timer; - spinlock_t bypass_wr_lock; - int bp_10g; - int bp_10gb; - int bp_fiber5; - int bp_10g9; - int bp_i80; - int bp_540; - int (*hard_start_xmit_save) (struct sk_buff *skb, - struct net_device *dev); - const struct net_device_ops *old_ops; - struct net_device_ops new_ops; - int bp_self_test_flag; - char *bp_tx_data; - struct bypass_pfs_sd bypass_pfs_set; - -}; - -static struct bpctl_dev *bpctl_dev_arr; - -static struct semaphore bpctl_sema; -static int device_num; - -static int get_dev_idx(int ifindex); -static struct bpctl_dev *get_master_port_fn(struct bpctl_dev *pbpctl_dev); -static int disc_status(struct bpctl_dev *pbpctl_dev); -static int bypass_status(struct bpctl_dev *pbpctl_dev); -static int wdt_timer(struct bpctl_dev *pbpctl_dev, int *time_left); -static struct bpctl_dev *get_status_port_fn(struct bpctl_dev *pbpctl_dev); -static void if_scan_init(void); - -static int bypass_proc_create_dev_sd(struct bpctl_dev *pbp_device_block); -static int bypass_proc_remove_dev_sd(struct bpctl_dev *pbp_device_block); - -static int is_bypass_fn(struct bpctl_dev *pbpctl_dev); -static int get_dev_idx_bsf(int bus, int slot, int func); - -static int bp_get_dev_idx_bsf(struct net_device *dev, int *index) -{ - struct ethtool_drvinfo drvinfo = {0}; - char *buf; - int bus, slot, func; - - if (dev->ethtool_ops && dev->ethtool_ops->get_drvinfo) - dev->ethtool_ops->get_drvinfo(dev, &drvinfo); - else - return -EOPNOTSUPP; - - if (!strcmp(drvinfo.bus_info, "N/A")) - return -ENODATA; - - buf = strchr(drvinfo.bus_info, ':'); - if (!buf) - return -EINVAL; - buf++; - if (sscanf(buf, "%x:%x.%x", &bus, &slot, &func) != 3) - return -EINVAL; - - *index = get_dev_idx_bsf(bus, slot, func); - return 0; -} - -static int bp_device_event(struct notifier_block *unused, - unsigned long event, void *ptr) -{ - struct net_device *dev = netdev_notifier_info_to_dev(ptr); - static struct bpctl_dev *pbpctl_dev, *pbpctl_dev_m; - int dev_num = 0, ret = 0, ret_d = 0, time_left = 0; - - /* printk("BP_PROC_SUPPORT event =%d %s %d\n", event,dev->name, dev->ifindex ); */ - /* return NOTIFY_DONE; */ - if (!dev) - return NOTIFY_DONE; - - if (event == NETDEV_REGISTER) { - int idx_dev; - - if (bp_get_dev_idx_bsf(dev, &idx_dev)) - return NOTIFY_DONE; - - if (idx_dev == -1) - return NOTIFY_DONE; - - bpctl_dev_arr[idx_dev].ifindex = dev->ifindex; - bpctl_dev_arr[idx_dev].ndev = dev; - - bypass_proc_remove_dev_sd(&bpctl_dev_arr[idx_dev]); - bypass_proc_create_dev_sd(&bpctl_dev_arr[idx_dev]); - return NOTIFY_DONE; - } - if (event == NETDEV_UNREGISTER) { - int idx_dev = 0; - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].pdev != NULL) - && (idx_dev < device_num)); idx_dev++) { - if (bpctl_dev_arr[idx_dev].ndev == dev) { - bypass_proc_remove_dev_sd(&bpctl_dev_arr - [idx_dev]); - bpctl_dev_arr[idx_dev].ndev = NULL; - - return NOTIFY_DONE; - - } - - } - return NOTIFY_DONE; - } - if (event == NETDEV_CHANGENAME) { - int idx_dev = 0; - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].pdev != NULL) - && (idx_dev < device_num)); idx_dev++) { - if (bpctl_dev_arr[idx_dev].ndev == dev) { - bypass_proc_remove_dev_sd(&bpctl_dev_arr - [idx_dev]); - bypass_proc_create_dev_sd(&bpctl_dev_arr - [idx_dev]); - - return NOTIFY_DONE; - - } - - } - return NOTIFY_DONE; - - } - - switch (event) { - - case NETDEV_CHANGE:{ - if (netif_carrier_ok(dev)) - return NOTIFY_DONE; - - dev_num = get_dev_idx(dev->ifindex); - if (dev_num == -1) - return NOTIFY_DONE; - - pbpctl_dev = &bpctl_dev_arr[dev_num]; - if (!pbpctl_dev) - return NOTIFY_DONE; - - if ((is_bypass_fn(pbpctl_dev)) == 1) - pbpctl_dev_m = pbpctl_dev; - else - pbpctl_dev_m = get_master_port_fn(pbpctl_dev); - if (!pbpctl_dev_m) - return NOTIFY_DONE; - ret = bypass_status(pbpctl_dev_m); - if (ret == 1) - printk("bpmod: %s is in the Bypass mode now", - dev->name); - ret_d = disc_status(pbpctl_dev_m); - if (ret_d == 1) - printk - ("bpmod: %s is in the Disconnect mode now", - dev->name); - if (ret || ret_d) { - wdt_timer(pbpctl_dev_m, &time_left); - if (time_left == -1) - printk("; WDT has expired"); - printk(".\n"); - - } - return NOTIFY_DONE; - - } - - default: - return NOTIFY_DONE; - - } - return NOTIFY_DONE; - -} - -static struct notifier_block bp_notifier_block = { - .notifier_call = bp_device_event, -}; - -static int is_bypass_fn(struct bpctl_dev *pbpctl_dev); -int wdt_time_left(struct bpctl_dev *pbpctl_dev); - -static void write_pulse(struct bpctl_dev *pbpctl_dev, - unsigned int ctrl_ext, - unsigned char value, unsigned char len) -{ - unsigned char ctrl_val = 0; - unsigned int i = len; - unsigned int ctrl = 0; - struct bpctl_dev *pbpctl_dev_c = NULL; - - if (pbpctl_dev->bp_i80) - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - if (pbpctl_dev->bp_540) - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - - if (pbpctl_dev->bp_10g9) { - pbpctl_dev_c = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_c) - return; - ctrl = BP10G_READ_REG(pbpctl_dev_c, ESDP); - } - - while (i--) { - ctrl_val = (value >> i) & 0x1; - if (ctrl_val) { - if (pbpctl_dev->bp_10g9) { - - /* To start management : MCLK 1, MDIO 1, output */ - /* DATA 1 CLK 1 */ - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext|BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9)); */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - ctrl_ext | - BP10G_MDIO_DATA_OUT9); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - (ctrl | BP10G_MCLK_DATA_OUT9 | - BP10G_MCLK_DIR_OUT9)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, (ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DATA5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5)); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, (ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80 - | - BPCTLI_CTRL_EXT_MDIO_DATA80)); - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, (ctrl | - BPCTLI_CTRL_EXT_MCLK_DIR80 - | - BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, (ctrl | - BP540_MDIO_DIR - | - BP540_MDIO_DATA - | - BP540_MCLK_DIR - | - BP540_MCLK_DATA)); - - } else if (pbpctl_dev->bp_10gb) { - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_SET | - BP10GB_MCLK_SET) & - ~(BP10GB_MCLK_DIR | - BP10GB_MDIO_DIR | - BP10GB_MDIO_CLR | - BP10GB_MCLK_CLR)); - - } else if (!pbpctl_dev->bp_10g) - /* To start management : MCLK 1, MDIO 1, output */ - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - (ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR | - BPCTLI_CTRL_EXT_MDIO_DIR | - BPCTLI_CTRL_EXT_MDIO_DATA | - BPCTLI_CTRL_EXT_MCLK_DATA)); - else { - - /* To start management : MCLK 1, MDIO 1, output*/ - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext | BP10G_MCLK_DATA_OUT - | BP10G_MDIO_DATA_OUT)); - - } - - usec_delay(PULSE_TIME); - if (pbpctl_dev->bp_10g9) { - - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, ((ctrl_ext|BP10G_MDIO_DATA_OUT9)&~(BP10G_MCLK_DATA_OUT9))); */ - /* DATA 1 CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - ctrl_ext | - BP10G_MDIO_DATA_OUT9); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - (ctrl | BP10G_MCLK_DIR_OUT9) & - ~BP10G_MCLK_DATA_OUT9); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 | - BPCTLI_CTRL_EXT_MDIO_DIR5 | - BPCTLI_CTRL_EXT_MDIO_DATA5) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA5))); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, (ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80 - | - BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | - BPCTLI_CTRL_EXT_MCLK_DIR80) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA80))); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - (ctrl | BP540_MDIO_DIR | - BP540_MDIO_DATA | - BP540_MCLK_DIR) & - ~(BP540_MCLK_DATA)); - - } else if (pbpctl_dev->bp_10gb) { - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_SET | - BP10GB_MCLK_CLR) & - ~(BP10GB_MCLK_DIR | - BP10GB_MDIO_DIR | - BP10GB_MDIO_CLR | - BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR | - BPCTLI_CTRL_EXT_MDIO_DIR | - BPCTLI_CTRL_EXT_MDIO_DATA) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - ((ctrl_ext | - BP10G_MDIO_DATA_OUT) & - ~(BP10G_MCLK_DATA_OUT))); - } - - usec_delay(PULSE_TIME); - - } else { - if (pbpctl_dev->bp_10g9) { - /* DATA 0 CLK 1 */ - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, ((ctrl_ext|BP10G_MCLK_DATA_OUT9)&~BP10G_MDIO_DATA_OUT9)); */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & - ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - (ctrl | BP10G_MCLK_DATA_OUT9 | - BP10G_MCLK_DIR_OUT9)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 | - BPCTLI_CTRL_EXT_MDIO_DIR5 | - BPCTLI_CTRL_EXT_MCLK_DATA5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5))); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA80))); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - (ctrl | - BPCTLI_CTRL_EXT_MCLK_DIR80 | - BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP540_MCLK_DIR | - BP540_MCLK_DATA | - BP540_MDIO_DIR) & - ~(BP540_MDIO_DATA))); - - } else if (pbpctl_dev->bp_10gb) { - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | - BP10GB_MCLK_SET) & - ~(BP10GB_MCLK_DIR | - BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | - BP10GB_MCLK_CLR)); - - } else if (!pbpctl_dev->bp_10g) - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR | - BPCTLI_CTRL_EXT_MDIO_DIR | - BPCTLI_CTRL_EXT_MCLK_DATA) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - ((ctrl_ext | - BP10G_MCLK_DATA_OUT) & - ~BP10G_MDIO_DATA_OUT)); - - } - usec_delay(PULSE_TIME); - if (pbpctl_dev->bp_10g9) { - /* DATA 0 CLK 0 */ - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & - ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~(BPCTLI_CTRL_EXT_MCLK_DATA5 - | - BPCTLI_CTRL_EXT_MDIO_DATA5))); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | - BPCTLI_CTRL_EXT_MCLK_DIR80) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA80))); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP540_MCLK_DIR | - BP540_MDIO_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - } else if (pbpctl_dev->bp_10gb) { - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | - BP10GB_MCLK_CLR) & - ~(BP10GB_MCLK_DIR | - BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | - BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR | - BPCTLI_CTRL_EXT_MDIO_DIR) & - ~(BPCTLI_CTRL_EXT_MCLK_DATA - | - BPCTLI_CTRL_EXT_MDIO_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | - BP10G_MDIO_DATA_OUT))); - } - - usec_delay(PULSE_TIME); - } - - } -} - -static int read_pulse(struct bpctl_dev *pbpctl_dev, unsigned int ctrl_ext, - unsigned char len) -{ - unsigned char ctrl_val = 0; - unsigned int i = len; - unsigned int ctrl = 0; - struct bpctl_dev *pbpctl_dev_c = NULL; - - if (pbpctl_dev->bp_i80) - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - if (pbpctl_dev->bp_540) - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - if (pbpctl_dev->bp_10g9) { - pbpctl_dev_c = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_c) - return -1; - ctrl = BP10G_READ_REG(pbpctl_dev_c, ESDP); - } - - - while (i--) { - if (pbpctl_dev->bp_10g9) { - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, ((ctrl_ext|BP10G_MDIO_DATA_OUT9)&~BP10G_MCLK_DATA_OUT9)); */ - /* DATA ? CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DIR5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5))); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl_ext & - ~BPCTLI_CTRL_EXT_MDIO_DIR80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) - & ~(BPCTLI_CTRL_EXT_MCLK_DATA80))); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP540_MCLK_DIR) & - ~(BP540_MDIO_DIR | BP540_MCLK_DATA))); - - } else if (pbpctl_dev->bp_10gb) { - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_DIR | - BP10GB_MCLK_CLR) & ~(BP10GB_MCLK_DIR | - BP10GB_MDIO_CLR | - BP10GB_MDIO_SET | - BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DIR - | - BPCTLI_CTRL_EXT_MCLK_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, ((ctrl_ext | BP10G_MDIO_DATA_OUT) & ~BP10G_MCLK_DATA_OUT)); /* ? */ - /* printk("0x28=0x%x\n",BP10G_READ_REG(pbpctl_dev,EODSDP);); */ - - } - - usec_delay(PULSE_TIME); - if (pbpctl_dev->bp_10g9) { - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext|BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9)); */ - /* DATA ? CLK 1 */ - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - (ctrl | BP10G_MCLK_DATA_OUT9 | - BP10G_MCLK_DIR_OUT9)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DIR5))); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl_ext & - ~(BPCTLI_CTRL_EXT_MDIO_DIR80))); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - (ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80 | - BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP540_MCLK_DIR | - BP540_MCLK_DATA) & - ~(BP540_MDIO_DIR))); - - } else if (pbpctl_dev->bp_10gb) { - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_DIR | - BP10GB_MCLK_SET) & ~(BP10GB_MCLK_DIR | - BP10GB_MDIO_CLR | - BP10GB_MDIO_SET | - BP10GB_MCLK_CLR)); - - } else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MCLK_DATA) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DIR))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext | BP10G_MCLK_DATA_OUT | - BP10G_MDIO_DATA_OUT)); - - } - - if (pbpctl_dev->bp_10g9) - ctrl_ext = BP10G_READ_REG(pbpctl_dev, I2CCTL); - else if ((pbpctl_dev->bp_fiber5) || (pbpctl_dev->bp_i80)) - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - else if (pbpctl_dev->bp_540) - ctrl_ext = BP10G_READ_REG(pbpctl_dev, ESDP); - else if (pbpctl_dev->bp_10gb) - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - else if (!pbpctl_dev->bp_10g) - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - else - ctrl_ext = BP10G_READ_REG(pbpctl_dev, EODSDP); - - usec_delay(PULSE_TIME); - if (pbpctl_dev->bp_10g9) { - if (ctrl_ext & BP10G_MDIO_DATA_IN9) - ctrl_val |= 1 << i; - - } else if (pbpctl_dev->bp_fiber5) { - if (ctrl_ext & BPCTLI_CTRL_EXT_MDIO_DATA5) - ctrl_val |= 1 << i; - } else if (pbpctl_dev->bp_i80) { - if (ctrl_ext & BPCTLI_CTRL_EXT_MDIO_DATA80) - ctrl_val |= 1 << i; - } else if (pbpctl_dev->bp_540) { - if (ctrl_ext & BP540_MDIO_DATA) - ctrl_val |= 1 << i; - } else if (pbpctl_dev->bp_10gb) { - if (ctrl_ext & BP10GB_MDIO_DATA) - ctrl_val |= 1 << i; - - } else if (!pbpctl_dev->bp_10g) { - - if (ctrl_ext & BPCTLI_CTRL_EXT_MDIO_DATA) - ctrl_val |= 1 << i; - } else { - - if (ctrl_ext & BP10G_MDIO_DATA_IN) - ctrl_val |= 1 << i; - } - - } - - return ctrl_val; -} - -static void write_reg(struct bpctl_dev *pbpctl_dev, unsigned char value, - unsigned char addr) -{ - uint32_t ctrl_ext = 0, ctrl = 0; - struct bpctl_dev *pbpctl_dev_c = NULL; - unsigned long flags; - - if (pbpctl_dev->bp_10g9) { - pbpctl_dev_c = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_c) - return; - } - if ((pbpctl_dev->wdt_status == WDT_STATUS_EN) && - (pbpctl_dev->bp_ext_ver < PXG4BPFI_VER)) - wdt_time_left(pbpctl_dev); - -#ifdef BP_SYNC_FLAG - spin_lock_irqsave(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 1); -#endif - if (pbpctl_dev->bp_10g9) { - - ctrl_ext = BP10G_READ_REG(pbpctl_dev, I2CCTL); - ctrl = BP10G_READ_REG(pbpctl_dev_c, ESDP); - /* DATA 0 CLK 0 */ - /* BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5))); - } else if (pbpctl_dev->bp_i80) { - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) & - ~BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - ctrl = ctrl_ext = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | - BP540_MDIO_DIR | - BP540_MCLK_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_CLR) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) { - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA - | - BPCTLI_CTRL_EXT_MCLK_DATA))); - } else { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - ctrl_ext = BP10G_READ_REG(pbpctl_dev, EODSDP); - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | BP10G_MDIO_DATA_OUT))); - } - usec_delay(CMND_INTERVAL); - - /*send sync cmd */ - write_pulse(pbpctl_dev, ctrl_ext, SYNC_CMD_VAL, SYNC_CMD_LEN); - /*send wr cmd */ - write_pulse(pbpctl_dev, ctrl_ext, WR_CMD_VAL, WR_CMD_LEN); - write_pulse(pbpctl_dev, ctrl_ext, addr, ADDR_CMD_LEN); - - /*write data */ - write_pulse(pbpctl_dev, ctrl_ext, value, WR_DATA_LEN); - if (pbpctl_dev->bp_10g9) { - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - /* DATA 0 CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5))); - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) & - ~BPCTLI_CTRL_EXT_MCLK_DATA80)); - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | - BP540_MDIO_DIR | - BP540_MCLK_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - } else if (pbpctl_dev->bp_10gb) { - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_CLR) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA - | - BPCTLI_CTRL_EXT_MCLK_DATA))); - else { - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | BP10G_MDIO_DATA_OUT))); - - } - - usec_delay(CMND_INTERVAL * 4); - - if ((pbpctl_dev->wdt_status == WDT_STATUS_EN) && - (pbpctl_dev->bp_ext_ver < PXG4BPFI_VER) && (addr == CMND_REG_ADDR)) - pbpctl_dev->bypass_wdt_on_time = jiffies; -#ifdef BP_SYNC_FLAG - spin_unlock_irqrestore(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 0); -#endif - -} - -static void write_data(struct bpctl_dev *pbpctl_dev, unsigned char value) -{ - write_reg(pbpctl_dev, value, CMND_REG_ADDR); -} - -static int read_reg(struct bpctl_dev *pbpctl_dev, unsigned char addr) -{ - uint32_t ctrl_ext = 0, ctrl = 0, ctrl_value = 0; - struct bpctl_dev *pbpctl_dev_c = NULL; - -#ifdef BP_SYNC_FLAG - unsigned long flags; - - spin_lock_irqsave(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 1); -#endif - if (pbpctl_dev->bp_10g9) { - pbpctl_dev_c = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_c) - return -1; - } - - if (pbpctl_dev->bp_10g9) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev, I2CCTL); - ctrl = BP10G_READ_REG(pbpctl_dev_c, ESDP); - - /* BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - /* DATA 0 CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5))); - } else if (pbpctl_dev->bp_i80) { - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) & - ~BPCTLI_CTRL_EXT_MCLK_DATA80)); - } else if (pbpctl_dev->bp_540) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev, ESDP); - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | BP540_MCLK_DIR | - BP540_MDIO_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_CLR) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_SET)); -#if 0 - - /*BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, (ctrl_ext | BP10GB_MCLK_DIR | BP10GB_MDIO_DIR| - BP10GB_MCLK_CLR|BP10GB_MDIO_CLR)); - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - printk("1reg=%x\n", ctrl_ext); */ - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, ((ctrl_ext | - BP10GB_MCLK_SET | - BP10GB_MDIO_CLR)) - & ~(BP10GB_MCLK_CLR | BP10GB_MDIO_SET | - BP10GB_MCLK_DIR | BP10GB_MDIO_DIR)); - - /* bnx2x_set_spio(pbpctl_dev, 5, MISC_REGISTERS_SPIO_OUTPUT_LOW); - bnx2x_set_spio(pbpctl_dev, 4, MISC_REGISTERS_SPIO_OUTPUT_LOW); - bnx2x_set_spio(pbpctl_dev, 4, MISC_REGISTERS_SPIO_INPUT_HI_Z); */ - - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - - printk("2reg=%x\n", ctrl_ext); - -#ifdef BP_SYNC_FLAG - spin_unlock_irqrestore(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 0); -#endif - - return 0; - -#endif - - } else if (!pbpctl_dev->bp_10g) { - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA - | - BPCTLI_CTRL_EXT_MCLK_DATA))); - } else { - - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - ctrl_ext = BP10G_READ_REG(pbpctl_dev, EODSDP); - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | BP10G_MDIO_DATA_OUT))); - - } - - usec_delay(CMND_INTERVAL); - - /*send sync cmd */ - write_pulse(pbpctl_dev, ctrl_ext, SYNC_CMD_VAL, SYNC_CMD_LEN); - /*send rd cmd */ - write_pulse(pbpctl_dev, ctrl_ext, RD_CMD_VAL, RD_CMD_LEN); - /*send addr */ - write_pulse(pbpctl_dev, ctrl_ext, addr, ADDR_CMD_LEN); - /*read data */ - /* zero */ - if (pbpctl_dev->bp_10g9) { - /* DATA 0 CLK 1 */ - /*BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext|BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9)); */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext | BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - (ctrl | BP10G_MCLK_DATA_OUT9 | - BP10G_MCLK_DIR_OUT9)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DATA5))); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl_ext & - ~(BPCTLI_CTRL_EXT_MDIO_DATA80 | - BPCTLI_CTRL_EXT_MDIO_DIR80))); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - (ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80 | - BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - (((ctrl | BP540_MDIO_DIR | BP540_MCLK_DIR | - BP540_MCLK_DATA) & ~BP540_MDIO_DATA))); - - } else if (pbpctl_dev->bp_10gb) { - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_DIR | BP10GB_MCLK_SET) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_SET | - BP10GB_MDIO_CLR | BP10GB_MCLK_CLR)); - - } else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MCLK_DATA) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DIR - | - BPCTLI_CTRL_EXT_MDIO_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext | BP10G_MCLK_DATA_OUT | - BP10G_MDIO_DATA_OUT)); - - - } - usec_delay(PULSE_TIME); - - ctrl_value = read_pulse(pbpctl_dev, ctrl_ext, RD_DATA_LEN); - - if (pbpctl_dev->bp_10g9) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev, I2CCTL); - ctrl = BP10G_READ_REG(pbpctl_dev_c, ESDP); - - /* BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - /* DATA 0 CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5))); - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) & - ~BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | BP540_MCLK_DIR | - BP540_MDIO_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_CLR) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA - | - BPCTLI_CTRL_EXT_MCLK_DATA))); - } else { - - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - ctrl_ext = BP10G_READ_REG(pbpctl_dev, EODSDP); - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | BP10G_MDIO_DATA_OUT))); - - } - - usec_delay(CMND_INTERVAL * 4); -#ifdef BP_SYNC_FLAG - spin_unlock_irqrestore(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 0); -#endif - - return ctrl_value; -} - -static int wdt_pulse(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0, ctrl = 0; - struct bpctl_dev *pbpctl_dev_c = NULL; - -#ifdef BP_SYNC_FLAG - unsigned long flags; - - spin_lock_irqsave(&pbpctl_dev->bypass_wr_lock, flags); -#else - - if ((atomic_read(&pbpctl_dev->wdt_busy)) == 1) - return -1; -#endif - if (pbpctl_dev->bp_10g9) { - pbpctl_dev_c = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_c) - return -1; - } - - if (pbpctl_dev->bp_10g9) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev, I2CCTL); - ctrl = BP10G_READ_REG(pbpctl_dev_c, ESDP); - - /* BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - /* DATA 0 CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5))); - } else if (pbpctl_dev->bp_i80) { - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL); - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) & - ~BPCTLI_CTRL_EXT_MCLK_DATA80)); - } else if (pbpctl_dev->bp_540) { - ctrl_ext = ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | BP540_MCLK_DIR | - BP540_MDIO_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_CLR) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) { - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA - | - BPCTLI_CTRL_EXT_MCLK_DATA))); - } else { - - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - ctrl_ext = BP10G_READ_REG(pbpctl_dev, EODSDP); - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | BP10G_MDIO_DATA_OUT))); - - } - if (pbpctl_dev->bp_10g9) { - /* BP10G_WRITE_REG(pbpctl_dev, I2CCTL, ((ctrl_ext|BP10G_MCLK_DATA_OUT9)&~BP10G_MDIO_DATA_OUT9)); */ - /* DATA 0 CLK 1 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - (ctrl | BP10G_MCLK_DATA_OUT9 | - BP10G_MCLK_DIR_OUT9)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5 - | - BPCTLI_CTRL_EXT_MCLK_DATA5) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA5))); - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - (ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80 | - BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | - BP540_MDIO_DIR | - BP540_MCLK_DIR | - BP540_MCLK_DATA) & - ~BP540_MDIO_DATA)); - - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_SET) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_CLR)); - - } else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR - | - BPCTLI_CTRL_EXT_MCLK_DATA) - & - ~ - (BPCTLI_CTRL_EXT_MDIO_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - ((ctrl_ext | BP10G_MCLK_DATA_OUT) & - ~BP10G_MDIO_DATA_OUT)); - - } - - usec_delay(WDT_INTERVAL); - if (pbpctl_dev->bp_10g9) { - /* BP10G_WRITE_REG(pbpctl_dev, I2CCTL, (ctrl_ext&~(BP10G_MCLK_DATA_OUT9|BP10G_MDIO_DATA_OUT9))); */ - /* DATA 0 CLK 0 */ - BP10G_WRITE_REG(pbpctl_dev, I2CCTL, - (ctrl_ext & ~BP10G_MDIO_DATA_OUT9)); - BP10G_WRITE_REG(pbpctl_dev_c, ESDP, - ((ctrl | BP10G_MCLK_DIR_OUT9) & - ~(BP10G_MCLK_DATA_OUT9))); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR5 - | - BPCTLI_CTRL_EXT_MDIO_DIR5) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA5 - | - BPCTLI_CTRL_EXT_MDIO_DATA5))); - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, ((ctrl_ext | - BPCTLI_CTRL_EXT_MDIO_DIR80) - & - ~BPCTLI_CTRL_EXT_MDIO_DATA80)); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | BPCTLI_CTRL_EXT_MCLK_DIR80) & - ~BPCTLI_CTRL_EXT_MCLK_DATA80)); - - } else if (pbpctl_dev->bp_540) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, ((ctrl | BP540_MCLK_DIR | - BP540_MDIO_DIR) & - ~(BP540_MDIO_DATA | - BP540_MCLK_DATA))); - - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = BP10GB_READ_REG(pbpctl_dev, MISC_REG_SPIO); - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_SPIO, - (ctrl_ext | BP10GB_MDIO_CLR | BP10GB_MCLK_CLR) - & ~(BP10GB_MCLK_DIR | BP10GB_MDIO_DIR | - BP10GB_MDIO_SET | BP10GB_MCLK_SET)); - - } else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR - | - BPCTLI_CTRL_EXT_MDIO_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA - | - BPCTLI_CTRL_EXT_MDIO_DATA))); - else { - - BP10G_WRITE_REG(pbpctl_dev, EODSDP, - (ctrl_ext & - ~(BP10G_MCLK_DATA_OUT | BP10G_MDIO_DATA_OUT))); - } - if ((pbpctl_dev->wdt_status == WDT_STATUS_EN)) - /*&& (pbpctl_dev->bp_ext_verbypass_wdt_on_time = jiffies; -#ifdef BP_SYNC_FLAG - spin_unlock_irqrestore(&pbpctl_dev->bypass_wr_lock, flags); -#endif - usec_delay(CMND_INTERVAL * 4); - return 0; -} - -static void data_pulse(struct bpctl_dev *pbpctl_dev, unsigned char value) -{ - - uint32_t ctrl_ext = 0; -#ifdef BP_SYNC_FLAG - unsigned long flags; -#endif - wdt_time_left(pbpctl_dev); -#ifdef BP_SYNC_FLAG - spin_lock_irqsave(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 1); -#endif - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP7_DIR) & - ~(BPCTLI_CTRL_EXT_SDP6_DATA | - BPCTLI_CTRL_EXT_SDP7_DATA))); - - usec_delay(INIT_CMND_INTERVAL); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP7_DIR | - BPCTLI_CTRL_EXT_SDP6_DATA) & - ~ - (BPCTLI_CTRL_EXT_SDP7_DATA))); - usec_delay(INIT_CMND_INTERVAL); - - while (value) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP7_DIR | - BPCTLI_CTRL_EXT_SDP6_DATA | - BPCTLI_CTRL_EXT_SDP7_DATA); - usec_delay(PULSE_INTERVAL); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR - | - BPCTLI_CTRL_EXT_SDP7_DIR - | - BPCTLI_CTRL_EXT_SDP6_DATA) - & - ~BPCTLI_CTRL_EXT_SDP7_DATA)); - usec_delay(PULSE_INTERVAL); - value--; - - } - usec_delay(INIT_CMND_INTERVAL - PULSE_INTERVAL); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP7_DIR) & - ~(BPCTLI_CTRL_EXT_SDP6_DATA | - BPCTLI_CTRL_EXT_SDP7_DATA))); - usec_delay(WDT_TIME_CNT); - if (pbpctl_dev->wdt_status == WDT_STATUS_EN) - pbpctl_dev->bypass_wdt_on_time = jiffies; -#ifdef BP_SYNC_FLAG - spin_unlock_irqrestore(&pbpctl_dev->bypass_wr_lock, flags); -#else - atomic_set(&pbpctl_dev->wdt_busy, 0); -#endif - -} - -static int send_wdt_pulse(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - -#ifdef BP_SYNC_FLAG - unsigned long flags; - - spin_lock_irqsave(&pbpctl_dev->bypass_wr_lock, flags); -#else - - if ((atomic_read(&pbpctl_dev->wdt_busy)) == 1) - return -1; -#endif - wdt_time_left(pbpctl_dev); - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ctrl_ext | /* 1 */ - BPCTLI_CTRL_EXT_SDP7_DIR | - BPCTLI_CTRL_EXT_SDP7_DATA); - usec_delay(PULSE_INTERVAL); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | /* 0 */ - BPCTLI_CTRL_EXT_SDP7_DIR) & - ~BPCTLI_CTRL_EXT_SDP7_DATA)); - - usec_delay(PULSE_INTERVAL); - if (pbpctl_dev->wdt_status == WDT_STATUS_EN) - pbpctl_dev->bypass_wdt_on_time = jiffies; -#ifdef BP_SYNC_FLAG - spin_unlock_irqrestore(&pbpctl_dev->bypass_wr_lock, flags); -#endif - - return 0; -} - -static void send_bypass_clear_pulse(struct bpctl_dev *pbpctl_dev, - unsigned int value) -{ - uint32_t ctrl_ext = 0; - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | /* 0 */ - BPCTLI_CTRL_EXT_SDP6_DIR) & - ~BPCTLI_CTRL_EXT_SDP6_DATA)); - - usec_delay(PULSE_INTERVAL); - while (value) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ctrl_ext | /* 1 */ - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP6_DATA); - usec_delay(PULSE_INTERVAL); - value--; - } - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | /* 0 */ - BPCTLI_CTRL_EXT_SDP6_DIR) & - ~BPCTLI_CTRL_EXT_SDP6_DATA)); - usec_delay(PULSE_INTERVAL); -} - -/* #endif OLD_FW */ -#ifdef BYPASS_DEBUG - -int pulse_set_fn(struct bpctl_dev *pbpctl_dev, unsigned int counter) -{ - uint32_t ctrl_ext = 0; - - if (!pbpctl_dev) - return -1; - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - write_pulse_1(pbpctl_dev, ctrl_ext, counter, counter); - - pbpctl_dev->bypass_wdt_status = 0; - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - write_pulse_1(pbpctl_dev, ctrl_ext, counter, counter); - } else { - wdt_time_left(pbpctl_dev); - if (pbpctl_dev->wdt_status == WDT_STATUS_EN) { - pbpctl_dev->wdt_status = 0; - data_pulse(pbpctl_dev, counter); - pbpctl_dev->wdt_status = WDT_STATUS_EN; - pbpctl_dev->bypass_wdt_on_time = jiffies; - - } else - data_pulse(pbpctl_dev, counter); - } - - return 0; -} - -int zero_set_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - printk("zero_set"); - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_MCLK_DIR) - & - ~ - (BPCTLI_CTRL_EXT_MCLK_DATA - | - BPCTLI_CTRL_EXT_MDIO_DIR - | - BPCTLI_CTRL_EXT_MDIO_DATA))); - - } - return 0; -} - -int pulse_get2_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0, ctrl_value = 0; - - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - printk("pulse_get_fn\n"); - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - ctrl_value = read_pulse_2(pbpctl_dev, ctrl_ext); - printk("read:%d\n", ctrl_value); - } - return ctrl_value; -} - -int pulse_get1_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0, ctrl_value = 0; - - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - - printk("pulse_get_fn\n"); - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - ctrl_value = read_pulse_1(pbpctl_dev, ctrl_ext); - printk("read:%d\n", ctrl_value); - } - return ctrl_value; -} - -int gpio6_set_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP6_DATA); - return 0; -} - -int gpio7_set_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ctrl_ext | - BPCTLI_CTRL_EXT_SDP7_DIR | - BPCTLI_CTRL_EXT_SDP7_DATA); - return 0; -} - -int gpio7_clear_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_SDP7_DIR) & - ~BPCTLI_CTRL_EXT_SDP7_DATA)); - return 0; -} - -int gpio6_clear_fn(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, ((ctrl_ext | - BPCTLI_CTRL_EXT_SDP6_DIR) & - ~BPCTLI_CTRL_EXT_SDP6_DATA)); - return 0; -} -#endif /*BYPASS_DEBUG */ - -static struct bpctl_dev *lookup_port(struct bpctl_dev *dev) -{ - struct bpctl_dev *p; - int n; - - for (n = 0, p = bpctl_dev_arr; n < device_num && p->pdev; n++) { - if (p->bus == dev->bus - && p->slot == dev->slot - && p->func == (dev->func ^ 1)) - return p; - } - return NULL; -} - -static struct bpctl_dev *get_status_port_fn(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev) { - if (pbpctl_dev->func == 0 || pbpctl_dev->func == 2) - return lookup_port(pbpctl_dev); - } - return NULL; -} - -static struct bpctl_dev *get_master_port_fn(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev) { - if (pbpctl_dev->func == 1 || pbpctl_dev->func == 3) - return lookup_port(pbpctl_dev); - } - return NULL; -} - -/**************************************/ -/**************INTEL API***************/ -/**************************************/ - -static void write_data_port_int(struct bpctl_dev *pbpctl_dev, - unsigned char ctrl_value) -{ - uint32_t value; - - value = BPCTL_READ_REG(pbpctl_dev, CTRL); -/* Make SDP0 Pin Directonality to Output */ - value |= BPCTLI_CTRL_SDP0_DIR; - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, value); - - value &= ~BPCTLI_CTRL_SDP0_DATA; - value |= ((ctrl_value & 0x1) << BPCTLI_CTRL_SDP0_SHIFT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, value); - - value = (BPCTL_READ_REG(pbpctl_dev, CTRL_EXT)); -/* Make SDP2 Pin Directonality to Output */ - value |= BPCTLI_CTRL_EXT_SDP6_DIR; - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, value); - - value &= ~BPCTLI_CTRL_EXT_SDP6_DATA; - value |= (((ctrl_value & 0x2) >> 1) << BPCTLI_CTRL_EXT_SDP6_SHIFT); - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, value); - -} - -static int write_data_int(struct bpctl_dev *pbpctl_dev, unsigned char value) -{ - struct bpctl_dev *pbpctl_dev_b = NULL; - - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return -1; - atomic_set(&pbpctl_dev->wdt_busy, 1); - write_data_port_int(pbpctl_dev, value & 0x3); - write_data_port_int(pbpctl_dev_b, ((value & 0xc) >> 2)); - atomic_set(&pbpctl_dev->wdt_busy, 0); - - return 0; -} - -static int wdt_pulse_int(struct bpctl_dev *pbpctl_dev) -{ - - if ((atomic_read(&pbpctl_dev->wdt_busy)) == 1) - return -1; - - if ((write_data_int(pbpctl_dev, RESET_WDT_INT)) < 0) - return -1; - msec_delay_bp(CMND_INTERVAL_INT); - if ((write_data_int(pbpctl_dev, CMND_OFF_INT)) < 0) - return -1; - msec_delay_bp(CMND_INTERVAL_INT); - - if (pbpctl_dev->wdt_status == WDT_STATUS_EN) - pbpctl_dev->bypass_wdt_on_time = jiffies; - - return 0; -} - -/*************************************/ -/************* COMMANDS **************/ -/*************************************/ - -/* CMND_ON 0x4 (100)*/ -static int cmnd_on(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - return 0; - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) - write_data(pbpctl_dev, CMND_ON); - else - data_pulse(pbpctl_dev, CMND_ON); - ret = 0; - } - return ret; -} - -/* CMND_OFF 0x2 (10)*/ -static int cmnd_off(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, CMND_OFF_INT); - msec_delay_bp(CMND_INTERVAL_INT); - } else if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) - write_data(pbpctl_dev, CMND_OFF); - else - data_pulse(pbpctl_dev, CMND_OFF); - ret = 0; - } - return ret; -} - -/* BYPASS_ON (0xa)*/ -static int bypass_on(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & BP_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, BYPASS_ON_INT); - msec_delay_bp(BYPASS_DELAY_INT); - pbpctl_dev->bp_status_un = 0; - } else if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - write_data(pbpctl_dev, BYPASS_ON); - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) - msec_delay_bp(LATCH_DELAY); - } else - data_pulse(pbpctl_dev, BYPASS_ON); - ret = 0; - } - return ret; -} - -/* BYPASS_OFF (0x8 111)*/ -static int bypass_off(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & BP_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, DIS_BYPASS_CAP_INT); - msec_delay_bp(BYPASS_DELAY_INT); - write_data_int(pbpctl_dev, PWROFF_BYPASS_ON_INT); - msec_delay_bp(BYPASS_DELAY_INT); - pbpctl_dev->bp_status_un = 0; - } else if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - write_data(pbpctl_dev, BYPASS_OFF); - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) - msec_delay_bp(LATCH_DELAY); - } else - data_pulse(pbpctl_dev, BYPASS_OFF); - ret = 0; - } - return ret; -} - -/* TAP_OFF (0x9)*/ -static int tap_off(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if ((pbpctl_dev->bp_caps & TAP_CAP) - && (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER)) { - write_data(pbpctl_dev, TAP_OFF); - msec_delay_bp(LATCH_DELAY); - ret = 0; - } - return ret; -} - -/* TAP_ON (0xb)*/ -static int tap_on(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if ((pbpctl_dev->bp_caps & TAP_CAP) - && (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER)) { - write_data(pbpctl_dev, TAP_ON); - msec_delay_bp(LATCH_DELAY); - ret = 0; - } - return ret; -} - -/* DISC_OFF (0x9)*/ -static int disc_off(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if ((pbpctl_dev->bp_caps & DISC_CAP) && (pbpctl_dev->bp_ext_ver >= 0x8)) { - write_data(pbpctl_dev, DISC_OFF); - msec_delay_bp(LATCH_DELAY); - } else - ret = BP_NOT_CAP; - return ret; -} - -/* DISC_ON (0xb)*/ -static int disc_on(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if ((pbpctl_dev->bp_caps & DISC_CAP) && (pbpctl_dev->bp_ext_ver >= 0x8)) { - write_data(pbpctl_dev, /*DISC_ON */ 0x85); - msec_delay_bp(LATCH_DELAY); - } else - ret = BP_NOT_CAP; - return ret; -} - -/*TWO_PORT_LINK_HW_EN (0xe)*/ -static int tpl_hw_on(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0, ctrl = 0; - struct bpctl_dev *pbpctl_dev_b = NULL; - - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - - if (pbpctl_dev->bp_caps_ex & TPL2_CAP_EX) { - cmnd_on(pbpctl_dev); - write_data(pbpctl_dev, TPL2_ON); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - cmnd_off(pbpctl_dev); - return ret; - } - - if (TPL_IF_SERIES(pbpctl_dev->subdevice)) { - ctrl = BPCTL_READ_REG(pbpctl_dev_b, CTRL); - BPCTL_BP_WRITE_REG(pbpctl_dev_b, CTRL, - ((ctrl | BPCTLI_CTRL_SWDPIO0) & - ~BPCTLI_CTRL_SWDPIN0)); - } else - ret = BP_NOT_CAP; - return ret; -} - -/*TWO_PORT_LINK_HW_DIS (0xc)*/ -static int tpl_hw_off(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0, ctrl = 0; - struct bpctl_dev *pbpctl_dev_b = NULL; - - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - if (pbpctl_dev->bp_caps_ex & TPL2_CAP_EX) { - cmnd_on(pbpctl_dev); - write_data(pbpctl_dev, TPL2_OFF); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - cmnd_off(pbpctl_dev); - return ret; - } - if (TPL_IF_SERIES(pbpctl_dev->subdevice)) { - ctrl = BPCTL_READ_REG(pbpctl_dev_b, CTRL); - BPCTL_BP_WRITE_REG(pbpctl_dev_b, CTRL, - (ctrl | BPCTLI_CTRL_SWDPIO0 | - BPCTLI_CTRL_SWDPIN0)); - } else - ret = BP_NOT_CAP; - return ret; -} - -/* WDT_OFF (0x6 110)*/ -static int wdt_off(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - bypass_off(pbpctl_dev); - else if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) - write_data(pbpctl_dev, WDT_OFF); - else - data_pulse(pbpctl_dev, WDT_OFF); - pbpctl_dev->wdt_status = WDT_STATUS_DIS; - ret = 0; - } - return ret; -} - -/* WDT_ON (0x10)*/ - -/***Global***/ -static unsigned int - wdt_val_array[] = { 1000, 1500, 2000, 3000, 4000, 8000, 16000, 32000, 0 }; - -static int wdt_on(struct bpctl_dev *pbpctl_dev, unsigned int timeout) -{ - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - unsigned int pulse = 0, temp_value = 0, temp_cnt = 0; - pbpctl_dev->wdt_status = 0; - - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - for (; wdt_val_array[temp_cnt]; temp_cnt++) - if (timeout <= wdt_val_array[temp_cnt]) - break; - - if (!wdt_val_array[temp_cnt]) - temp_cnt--; - - timeout = wdt_val_array[temp_cnt]; - temp_cnt += 0x7; - - write_data_int(pbpctl_dev, DIS_BYPASS_CAP_INT); - msec_delay_bp(BYPASS_DELAY_INT); - pbpctl_dev->bp_status_un = 0; - write_data_int(pbpctl_dev, temp_cnt); - pbpctl_dev->bypass_wdt_on_time = jiffies; - msec_delay_bp(CMND_INTERVAL_INT); - pbpctl_dev->bypass_timer_interval = timeout; - } else { - timeout = - (timeout < - TIMEOUT_UNIT ? TIMEOUT_UNIT : (timeout > - WDT_TIMEOUT_MAX ? - WDT_TIMEOUT_MAX : - timeout)); - temp_value = timeout / 100; - while ((temp_value >>= 1)) - temp_cnt++; - if (timeout > ((1 << temp_cnt) * 100)) - temp_cnt++; - pbpctl_dev->bypass_wdt_on_time = jiffies; - pulse = (WDT_ON | temp_cnt); - if (pbpctl_dev->bp_ext_ver == OLD_IF_VER) - data_pulse(pbpctl_dev, pulse); - else - write_data(pbpctl_dev, pulse); - pbpctl_dev->bypass_timer_interval = - (1 << temp_cnt) * 100; - } - pbpctl_dev->wdt_status = WDT_STATUS_EN; - return 0; - } - return BP_NOT_CAP; -} - -static void bp75_put_hw_semaphore_generic(struct bpctl_dev *pbpctl_dev) -{ - u32 swsm; - - swsm = BPCTL_READ_REG(pbpctl_dev, SWSM); - - swsm &= ~(BPCTLI_SWSM_SMBI | BPCTLI_SWSM_SWESMBI); - - BPCTL_WRITE_REG(pbpctl_dev, SWSM, swsm); -} - -static s32 bp75_get_hw_semaphore_generic(struct bpctl_dev *pbpctl_dev) -{ - u32 swsm; - s32 ret_val = 0; - s32 timeout = 8192 + 1; - s32 i = 0; - - /* Get the SW semaphore */ - while (i < timeout) { - swsm = BPCTL_READ_REG(pbpctl_dev, SWSM); - if (!(swsm & BPCTLI_SWSM_SMBI)) - break; - - usec_delay(50); - i++; - } - - if (i == timeout) { - printk - ("bpctl_mod: Driver can't access device - SMBI bit is set.\n"); - ret_val = -1; - goto out; - } - - /* Get the FW semaphore. */ - for (i = 0; i < timeout; i++) { - swsm = BPCTL_READ_REG(pbpctl_dev, SWSM); - BPCTL_WRITE_REG(pbpctl_dev, SWSM, swsm | BPCTLI_SWSM_SWESMBI); - - /* Semaphore acquired if bit latched */ - if (BPCTL_READ_REG(pbpctl_dev, SWSM) & BPCTLI_SWSM_SWESMBI) - break; - - usec_delay(50); - } - - if (i == timeout) { - /* Release semaphores */ - bp75_put_hw_semaphore_generic(pbpctl_dev); - printk("bpctl_mod: Driver can't access the NVM\n"); - ret_val = -1; - goto out; - } - - out: - return ret_val; -} - -static void bp75_release_phy(struct bpctl_dev *pbpctl_dev) -{ - u16 mask = BPCTLI_SWFW_PHY0_SM; - u32 swfw_sync; - s32 ret_val; - - if ((pbpctl_dev->func == 1) || (pbpctl_dev->func == 3)) - mask = BPCTLI_SWFW_PHY1_SM; - - do - ret_val = bp75_get_hw_semaphore_generic(pbpctl_dev); - while (ret_val != 0); - - swfw_sync = BPCTL_READ_REG(pbpctl_dev, SW_FW_SYNC); - swfw_sync &= ~mask; - BPCTL_WRITE_REG(pbpctl_dev, SW_FW_SYNC, swfw_sync); - - bp75_put_hw_semaphore_generic(pbpctl_dev); -} - -static s32 bp75_acquire_phy(struct bpctl_dev *pbpctl_dev) -{ - u16 mask = BPCTLI_SWFW_PHY0_SM; - u32 swfw_sync; - u32 swmask; - u32 fwmask; - s32 ret_val = 0; - s32 i = 0, timeout = 200; - - if ((pbpctl_dev->func == 1) || (pbpctl_dev->func == 3)) - mask = BPCTLI_SWFW_PHY1_SM; - - swmask = mask; - fwmask = mask << 16; - - while (i < timeout) { - if (bp75_get_hw_semaphore_generic(pbpctl_dev)) { - ret_val = -1; - goto out; - } - - swfw_sync = BPCTL_READ_REG(pbpctl_dev, SW_FW_SYNC); - if (!(swfw_sync & (fwmask | swmask))) - break; - - bp75_put_hw_semaphore_generic(pbpctl_dev); - mdelay(5); - i++; - } - - if (i == timeout) { - printk - ("bpctl_mod: Driver can't access resource, SW_FW_SYNC timeout.\n"); - ret_val = -1; - goto out; - } - - swfw_sync |= swmask; - BPCTL_WRITE_REG(pbpctl_dev, SW_FW_SYNC, swfw_sync); - - bp75_put_hw_semaphore_generic(pbpctl_dev); - - out: - return ret_val; -} - -static s32 bp75_read_phy_reg_mdic(struct bpctl_dev *pbpctl_dev, u32 offset, - u16 *data) -{ - u32 i, mdic = 0; - s32 ret_val = 0; - u32 phy_addr = 1; - - mdic = ((offset << BPCTLI_MDIC_REG_SHIFT) | - (phy_addr << BPCTLI_MDIC_PHY_SHIFT) | (BPCTLI_MDIC_OP_READ)); - - BPCTL_WRITE_REG(pbpctl_dev, MDIC, mdic); - - for (i = 0; i < (BPCTLI_GEN_POLL_TIMEOUT * 3); i++) { - usec_delay(50); - mdic = BPCTL_READ_REG(pbpctl_dev, MDIC); - if (mdic & BPCTLI_MDIC_READY) - break; - } - if (!(mdic & BPCTLI_MDIC_READY)) { - printk("bpctl_mod: MDI Read did not complete\n"); - ret_val = -1; - goto out; - } - if (mdic & BPCTLI_MDIC_ERROR) { - printk("bpctl_mod: MDI Error\n"); - ret_val = -1; - goto out; - } - *data = (u16) mdic; - - out: - return ret_val; -} - -static s32 bp75_write_phy_reg_mdic(struct bpctl_dev *pbpctl_dev, u32 offset, - u16 data) -{ - u32 i, mdic = 0; - s32 ret_val = 0; - u32 phy_addr = 1; - - mdic = (((u32) data) | - (offset << BPCTLI_MDIC_REG_SHIFT) | - (phy_addr << BPCTLI_MDIC_PHY_SHIFT) | (BPCTLI_MDIC_OP_WRITE)); - - BPCTL_WRITE_REG(pbpctl_dev, MDIC, mdic); - - for (i = 0; i < (BPCTLI_GEN_POLL_TIMEOUT * 3); i++) { - usec_delay(50); - mdic = BPCTL_READ_REG(pbpctl_dev, MDIC); - if (mdic & BPCTLI_MDIC_READY) - break; - } - if (!(mdic & BPCTLI_MDIC_READY)) { - printk("bpctl_mod: MDI Write did not complete\n"); - ret_val = -1; - goto out; - } - if (mdic & BPCTLI_MDIC_ERROR) { - printk("bpctl_mod: MDI Error\n"); - ret_val = -1; - goto out; - } - - out: - return ret_val; -} - -static s32 bp75_read_phy_reg(struct bpctl_dev *pbpctl_dev, u32 offset, u16 *data) -{ - s32 ret_val = 0; - - ret_val = bp75_acquire_phy(pbpctl_dev); - if (ret_val) - goto out; - - if (offset > BPCTLI_MAX_PHY_MULTI_PAGE_REG) { - ret_val = bp75_write_phy_reg_mdic(pbpctl_dev, - BPCTLI_IGP01E1000_PHY_PAGE_SELECT, - (u16) offset); - if (ret_val) - goto release; - } - - ret_val = - bp75_read_phy_reg_mdic(pbpctl_dev, - BPCTLI_MAX_PHY_REG_ADDRESS & offset, data); - - release: - bp75_release_phy(pbpctl_dev); - out: - return ret_val; -} - -static s32 bp75_write_phy_reg(struct bpctl_dev *pbpctl_dev, u32 offset, u16 data) -{ - s32 ret_val = 0; - - ret_val = bp75_acquire_phy(pbpctl_dev); - if (ret_val) - goto out; - - if (offset > BPCTLI_MAX_PHY_MULTI_PAGE_REG) { - ret_val = bp75_write_phy_reg_mdic(pbpctl_dev, - BPCTLI_IGP01E1000_PHY_PAGE_SELECT, - (u16) offset); - if (ret_val) - goto release; - } - - ret_val = - bp75_write_phy_reg_mdic(pbpctl_dev, - BPCTLI_MAX_PHY_REG_ADDRESS & offset, data); - - release: - bp75_release_phy(pbpctl_dev); - - out: - return ret_val; -} - -/* SET_TX (non-Bypass command :)) */ -static int set_tx(struct bpctl_dev *pbpctl_dev, int tx_state) -{ - int ret = 0, ctrl = 0; - struct bpctl_dev *pbpctl_dev_m; - - if ((is_bypass_fn(pbpctl_dev)) == 1) - pbpctl_dev_m = pbpctl_dev; - else - pbpctl_dev_m = get_master_port_fn(pbpctl_dev); - if (pbpctl_dev_m == NULL) - return BP_NOT_CAP; - if (pbpctl_dev_m->bp_caps_ex & DISC_PORT_CAP_EX) { - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL); - if (!tx_state) { - if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, - (ctrl | BP10G_SDP1_DIR | - BP10G_SDP1_DATA)); - - } else { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl | BPCTLI_CTRL_SDP1_DIR - | BPCTLI_CTRL_SWDPIN1)); - } - } else { - if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP10G_SDP1_DIR) & - ~BP10G_SDP1_DATA)); - } else { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl | - BPCTLI_CTRL_SDP1_DIR) & - ~BPCTLI_CTRL_SWDPIN1)); - } - return ret; - - } - } else if (pbpctl_dev->bp_caps & TX_CTL_CAP) { - if (PEG5_IF_SERIES(pbpctl_dev->subdevice)) { - if (tx_state) { - uint16_t mii_reg; - ret = bp75_read_phy_reg(pbpctl_dev, - BPCTLI_PHY_CONTROL, - &mii_reg); - if (!ret) { - if (mii_reg & BPCTLI_MII_CR_POWER_DOWN) { - ret = - bp75_write_phy_reg - (pbpctl_dev, - BPCTLI_PHY_CONTROL, - mii_reg & - ~BPCTLI_MII_CR_POWER_DOWN); - } - } - } else { - uint16_t mii_reg; - ret = bp75_read_phy_reg(pbpctl_dev, - BPCTLI_PHY_CONTROL, - &mii_reg); - if (!ret) { - - mii_reg |= BPCTLI_MII_CR_POWER_DOWN; - ret = bp75_write_phy_reg(pbpctl_dev, - BPCTLI_PHY_CONTROL, - mii_reg); - } - } - - } - if (pbpctl_dev->bp_fiber5) - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - else if (pbpctl_dev->bp_10gb) - ctrl = BP10GB_READ_REG(pbpctl_dev, MISC_REG_GPIO); - else if (!pbpctl_dev->bp_10g) - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL); - else - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - - if (!tx_state) - if (pbpctl_dev->bp_10g9) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - (ctrl | BP10G_SDP3_DATA | - BP10G_SDP3_DIR)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - (ctrl | - BPCTLI_CTRL_EXT_SDP6_DIR | - BPCTLI_CTRL_EXT_SDP6_DATA)); - - } else if (pbpctl_dev->bp_10gb) { - if ((pbpctl_dev->func == 1) - || (pbpctl_dev->func == 3)) - BP10GB_WRITE_REG(pbpctl_dev, - MISC_REG_GPIO, - (ctrl | - BP10GB_GPIO0_SET_P1) & - ~(BP10GB_GPIO0_CLR_P1 | - BP10GB_GPIO0_OE_P1)); - else - BP10GB_WRITE_REG(pbpctl_dev, - MISC_REG_GPIO, - (ctrl | - BP10GB_GPIO0_OE_P0 | - BP10GB_GPIO0_SET_P0)); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl | BPCTLI_CTRL_SDP1_DIR - | BPCTLI_CTRL_SWDPIN1)); - - } else if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, - (ctrl | BP10G_SDP1_DIR | - BP10G_SDP1_DATA)); - - } - - else if (!pbpctl_dev->bp_10g) - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl | BPCTLI_CTRL_SWDPIO0 | - BPCTLI_CTRL_SWDPIN0)); - - else - BP10G_WRITE_REG(pbpctl_dev, ESDP, - (ctrl | BP10G_SDP0_DATA | - BP10G_SDP0_DIR)); - - else { - if (pbpctl_dev->bp_10g9) { - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP10G_SDP3_DIR) & - ~BP10G_SDP3_DATA)); - - } else if (pbpctl_dev->bp_fiber5) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL_EXT, - ((ctrl | - BPCTLI_CTRL_EXT_SDP6_DIR) & - ~BPCTLI_CTRL_EXT_SDP6_DATA)); - - } else if (pbpctl_dev->bp_10gb) { - if ((bpctl_dev_arr->func == 1) - || (bpctl_dev_arr->func == 3)) - BP10GB_WRITE_REG(pbpctl_dev, - MISC_REG_GPIO, - (ctrl | - BP10GB_GPIO0_CLR_P1) & - ~(BP10GB_GPIO0_SET_P1 | - BP10GB_GPIO0_OE_P1)); - else - BP10GB_WRITE_REG(pbpctl_dev, - MISC_REG_GPIO, - (ctrl | - BP10GB_GPIO0_OE_P0 | - BP10GB_GPIO0_CLR_P0)); - - } else if (pbpctl_dev->bp_i80) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl | - BPCTLI_CTRL_SDP1_DIR) & - ~BPCTLI_CTRL_SWDPIN1)); - } else if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP10G_SDP1_DIR) & - ~BP10G_SDP1_DATA)); - } - - else if (!pbpctl_dev->bp_10g) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - ((ctrl | BPCTLI_CTRL_SWDPIO0) - & ~BPCTLI_CTRL_SWDPIN0)); - if (!PEGF_IF_SERIES(pbpctl_dev->subdevice)) { - BPCTL_BP_WRITE_REG(pbpctl_dev, CTRL, - (ctrl & - ~ - (BPCTLI_CTRL_SDP0_DATA - | - BPCTLI_CTRL_SDP0_DIR))); - } - } else - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP10G_SDP0_DIR) & - ~BP10G_SDP0_DATA)); - - } - - } else - ret = BP_NOT_CAP; - return ret; - -} - -/* SET_FORCE_LINK (non-Bypass command :)) */ -static int set_bp_force_link(struct bpctl_dev *pbpctl_dev, int tx_state) -{ - int ret = 0, ctrl = 0; - - if (DBI_IF_SERIES(pbpctl_dev->subdevice)) { - - if ((pbpctl_dev->bp_10g) || (pbpctl_dev->bp_10g9)) { - - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL); - if (!tx_state) - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ctrl & ~BP10G_SDP1_DIR); - else - BP10G_WRITE_REG(pbpctl_dev, ESDP, - ((ctrl | BP10G_SDP1_DIR) & - ~BP10G_SDP1_DATA)); - return ret; - } - - } - return BP_NOT_CAP; -} - -/*RESET_CONT 0x20 */ -static int reset_cont(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - return BP_NOT_CAP; - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) - write_data(pbpctl_dev, RESET_CONT); - else - data_pulse(pbpctl_dev, RESET_CONT); - ret = 0; - } - return ret; -} - -/*DIS_BYPASS_CAP 0x22 */ -static int dis_bypass_cap(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & BP_DIS_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, DIS_BYPASS_CAP_INT); - msec_delay_bp(BYPASS_DELAY_INT); - } else { - write_data(pbpctl_dev, BYPASS_OFF); - msec_delay_bp(LATCH_DELAY); - write_data(pbpctl_dev, DIS_BYPASS_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - } - return 0; - } - return BP_NOT_CAP; -} - -/*EN_BYPASS_CAP 0x24 */ -static int en_bypass_cap(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & BP_DIS_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, PWROFF_BYPASS_ON_INT); - msec_delay_bp(BYPASS_DELAY_INT); - } else { - write_data(pbpctl_dev, EN_BYPASS_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - } - return 0; - } - return BP_NOT_CAP; -} - -/* BYPASS_STATE_PWRON 0x26*/ -static int bypass_state_pwron(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & BP_PWUP_CTL_CAP) { - write_data(pbpctl_dev, BYPASS_STATE_PWRON); - if (pbpctl_dev->bp_ext_ver == PXG2BPI_VER) - msec_delay_bp(DFLT_PWRON_DELAY); - else - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/* NORMAL_STATE_PWRON 0x28*/ -static int normal_state_pwron(struct bpctl_dev *pbpctl_dev) -{ - if ((pbpctl_dev->bp_caps & BP_PWUP_CTL_CAP) - || (pbpctl_dev->bp_caps & TAP_PWUP_CTL_CAP)) { - write_data(pbpctl_dev, NORMAL_STATE_PWRON); - if (pbpctl_dev->bp_ext_ver == PXG2BPI_VER) - msec_delay_bp(DFLT_PWRON_DELAY); - else - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/* BYPASS_STATE_PWROFF 0x27*/ -static int bypass_state_pwroff(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & BP_PWOFF_CTL_CAP) { - write_data(pbpctl_dev, BYPASS_STATE_PWROFF); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/* NORMAL_STATE_PWROFF 0x29*/ -static int normal_state_pwroff(struct bpctl_dev *pbpctl_dev) -{ - if ((pbpctl_dev->bp_caps & BP_PWOFF_CTL_CAP)) { - write_data(pbpctl_dev, NORMAL_STATE_PWROFF); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/*TAP_STATE_PWRON 0x2a*/ -static int tap_state_pwron(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & TAP_PWUP_CTL_CAP) { - write_data(pbpctl_dev, TAP_STATE_PWRON); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/*DIS_TAP_CAP 0x2c*/ -static int dis_tap_cap(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & TAP_DIS_CAP) { - write_data(pbpctl_dev, DIS_TAP_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/*EN_TAP_CAP 0x2e*/ -static int en_tap_cap(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & TAP_DIS_CAP) { - write_data(pbpctl_dev, EN_TAP_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - return 0; - } - return BP_NOT_CAP; -} - -/*DISC_STATE_PWRON 0x2a*/ -static int disc_state_pwron(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & DISC_PWUP_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - write_data(pbpctl_dev, DISC_STATE_PWRON); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - return BP_OK; - } - } - return BP_NOT_CAP; -} - -/*DIS_DISC_CAP 0x2c*/ -static int dis_disc_cap(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & DISC_DIS_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - write_data(pbpctl_dev, DIS_DISC_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - return BP_OK; - } - } - return BP_NOT_CAP; -} - -/*EN_TAP_CAP 0x2e*/ -static int en_disc_cap(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & DISC_DIS_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - write_data(pbpctl_dev, EN_DISC_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - return BP_OK; - } - } - return BP_NOT_CAP; -} - -static int std_nic_on(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & STD_NIC_CAP) { - - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, DIS_BYPASS_CAP_INT); - msec_delay_bp(BYPASS_DELAY_INT); - pbpctl_dev->bp_status_un = 0; - return BP_OK; - } - - if (pbpctl_dev->bp_ext_ver >= 0x8) { - write_data(pbpctl_dev, STD_NIC_ON); - msec_delay_bp(BYPASS_CAP_DELAY); - return BP_OK; - - } - - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - wdt_off(pbpctl_dev); - - if (pbpctl_dev->bp_caps & BP_CAP) { - write_data(pbpctl_dev, BYPASS_OFF); - msec_delay_bp(LATCH_DELAY); - } - - if (pbpctl_dev->bp_caps & TAP_CAP) { - write_data(pbpctl_dev, TAP_OFF); - msec_delay_bp(LATCH_DELAY); - } - - write_data(pbpctl_dev, NORMAL_STATE_PWRON); - if (pbpctl_dev->bp_ext_ver == PXG2BPI_VER) - msec_delay_bp(DFLT_PWRON_DELAY); - else - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - - if (pbpctl_dev->bp_caps & BP_DIS_CAP) { - write_data(pbpctl_dev, DIS_BYPASS_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - } - - if (pbpctl_dev->bp_caps & TAP_DIS_CAP) { - write_data(pbpctl_dev, DIS_TAP_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - - } - return 0; - } - } - return BP_NOT_CAP; -} - -static int std_nic_off(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & STD_NIC_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - write_data_int(pbpctl_dev, PWROFF_BYPASS_ON_INT); - msec_delay_bp(BYPASS_DELAY_INT); - return BP_OK; - } - if (pbpctl_dev->bp_ext_ver >= 0x8) { - write_data(pbpctl_dev, STD_NIC_OFF); - msec_delay_bp(BYPASS_CAP_DELAY); - return BP_OK; - - } - - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - - if (pbpctl_dev->bp_caps & TAP_PWUP_CTL_CAP) { - write_data(pbpctl_dev, TAP_STATE_PWRON); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - } - - if (pbpctl_dev->bp_caps & BP_PWUP_CTL_CAP) { - write_data(pbpctl_dev, BYPASS_STATE_PWRON); - if (pbpctl_dev->bp_ext_ver > PXG2BPI_VER) - msec_delay_bp(LATCH_DELAY + - EEPROM_WR_DELAY); - else - msec_delay_bp(DFLT_PWRON_DELAY); - } - - if (pbpctl_dev->bp_caps & TAP_DIS_CAP) { - write_data(pbpctl_dev, EN_TAP_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - } - if (pbpctl_dev->bp_caps & DISC_DIS_CAP) { - write_data(pbpctl_dev, EN_DISC_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - } - - if (pbpctl_dev->bp_caps & BP_DIS_CAP) { - write_data(pbpctl_dev, EN_BYPASS_CAP); - msec_delay_bp(BYPASS_CAP_DELAY); - } - - return 0; - } - } - return BP_NOT_CAP; -} - -int wdt_time_left(struct bpctl_dev *pbpctl_dev) -{ - - /* unsigned long curr_time=((long long)(jiffies*1000))/HZ, delta_time=0,wdt_on_time=((long long)(pbpctl_dev->bypass_wdt_on_time*1000))/HZ; */ - unsigned long curr_time = jiffies, delta_time = 0, wdt_on_time = - pbpctl_dev->bypass_wdt_on_time, delta_time_msec = 0; - int time_left = 0; - - switch (pbpctl_dev->wdt_status) { - case WDT_STATUS_DIS: - time_left = 0; - break; - case WDT_STATUS_EN: - delta_time = - (curr_time >= - wdt_on_time) ? (curr_time - wdt_on_time) : (~wdt_on_time + - curr_time); - delta_time_msec = jiffies_to_msecs(delta_time); - time_left = pbpctl_dev->bypass_timer_interval - delta_time_msec; - if (time_left < 0) { - time_left = -1; - pbpctl_dev->wdt_status = WDT_STATUS_EXP; - } - break; - case WDT_STATUS_EXP: - time_left = -1; - break; - } - - return time_left; -} - -static int wdt_timer(struct bpctl_dev *pbpctl_dev, int *time_left) -{ - int ret = 0; - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - { - if (pbpctl_dev->wdt_status == WDT_STATUS_UNKNOWN) - ret = BP_NOT_CAP; - else - *time_left = wdt_time_left(pbpctl_dev); - } - - } else - ret = BP_NOT_CAP; - return ret; -} - -static int wdt_timer_reload(struct bpctl_dev *pbpctl_dev) -{ - - int ret = 0; - - if ((pbpctl_dev->bp_caps & WD_CTL_CAP) && - (pbpctl_dev->wdt_status != WDT_STATUS_UNKNOWN)) { - if (pbpctl_dev->wdt_status == WDT_STATUS_DIS) - return 0; - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) - ret = wdt_pulse(pbpctl_dev); - else if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - ret = wdt_pulse_int(pbpctl_dev); - else - ret = send_wdt_pulse(pbpctl_dev); - /* if (ret==-1) - mod_timer(&pbpctl_dev->bp_timer, jiffies+1);*/ - return 1; - } - return BP_NOT_CAP; -} - -static void wd_reset_timer(unsigned long param) -{ - struct bpctl_dev *pbpctl_dev = (struct bpctl_dev *) param; -#ifdef BP_SELF_TEST - struct sk_buff *skb_tmp; -#endif - - if ((pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) && - ((atomic_read(&pbpctl_dev->wdt_busy)) == 1)) { - mod_timer(&pbpctl_dev->bp_timer, jiffies + 1); - return; - } -#ifdef BP_SELF_TEST - - if (pbpctl_dev->bp_self_test_flag == 1) { - skb_tmp = dev_alloc_skb(BPTEST_DATA_LEN + 2); - if ((skb_tmp) && (pbpctl_dev->ndev) && (pbpctl_dev->bp_tx_data)) { - memcpy(skb_put(skb_tmp, BPTEST_DATA_LEN), - pbpctl_dev->bp_tx_data, BPTEST_DATA_LEN); - skb_tmp->dev = pbpctl_dev->ndev; - skb_tmp->protocol = - eth_type_trans(skb_tmp, pbpctl_dev->ndev); - skb_tmp->ip_summed = CHECKSUM_UNNECESSARY; - netif_receive_skb(skb_tmp); - goto bp_timer_reload; - return; - } - } -#endif - - wdt_timer_reload(pbpctl_dev); -#ifdef BP_SELF_TEST - bp_timer_reload: -#endif - if (pbpctl_dev->reset_time) { - mod_timer(&pbpctl_dev->bp_timer, - jiffies + (HZ * pbpctl_dev->reset_time) / 1000); - } -} - -/*WAIT_AT_PWRUP 0x80 */ -static int bp_wait_at_pwup_en(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER8) { - write_data(pbpctl_dev, BP_WAIT_AT_PWUP_EN); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - - return BP_OK; - } - } - return BP_NOT_CAP; -} - -/*DIS_WAIT_AT_PWRUP 0x81 */ -static int bp_wait_at_pwup_dis(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER8) { - write_data(pbpctl_dev, BP_WAIT_AT_PWUP_DIS); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - - return BP_OK; - } - } - return BP_NOT_CAP; -} - -/*EN_HW_RESET 0x82 */ - -static int bp_hw_reset_en(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER8) { - write_data(pbpctl_dev, BP_HW_RESET_EN); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - - return BP_OK; - } - } - return BP_NOT_CAP; -} - -/*DIS_HW_RESET 0x83 */ - -static int bp_hw_reset_dis(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER8) { - write_data(pbpctl_dev, BP_HW_RESET_DIS); - msec_delay_bp(LATCH_DELAY + EEPROM_WR_DELAY); - - return BP_OK; - } - } - return BP_NOT_CAP; -} - - -static int wdt_exp_mode(struct bpctl_dev *pbpctl_dev, int mode) -{ - uint32_t status_reg = 0, status_reg1 = 0; - - if ((pbpctl_dev->bp_caps & (TAP_STATUS_CAP | DISC_CAP)) && - (pbpctl_dev->bp_caps & BP_CAP)) { - if (pbpctl_dev->bp_ext_ver >= PXE2TBPI_VER) { - - if ((pbpctl_dev->bp_ext_ver >= 0x8) && - (mode == 2) && (pbpctl_dev->bp_caps & DISC_CAP)) { - status_reg1 = - read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR); - if (!(status_reg1 & WDTE_DISC_BPN_MASK)) - write_reg(pbpctl_dev, - status_reg1 | - WDTE_DISC_BPN_MASK, - STATUS_DISC_REG_ADDR); - return BP_OK; - } - } - status_reg = read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR); - - if ((mode == 0) && (pbpctl_dev->bp_caps & BP_CAP)) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - status_reg1 = - read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR); - if (status_reg1 & WDTE_DISC_BPN_MASK) - write_reg(pbpctl_dev, - status_reg1 & - ~WDTE_DISC_BPN_MASK, - STATUS_DISC_REG_ADDR); - } - if (status_reg & WDTE_TAP_BPN_MASK) - write_reg(pbpctl_dev, - status_reg & ~WDTE_TAP_BPN_MASK, - STATUS_TAP_REG_ADDR); - return BP_OK; - - } else if ((mode == 1) && (pbpctl_dev->bp_caps & TAP_CAP)) { - if (!(status_reg & WDTE_TAP_BPN_MASK)) - write_reg(pbpctl_dev, - status_reg | WDTE_TAP_BPN_MASK, - STATUS_TAP_REG_ADDR); - /*else return BP_NOT_CAP; */ - return BP_OK; - } - - } - return BP_NOT_CAP; -} - -static int bypass_fw_ver(struct bpctl_dev *pbpctl_dev) -{ - if (is_bypass_fn(pbpctl_dev)) - return read_reg(pbpctl_dev, VER_REG_ADDR); - else - return BP_NOT_CAP; -} - -static int bypass_sign_check(struct bpctl_dev *pbpctl_dev) -{ - - if (is_bypass_fn(pbpctl_dev)) - return (((read_reg(pbpctl_dev, PIC_SIGN_REG_ADDR)) == - PIC_SIGN_VALUE) ? 1 : 0); - else - return BP_NOT_CAP; -} - -static int tx_status(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl = 0; - struct bpctl_dev *pbpctl_dev_m; - - if ((is_bypass_fn(pbpctl_dev)) == 1) - pbpctl_dev_m = pbpctl_dev; - else - pbpctl_dev_m = get_master_port_fn(pbpctl_dev); - if (pbpctl_dev_m == NULL) - return BP_NOT_CAP; - if (pbpctl_dev_m->bp_caps_ex & DISC_PORT_CAP_EX) { - - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL); - if (pbpctl_dev->bp_i80) - return ((ctrl & BPCTLI_CTRL_SWDPIN1) != 0 ? 0 : 1); - if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - - return ((ctrl & BP10G_SDP1_DATA) != 0 ? 0 : 1); - } - - } - - if (pbpctl_dev->bp_caps & TX_CTL_CAP) { - if (PEG5_IF_SERIES(pbpctl_dev->subdevice)) { - uint16_t mii_reg; - if (! - (bp75_read_phy_reg - (pbpctl_dev, BPCTLI_PHY_CONTROL, &mii_reg))) { - if (mii_reg & BPCTLI_MII_CR_POWER_DOWN) - return 0; - - else - return 1; - } - return -1; - } - - if (pbpctl_dev->bp_10g9) { - return ((BP10G_READ_REG(pbpctl_dev, ESDP) & - BP10G_SDP3_DATA) != 0 ? 0 : 1); - - } else if (pbpctl_dev->bp_fiber5) { - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - if (ctrl & BPCTLI_CTRL_EXT_SDP6_DATA) - return 0; - return 1; - } else if (pbpctl_dev->bp_10gb) { - ctrl = BP10GB_READ_REG(pbpctl_dev, MISC_REG_GPIO); - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_GPIO, - (ctrl | BP10GB_GPIO0_OE_P1) & - ~(BP10GB_GPIO0_SET_P1 | - BP10GB_GPIO0_CLR_P1)); - - if ((pbpctl_dev->func == 1) || (pbpctl_dev->func == 3)) - return (((BP10GB_READ_REG - (pbpctl_dev, - MISC_REG_GPIO)) & BP10GB_GPIO0_P1) != - 0 ? 0 : 1); - else - return (((BP10GB_READ_REG - (pbpctl_dev, - MISC_REG_GPIO)) & BP10GB_GPIO0_P0) != - 0 ? 0 : 1); - } - - if (!pbpctl_dev->bp_10g) { - - ctrl = BPCTL_READ_REG(pbpctl_dev, CTRL); - if (pbpctl_dev->bp_i80) - return ((ctrl & BPCTLI_CTRL_SWDPIN1) != - 0 ? 0 : 1); - if (pbpctl_dev->bp_540) { - ctrl = BP10G_READ_REG(pbpctl_dev, ESDP); - - return ((ctrl & BP10G_SDP1_DATA) != 0 ? 0 : 1); - } - - return ((ctrl & BPCTLI_CTRL_SWDPIN0) != 0 ? 0 : 1); - } else - return ((BP10G_READ_REG(pbpctl_dev, ESDP) & - BP10G_SDP0_DATA) != 0 ? 0 : 1); - - } - return BP_NOT_CAP; -} - -static int bp_force_link_status(struct bpctl_dev *pbpctl_dev) -{ - - if (DBI_IF_SERIES(pbpctl_dev->subdevice)) { - - if ((pbpctl_dev->bp_10g) || (pbpctl_dev->bp_10g9)) { - return ((BP10G_READ_REG(pbpctl_dev, ESDP) & - BP10G_SDP1_DIR) != 0 ? 1 : 0); - - } - } - return BP_NOT_CAP; -} - -static int bypass_from_last_read(struct bpctl_dev *pbpctl_dev) -{ - uint32_t ctrl_ext = 0; - struct bpctl_dev *pbpctl_dev_b = NULL; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - ctrl_ext = BPCTL_READ_REG(pbpctl_dev_b, CTRL_EXT); - BPCTL_BP_WRITE_REG(pbpctl_dev_b, CTRL_EXT, - (ctrl_ext & ~BPCTLI_CTRL_EXT_SDP7_DIR)); - ctrl_ext = BPCTL_READ_REG(pbpctl_dev_b, CTRL_EXT); - if (ctrl_ext & BPCTLI_CTRL_EXT_SDP7_DATA) - return 0; - return 1; - } else - return BP_NOT_CAP; -} - -static int bypass_status_clear(struct bpctl_dev *pbpctl_dev) -{ - struct bpctl_dev *pbpctl_dev_b = NULL; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - send_bypass_clear_pulse(pbpctl_dev_b, 1); - return 0; - } else - return BP_NOT_CAP; -} - -static int bypass_flag_status(struct bpctl_dev *pbpctl_dev) -{ - - if ((pbpctl_dev->bp_caps & BP_CAP)) { - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - return ((((read_reg(pbpctl_dev, STATUS_REG_ADDR)) & - BYPASS_FLAG_MASK) == - BYPASS_FLAG_MASK) ? 1 : 0); - } - } - return BP_NOT_CAP; -} - -static int bypass_flag_status_clear(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & BP_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - uint32_t status_reg = 0; - status_reg = read_reg(pbpctl_dev, STATUS_REG_ADDR); - write_reg(pbpctl_dev, status_reg & ~BYPASS_FLAG_MASK, - STATUS_REG_ADDR); - return 0; - } - } - return BP_NOT_CAP; -} - -static int bypass_change_status(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & BP_STATUS_CHANGE_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - ret = bypass_flag_status(pbpctl_dev); - bypass_flag_status_clear(pbpctl_dev); - } else if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - ret = bypass_flag_status(pbpctl_dev); - bypass_flag_status_clear(pbpctl_dev); - } else { - ret = bypass_from_last_read(pbpctl_dev); - bypass_status_clear(pbpctl_dev); - } - } - return ret; -} - -static int bypass_status(struct bpctl_dev *pbpctl_dev) -{ - u32 ctrl_ext = 0; - - if (pbpctl_dev->bp_caps & BP_CAP) { - - struct bpctl_dev *pbpctl_dev_b = NULL; - - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - - if (!pbpctl_dev->bp_status_un) - return (((BPCTL_READ_REG - (pbpctl_dev_b, - CTRL_EXT)) & - BPCTLI_CTRL_EXT_SDP7_DATA) != - 0 ? 1 : 0); - else - return BP_NOT_CAP; - } - if (pbpctl_dev->bp_ext_ver >= 0x8) { - - if (pbpctl_dev->bp_10g9) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev_b, I2CCTL); - BP10G_WRITE_REG(pbpctl_dev_b, I2CCTL, - (ctrl_ext | BP10G_I2C_CLK_OUT)); - return ((BP10G_READ_REG(pbpctl_dev_b, I2CCTL) & - BP10G_I2C_CLK_IN) != 0 ? 0 : 1); - - } else if (pbpctl_dev->bp_540) { - return (((BP10G_READ_REG(pbpctl_dev_b, ESDP)) & - BP10G_SDP0_DATA) != 0 ? 0 : 1); - } - - else if ((pbpctl_dev->bp_fiber5) - || (pbpctl_dev->bp_i80)) { - return (((BPCTL_READ_REG(pbpctl_dev_b, CTRL)) & - BPCTLI_CTRL_SWDPIN0) != 0 ? 0 : 1); - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = - BP10GB_READ_REG(pbpctl_dev, MISC_REG_GPIO); - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_GPIO, - (ctrl_ext | BP10GB_GPIO3_OE_P0) - & ~(BP10GB_GPIO3_SET_P0 | - BP10GB_GPIO3_CLR_P0)); - - return (((BP10GB_READ_REG - (pbpctl_dev, - MISC_REG_GPIO)) & BP10GB_GPIO3_P0) != - 0 ? 0 : 1); - } - - else if (!pbpctl_dev->bp_10g) - return (((BPCTL_READ_REG - (pbpctl_dev_b, - CTRL_EXT)) & - BPCTLI_CTRL_EXT_SDP7_DATA) != - 0 ? 0 : 1); - - else { - ctrl_ext = BP10G_READ_REG(pbpctl_dev_b, EODSDP); - BP10G_WRITE_REG(pbpctl_dev_b, EODSDP, - (ctrl_ext | - BP10G_SDP7_DATA_OUT)); - return ((BP10G_READ_REG(pbpctl_dev_b, EODSDP) & - BP10G_SDP7_DATA_IN) != 0 ? 0 : 1); - } - - } else if (pbpctl_dev->media_type == BP_COPPER) { - - return (((BPCTL_READ_REG(pbpctl_dev_b, CTRL)) & - BPCTLI_CTRL_SWDPIN1) != 0 ? 1 : 0); - } else { - if ((bypass_status_clear(pbpctl_dev)) >= 0) - return bypass_from_last_read(pbpctl_dev); - } - - } - return BP_NOT_CAP; -} - -static int default_pwron_status(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (pbpctl_dev->bp_caps & BP_PWUP_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - return ((((read_reg - (pbpctl_dev, - STATUS_REG_ADDR)) & DFLT_PWRON_MASK) - == DFLT_PWRON_MASK) ? 0 : 1); - } - } /*else if ((!pbpctl_dev->bp_caps&BP_DIS_CAP)&& - (pbpctl_dev->bp_caps&BP_PWUP_ON_CAP)) - return 1; */ - } - return BP_NOT_CAP; -} - -static int default_pwroff_status(struct bpctl_dev *pbpctl_dev) -{ - - /*if ((!pbpctl_dev->bp_caps&BP_DIS_CAP)&& - (pbpctl_dev->bp_caps&BP_PWOFF_ON_CAP)) - return 1; */ - if ((pbpctl_dev->bp_caps & SW_CTL_CAP) - && (pbpctl_dev->bp_caps & BP_PWOFF_CTL_CAP)) { - return ((((read_reg(pbpctl_dev, STATUS_REG_ADDR)) & - DFLT_PWROFF_MASK) == DFLT_PWROFF_MASK) ? 0 : 1); - } - return BP_NOT_CAP; -} - -static int dis_bypass_cap_status(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & BP_DIS_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - return ((((read_reg(pbpctl_dev, STATUS_REG_ADDR)) & - DIS_BYPASS_CAP_MASK) == - DIS_BYPASS_CAP_MASK) ? 1 : 0); - } - } - return BP_NOT_CAP; -} - -static int wdt_programmed(struct bpctl_dev *pbpctl_dev, int *timeout) -{ - int ret = 0; - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - if ((read_reg(pbpctl_dev, STATUS_REG_ADDR)) & - WDT_EN_MASK) { - u8 wdt_val; - wdt_val = read_reg(pbpctl_dev, WDT_REG_ADDR); - *timeout = (1 << wdt_val) * 100; - } else - *timeout = 0; - } else { - int curr_wdt_status = pbpctl_dev->wdt_status; - if (curr_wdt_status == WDT_STATUS_UNKNOWN) - *timeout = -1; - else - *timeout = - curr_wdt_status == - 0 ? 0 : pbpctl_dev->bypass_timer_interval; - } - } else - ret = BP_NOT_CAP; - return ret; -} - -static int normal_support(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) { - ret = - ((((read_reg(pbpctl_dev, PRODUCT_CAP_REG_ADDR)) & - NORMAL_UNSUPPORT_MASK) == - NORMAL_UNSUPPORT_MASK) ? 0 : 1); - } else - ret = 1; - } - return ret; -} - -static int get_bp_prod_caps(struct bpctl_dev *pbpctl_dev) -{ - if ((pbpctl_dev->bp_caps & SW_CTL_CAP) && - (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER)) - return read_reg(pbpctl_dev, PRODUCT_CAP_REG_ADDR); - return BP_NOT_CAP; - -} - -static int tap_flag_status(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & TAP_STATUS_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) - return ((((read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR)) & - TAP_FLAG_MASK) == TAP_FLAG_MASK) ? 1 : 0); - - } - return BP_NOT_CAP; -} - -static int tap_flag_status_clear(struct bpctl_dev *pbpctl_dev) -{ - uint32_t status_reg = 0; - - if (pbpctl_dev->bp_caps & TAP_STATUS_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) { - status_reg = read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR); - write_reg(pbpctl_dev, status_reg & ~TAP_FLAG_MASK, - STATUS_TAP_REG_ADDR); - return 0; - } - } - return BP_NOT_CAP; -} - -static int tap_change_status(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) { - if (pbpctl_dev->bp_caps & TAP_CAP) { - if (pbpctl_dev->bp_caps & BP_CAP) { - ret = tap_flag_status(pbpctl_dev); - tap_flag_status_clear(pbpctl_dev); - } else { - ret = bypass_from_last_read(pbpctl_dev); - bypass_status_clear(pbpctl_dev); - } - } - } - return ret; -} - -static int tap_status(struct bpctl_dev *pbpctl_dev) -{ - u32 ctrl_ext = 0; - - if (pbpctl_dev->bp_caps & TAP_CAP) { - struct bpctl_dev *pbpctl_dev_b = NULL; - - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - - if (pbpctl_dev->bp_ext_ver >= 0x8) { - if (!pbpctl_dev->bp_10g) - return (((BPCTL_READ_REG - (pbpctl_dev_b, - CTRL_EXT)) & - BPCTLI_CTRL_EXT_SDP6_DATA) != - 0 ? 0 : 1); - else { - ctrl_ext = BP10G_READ_REG(pbpctl_dev_b, EODSDP); - BP10G_WRITE_REG(pbpctl_dev_b, EODSDP, - (ctrl_ext | - BP10G_SDP6_DATA_OUT)); - return ((BP10G_READ_REG(pbpctl_dev_b, EODSDP) & - BP10G_SDP6_DATA_IN) != 0 ? 0 : 1); - } - - } else if (pbpctl_dev->media_type == BP_COPPER) - return (((BPCTL_READ_REG(pbpctl_dev, CTRL)) & - BPCTLI_CTRL_SWDPIN0) != 0 ? 1 : 0); - else { - if ((bypass_status_clear(pbpctl_dev)) >= 0) - return bypass_from_last_read(pbpctl_dev); - } - - } - return BP_NOT_CAP; -} - -static int default_pwron_tap_status(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & TAP_PWUP_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) - return ((((read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR)) & - DFLT_PWRON_TAP_MASK) == - DFLT_PWRON_TAP_MASK) ? 1 : 0); - } - return BP_NOT_CAP; -} - -static int dis_tap_cap_status(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & TAP_PWUP_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) - return ((((read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR)) & - DIS_TAP_CAP_MASK) == - DIS_TAP_CAP_MASK) ? 1 : 0); - } - return BP_NOT_CAP; -} - -static int disc_flag_status(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & DISC_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - DISC_FLAG_MASK) == DISC_FLAG_MASK) ? 1 : 0); - - } - return BP_NOT_CAP; -} - -static int disc_flag_status_clear(struct bpctl_dev *pbpctl_dev) -{ - uint32_t status_reg = 0; - - if (pbpctl_dev->bp_caps & DISC_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - status_reg = read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR); - write_reg(pbpctl_dev, status_reg & ~DISC_FLAG_MASK, - STATUS_DISC_REG_ADDR); - return BP_OK; - } - } - return BP_NOT_CAP; -} - -static int disc_change_status(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (pbpctl_dev->bp_caps & DISC_CAP) { - ret = disc_flag_status(pbpctl_dev); - disc_flag_status_clear(pbpctl_dev); - return ret; - } - return BP_NOT_CAP; -} - -static int disc_off_status(struct bpctl_dev *pbpctl_dev) -{ - struct bpctl_dev *pbpctl_dev_b = NULL; - u32 ctrl_ext = 0; - - if (pbpctl_dev->bp_caps & DISC_CAP) { - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return BP_NOT_CAP; - if (DISCF_IF_SERIES(pbpctl_dev->subdevice)) - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - DISC_OFF_MASK) == DISC_OFF_MASK) ? 1 : 0); - - if (pbpctl_dev->bp_i80) { - return (((BPCTL_READ_REG(pbpctl_dev_b, CTRL_EXT)) & - BPCTLI_CTRL_EXT_SDP6_DATA) != 0 ? 1 : 0); - - } - if (pbpctl_dev->bp_540) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev_b, ESDP); - return ((BP10G_READ_REG(pbpctl_dev_b, ESDP) & - BP10G_SDP2_DATA) != 0 ? 1 : 0); - - } - if (pbpctl_dev->media_type == BP_COPPER) { - -#if 0 - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - DISC_OFF_MASK) == DISC_OFF_MASK) ? 1 : 0); -#endif - if (!pbpctl_dev->bp_10g) - return (((BPCTL_READ_REG(pbpctl_dev_b, CTRL)) & - BPCTLI_CTRL_SWDPIN1) != 0 ? 1 : 0); - else - return ((BP10G_READ_REG(pbpctl_dev_b, ESDP) & - BP10G_SDP1_DATA) != 0 ? 1 : 0); - - } else { - - if (pbpctl_dev->bp_10g9) { - ctrl_ext = BP10G_READ_REG(pbpctl_dev_b, I2CCTL); - BP10G_WRITE_REG(pbpctl_dev_b, I2CCTL, - (ctrl_ext | - BP10G_I2C_DATA_OUT)); - return ((BP10G_READ_REG(pbpctl_dev_b, I2CCTL) & - BP10G_I2C_DATA_IN) != 0 ? 1 : 0); - - } else if (pbpctl_dev->bp_fiber5) { - return (((BPCTL_READ_REG(pbpctl_dev_b, CTRL)) & - BPCTLI_CTRL_SWDPIN1) != 0 ? 1 : 0); - } else if (pbpctl_dev->bp_10gb) { - ctrl_ext = - BP10GB_READ_REG(pbpctl_dev, MISC_REG_GPIO); - BP10GB_WRITE_REG(pbpctl_dev, MISC_REG_GPIO, - (ctrl_ext | BP10GB_GPIO3_OE_P1) - & ~(BP10GB_GPIO3_SET_P1 | - BP10GB_GPIO3_CLR_P1)); - - return (((BP10GB_READ_REG - (pbpctl_dev, - MISC_REG_GPIO)) & BP10GB_GPIO3_P1) != - 0 ? 1 : 0); - } - if (!pbpctl_dev->bp_10g) { - - return (((BPCTL_READ_REG - (pbpctl_dev_b, - CTRL_EXT)) & - BPCTLI_CTRL_EXT_SDP6_DATA) != - 0 ? 1 : 0); - } else { - ctrl_ext = BP10G_READ_REG(pbpctl_dev_b, EODSDP); - BP10G_WRITE_REG(pbpctl_dev_b, EODSDP, - (ctrl_ext | - BP10G_SDP6_DATA_OUT)); - return (((BP10G_READ_REG(pbpctl_dev_b, EODSDP)) - & BP10G_SDP6_DATA_IN) != 0 ? 1 : 0); - } - - } - } - return BP_NOT_CAP; -} - -static int disc_status(struct bpctl_dev *pbpctl_dev) -{ - int ctrl = 0; - - if (pbpctl_dev->bp_caps & DISC_CAP) { - ctrl = disc_off_status(pbpctl_dev); - if (ctrl < 0) - return ctrl; - return ((ctrl == 0) ? 1 : 0); - } - return BP_NOT_CAP; -} - -static int default_pwron_disc_status(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & DISC_PWUP_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - DFLT_PWRON_DISC_MASK) == - DFLT_PWRON_DISC_MASK) ? 1 : 0); - } - return BP_NOT_CAP; -} - -static int dis_disc_cap_status(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & DIS_DISC_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - DIS_DISC_CAP_MASK) == - DIS_DISC_CAP_MASK) ? 1 : 0); - } - return BP_NOT_CAP; -} - -static int wdt_exp_mode_status(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver <= PXG2BPI_VER) - return 0; /* bypass mode */ - else if (pbpctl_dev->bp_ext_ver == PXG2TBPI_VER) - return 1; /* tap mode */ - else if (pbpctl_dev->bp_ext_ver >= PXE2TBPI_VER) { - if (pbpctl_dev->bp_ext_ver >= 0x8) { - if (((read_reg - (pbpctl_dev, - STATUS_DISC_REG_ADDR)) & - WDTE_DISC_BPN_MASK) == WDTE_DISC_BPN_MASK) - return 2; - } - return ((((read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR)) & - WDTE_TAP_BPN_MASK) == - WDTE_TAP_BPN_MASK) ? 1 : 0); - } - } - return BP_NOT_CAP; -} - -static int tpl2_flag_status(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps_ex & TPL2_CAP_EX) { - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - TPL2_FLAG_MASK) == TPL2_FLAG_MASK) ? 1 : 0); - - } - return BP_NOT_CAP; -} - -static int bp_wait_at_pwup_status(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - if (pbpctl_dev->bp_ext_ver >= 0x8) - return ((((read_reg(pbpctl_dev, CONT_CONFIG_REG_ADDR)) & - WAIT_AT_PWUP_MASK) == - WAIT_AT_PWUP_MASK) ? 1 : 0); - } - return BP_NOT_CAP; -} - -static int bp_hw_reset_status(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - - if (pbpctl_dev->bp_ext_ver >= 0x8) - return ((((read_reg(pbpctl_dev, CONT_CONFIG_REG_ADDR)) & - EN_HW_RESET_MASK) == - EN_HW_RESET_MASK) ? 1 : 0); - } - return BP_NOT_CAP; -} - - -static int std_nic_status(struct bpctl_dev *pbpctl_dev) -{ - int status_val = 0; - - if (pbpctl_dev->bp_caps & STD_NIC_CAP) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - return BP_NOT_CAP; - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER8) { - return ((((read_reg(pbpctl_dev, STATUS_DISC_REG_ADDR)) & - STD_NIC_ON_MASK) == STD_NIC_ON_MASK) ? 1 : 0); - } - - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - if (pbpctl_dev->bp_caps & BP_CAP) { - status_val = - read_reg(pbpctl_dev, STATUS_REG_ADDR); - if (((!(status_val & WDT_EN_MASK)) - && ((status_val & STD_NIC_MASK) == - STD_NIC_MASK))) - status_val = 1; - else - return 0; - } - if (pbpctl_dev->bp_caps & TAP_CAP) { - status_val = - read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR); - if ((status_val & STD_NIC_TAP_MASK) == - STD_NIC_TAP_MASK) - status_val = 1; - else - return 0; - } - if (pbpctl_dev->bp_caps & TAP_CAP) { - if ((disc_off_status(pbpctl_dev))) - status_val = 1; - else - return 0; - } - - return status_val; - } - } - return BP_NOT_CAP; -} - -/******************************************************/ -/**************SW_INIT*********************************/ -/******************************************************/ -static void bypass_caps_init(struct bpctl_dev *pbpctl_dev) -{ - u_int32_t ctrl_ext = 0; - struct bpctl_dev *pbpctl_dev_m = NULL; - -#ifdef BYPASS_DEBUG - int ret = 0; - - if (!(INTEL_IF_SERIES(adapter->bp_device_block.subdevice))) { - ret = read_reg(pbpctl_dev, VER_REG_ADDR); - printk("VER_REG reg1=%x\n", ret); - ret = read_reg(pbpctl_dev, PRODUCT_CAP_REG_ADDR); - printk("PRODUCT_CAP reg=%x\n", ret); - ret = read_reg(pbpctl_dev, STATUS_TAP_REG_ADDR); - printk("STATUS_TAP reg1=%x\n", ret); - ret = read_reg(pbpctl_dev, 0x7); - printk("SIG_REG reg1=%x\n", ret); - ret = read_reg(pbpctl_dev, STATUS_REG_ADDR); - printk("STATUS_REG_ADDR=%x\n", ret); - ret = read_reg(pbpctl_dev, WDT_REG_ADDR); - printk("WDT_REG_ADDR=%x\n", ret); - ret = read_reg(pbpctl_dev, TMRL_REG_ADDR); - printk("TMRL_REG_ADDR=%x\n", ret); - ret = read_reg(pbpctl_dev, TMRH_REG_ADDR); - printk("TMRH_REG_ADDR=%x\n", ret); - } -#endif - if ((pbpctl_dev->bp_fiber5) || (pbpctl_dev->bp_10g9)) { - pbpctl_dev->media_type = BP_FIBER; - } else if (pbpctl_dev->bp_10gb) { - if (BP10GB_CX4_SERIES(pbpctl_dev->subdevice)) - pbpctl_dev->media_type = BP_CX4; - else - pbpctl_dev->media_type = BP_FIBER; - - } - - else if (pbpctl_dev->bp_540) - pbpctl_dev->media_type = BP_NONE; - else if (!pbpctl_dev->bp_10g) { - - ctrl_ext = BPCTL_READ_REG(pbpctl_dev, CTRL_EXT); - if ((ctrl_ext & BPCTLI_CTRL_EXT_LINK_MODE_MASK) == 0x0) - pbpctl_dev->media_type = BP_COPPER; - else - pbpctl_dev->media_type = BP_FIBER; - - } else { - if (BP10G_CX4_SERIES(pbpctl_dev->subdevice)) - pbpctl_dev->media_type = BP_CX4; - else - pbpctl_dev->media_type = BP_FIBER; - } - - if (is_bypass_fn(pbpctl_dev)) { - - pbpctl_dev->bp_caps |= BP_PWOFF_ON_CAP; - if (pbpctl_dev->media_type == BP_FIBER) - pbpctl_dev->bp_caps |= - (TX_CTL_CAP | TX_STATUS_CAP | TPL_CAP); - - if (TPL_IF_SERIES(pbpctl_dev->subdevice)) - pbpctl_dev->bp_caps |= TPL_CAP; - - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) { - pbpctl_dev->bp_caps |= - (BP_CAP | BP_STATUS_CAP | SW_CTL_CAP | - BP_PWUP_ON_CAP | BP_PWUP_OFF_CAP | BP_PWOFF_OFF_CAP - | WD_CTL_CAP | WD_STATUS_CAP | STD_NIC_CAP | - WD_TIMEOUT_CAP); - - pbpctl_dev->bp_ext_ver = OLD_IF_VER; - return; - } - - if ((pbpctl_dev->bp_fw_ver == 0xff) && - OLD_IF_SERIES(pbpctl_dev->subdevice)) { - - pbpctl_dev->bp_caps |= - (BP_CAP | BP_STATUS_CAP | BP_STATUS_CHANGE_CAP | - SW_CTL_CAP | BP_PWUP_ON_CAP | WD_CTL_CAP | - WD_STATUS_CAP | WD_TIMEOUT_CAP); - - pbpctl_dev->bp_ext_ver = OLD_IF_VER; - return; - } - - else { - switch (pbpctl_dev->bp_fw_ver) { - case BP_FW_VER_A0: - case BP_FW_VER_A1:{ - pbpctl_dev->bp_ext_ver = - (pbpctl_dev-> - bp_fw_ver & EXT_VER_MASK); - break; - } - default:{ - if ((bypass_sign_check(pbpctl_dev)) != - 1) { - pbpctl_dev->bp_caps = 0; - return; - } - pbpctl_dev->bp_ext_ver = - (pbpctl_dev-> - bp_fw_ver & EXT_VER_MASK); - } - } - } - - if (pbpctl_dev->bp_ext_ver == PXG2BPI_VER) - pbpctl_dev->bp_caps |= - (BP_CAP | BP_STATUS_CAP | BP_STATUS_CHANGE_CAP | - SW_CTL_CAP | BP_DIS_CAP | BP_DIS_STATUS_CAP | - BP_PWUP_ON_CAP | BP_PWUP_OFF_CAP | BP_PWUP_CTL_CAP - | WD_CTL_CAP | STD_NIC_CAP | WD_STATUS_CAP | - WD_TIMEOUT_CAP); - else if (pbpctl_dev->bp_ext_ver >= PXG2TBPI_VER) { - int cap_reg; - - pbpctl_dev->bp_caps |= - (SW_CTL_CAP | WD_CTL_CAP | WD_STATUS_CAP | - WD_TIMEOUT_CAP); - cap_reg = get_bp_prod_caps(pbpctl_dev); - - if ((cap_reg & NORMAL_UNSUPPORT_MASK) == - NORMAL_UNSUPPORT_MASK) - pbpctl_dev->bp_caps |= NIC_CAP_NEG; - else - pbpctl_dev->bp_caps |= STD_NIC_CAP; - - if ((normal_support(pbpctl_dev)) == 1) - - pbpctl_dev->bp_caps |= STD_NIC_CAP; - - else - pbpctl_dev->bp_caps |= NIC_CAP_NEG; - if ((cap_reg & BYPASS_SUPPORT_MASK) == - BYPASS_SUPPORT_MASK) { - pbpctl_dev->bp_caps |= - (BP_CAP | BP_STATUS_CAP | - BP_STATUS_CHANGE_CAP | BP_DIS_CAP | - BP_DIS_STATUS_CAP | BP_PWUP_ON_CAP | - BP_PWUP_OFF_CAP | BP_PWUP_CTL_CAP); - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER7) - pbpctl_dev->bp_caps |= - BP_PWOFF_ON_CAP | BP_PWOFF_OFF_CAP | - BP_PWOFF_CTL_CAP; - } - if ((cap_reg & TAP_SUPPORT_MASK) == TAP_SUPPORT_MASK) { - pbpctl_dev->bp_caps |= - (TAP_CAP | TAP_STATUS_CAP | - TAP_STATUS_CHANGE_CAP | TAP_DIS_CAP | - TAP_DIS_STATUS_CAP | TAP_PWUP_ON_CAP | - TAP_PWUP_OFF_CAP | TAP_PWUP_CTL_CAP); - } - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER8) { - if ((cap_reg & DISC_SUPPORT_MASK) == - DISC_SUPPORT_MASK) - pbpctl_dev->bp_caps |= - (DISC_CAP | DISC_DIS_CAP | - DISC_PWUP_CTL_CAP); - if ((cap_reg & TPL2_SUPPORT_MASK) == - TPL2_SUPPORT_MASK) { - pbpctl_dev->bp_caps_ex |= TPL2_CAP_EX; - pbpctl_dev->bp_caps |= TPL_CAP; - pbpctl_dev->bp_tpl_flag = - tpl2_flag_status(pbpctl_dev); - } - - } - - if (pbpctl_dev->bp_ext_ver >= BP_FW_EXT_VER9) { - if ((cap_reg & DISC_PORT_SUPPORT_MASK) == - DISC_PORT_SUPPORT_MASK) { - pbpctl_dev->bp_caps_ex |= - DISC_PORT_CAP_EX; - pbpctl_dev->bp_caps |= - (TX_CTL_CAP | TX_STATUS_CAP); - } - - } - - } - if (pbpctl_dev->bp_ext_ver >= PXG2BPI_VER) { - if ((read_reg(pbpctl_dev, STATUS_REG_ADDR)) & - WDT_EN_MASK) - pbpctl_dev->wdt_status = WDT_STATUS_EN; - else - pbpctl_dev->wdt_status = WDT_STATUS_DIS; - } - - } else if ((P2BPFI_IF_SERIES(pbpctl_dev->subdevice)) || - (PEGF5_IF_SERIES(pbpctl_dev->subdevice)) || - (PEGF80_IF_SERIES(pbpctl_dev->subdevice)) || - (BP10G9_IF_SERIES(pbpctl_dev->subdevice))) { - pbpctl_dev->bp_caps |= (TX_CTL_CAP | TX_STATUS_CAP); - } - if ((pbpctl_dev->subdevice & 0xa00) == 0xa00) - pbpctl_dev->bp_caps |= (TX_CTL_CAP | TX_STATUS_CAP); - if (PEG5_IF_SERIES(pbpctl_dev->subdevice)) - pbpctl_dev->bp_caps |= (TX_CTL_CAP | TX_STATUS_CAP); - - if (BP10GB_IF_SERIES(pbpctl_dev->subdevice)) - pbpctl_dev->bp_caps &= ~(TX_CTL_CAP | TX_STATUS_CAP); - - pbpctl_dev_m = get_master_port_fn(pbpctl_dev); - if (pbpctl_dev_m != NULL) { - int cap_reg = 0; - if (pbpctl_dev_m->bp_ext_ver >= 0x9) { - cap_reg = get_bp_prod_caps(pbpctl_dev_m); - if ((cap_reg & DISC_PORT_SUPPORT_MASK) == - DISC_PORT_SUPPORT_MASK) - pbpctl_dev->bp_caps |= - (TX_CTL_CAP | TX_STATUS_CAP); - pbpctl_dev->bp_caps_ex |= DISC_PORT_CAP_EX; - } - } -} - -static void remove_bypass_wd_auto(struct bpctl_dev *pbpctl_dev) -{ -#ifdef BP_SELF_TEST - struct bpctl_dev *pbpctl_dev_sl = NULL; -#endif - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - - del_timer_sync(&pbpctl_dev->bp_timer); -#ifdef BP_SELF_TEST - pbpctl_dev_sl = get_status_port_fn(pbpctl_dev); - if (pbpctl_dev_sl && (pbpctl_dev_sl->ndev)) { - if ((pbpctl_dev_sl->ndev->netdev_ops) - && (pbpctl_dev_sl->old_ops)) { - rtnl_lock(); - pbpctl_dev_sl->ndev->netdev_ops = - pbpctl_dev_sl->old_ops; - pbpctl_dev_sl->old_ops = NULL; - - rtnl_unlock(); - - } - - } -#endif - } - -} - -static int init_bypass_wd_auto(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - init_timer(&pbpctl_dev->bp_timer); - pbpctl_dev->bp_timer.function = &wd_reset_timer; - pbpctl_dev->bp_timer.data = (unsigned long)pbpctl_dev; - return 1; - } - return BP_NOT_CAP; -} - -#ifdef BP_SELF_TEST -int bp_hard_start_xmit(struct sk_buff *skb, struct net_device *dev) -{ - struct bpctl_dev *pbpctl_dev = NULL, *pbpctl_dev_m = NULL; - int idx_dev = 0; - struct ethhdr *eth = (struct ethhdr *)skb->data; - - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].ndev != NULL) && (idx_dev < device_num)); - idx_dev++) { - if (bpctl_dev_arr[idx_dev].ndev == dev) { - pbpctl_dev = &bpctl_dev_arr[idx_dev]; - break; - } - } - if (!pbpctl_dev) - return 1; - if ((htons(ETH_P_BPTEST) == eth->h_proto)) { - - pbpctl_dev_m = get_master_port_fn(pbpctl_dev); - if (pbpctl_dev_m) { - - if (bypass_status(pbpctl_dev_m)) { - cmnd_on(pbpctl_dev_m); - bypass_off(pbpctl_dev_m); - cmnd_off(pbpctl_dev_m); - } - wdt_timer_reload(pbpctl_dev_m); - } - dev_kfree_skb_irq(skb); - return 0; - } - return pbpctl_dev->hard_start_xmit_save(skb, dev); -} -#endif - -static int set_bypass_wd_auto(struct bpctl_dev *pbpctl_dev, unsigned int param) -{ - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - if (pbpctl_dev->reset_time != param) { - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - pbpctl_dev->reset_time = - (param < - WDT_AUTO_MIN_INT) ? WDT_AUTO_MIN_INT : - param; - else - pbpctl_dev->reset_time = param; - if (param) - mod_timer(&pbpctl_dev->bp_timer, jiffies); - } - return 0; - } - return BP_NOT_CAP; -} - -static int get_bypass_wd_auto(struct bpctl_dev *pbpctl_dev) -{ - if (pbpctl_dev->bp_caps & WD_CTL_CAP) - return pbpctl_dev->reset_time; - - return BP_NOT_CAP; -} - -#ifdef BP_SELF_TEST - -int set_bp_self_test(struct bpctl_dev *pbpctl_dev, unsigned int param) -{ - struct bpctl_dev *pbpctl_dev_sl = NULL; - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - pbpctl_dev->bp_self_test_flag = param == 0 ? 0 : 1; - pbpctl_dev_sl = get_status_port_fn(pbpctl_dev); - - if ((pbpctl_dev_sl->ndev) && (pbpctl_dev_sl->ndev->netdev_ops)) { - rtnl_lock(); - if (pbpctl_dev->bp_self_test_flag == 1) { - - pbpctl_dev_sl->old_ops = - pbpctl_dev_sl->ndev->netdev_ops; - pbpctl_dev_sl->new_ops = - *pbpctl_dev_sl->old_ops; - pbpctl_dev_sl->new_ops.ndo_start_xmit = - bp_hard_start_xmit; - pbpctl_dev_sl->ndev->netdev_ops = - &pbpctl_dev_sl->new_ops; - - } else if (pbpctl_dev_sl->old_ops) { - pbpctl_dev_sl->ndev->netdev_ops = - pbpctl_dev_sl->old_ops; - pbpctl_dev_sl->old_ops = NULL; - } - rtnl_unlock(); - } - - set_bypass_wd_auto(pbpctl_dev, param); - return 0; - } - return BP_NOT_CAP; -} - -int get_bp_self_test(struct bpctl_dev *pbpctl_dev) -{ - - if (pbpctl_dev->bp_caps & WD_CTL_CAP) { - if (pbpctl_dev->bp_self_test_flag == 1) - return pbpctl_dev->reset_time; - else - return 0; - } - return BP_NOT_CAP; -} - -#endif - -/**************************************************************/ -/************************* API ********************************/ -/**************************************************************/ - -int is_bypass_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return (((pbpctl_dev->func == 0) || (pbpctl_dev->func == 2)) ? 1 : 0); -} - -static int set_bypass_fn(struct bpctl_dev *pbpctl_dev, int bypass_mode) -{ - int ret = 0; - - if (!(pbpctl_dev->bp_caps & BP_CAP)) - return BP_NOT_CAP; - ret = cmnd_on(pbpctl_dev); - if (ret < 0) - return ret; - if (!bypass_mode) - ret = bypass_off(pbpctl_dev); - else - ret = bypass_on(pbpctl_dev); - cmnd_off(pbpctl_dev); - - return ret; -} - -static int get_bypass_fn(struct bpctl_dev *pbpctl_dev) -{ - return bypass_status(pbpctl_dev); -} - -static int get_bypass_change_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return bypass_change_status(pbpctl_dev); -} - -static int set_dis_bypass_fn(struct bpctl_dev *pbpctl_dev, int dis_param) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if (!(pbpctl_dev->bp_caps & BP_DIS_CAP)) - return BP_NOT_CAP; - ret = cmnd_on(pbpctl_dev); - if (ret < 0) - return ret; - if (dis_param) - ret = dis_bypass_cap(pbpctl_dev); - else - ret = en_bypass_cap(pbpctl_dev); - cmnd_off(pbpctl_dev); - return ret; -} - -static int get_dis_bypass_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return dis_bypass_cap_status(pbpctl_dev); -} - -static int set_bypass_pwoff_fn(struct bpctl_dev *pbpctl_dev, int bypass_mode) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if (!(pbpctl_dev->bp_caps & BP_PWOFF_CTL_CAP)) - return BP_NOT_CAP; - ret = cmnd_on(pbpctl_dev); - if (ret < 0) - return ret; - if (bypass_mode) - ret = bypass_state_pwroff(pbpctl_dev); - else - ret = normal_state_pwroff(pbpctl_dev); - cmnd_off(pbpctl_dev); - return ret; -} - -static int get_bypass_pwoff_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return default_pwroff_status(pbpctl_dev); -} - -static int set_bypass_pwup_fn(struct bpctl_dev *pbpctl_dev, int bypass_mode) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if (!(pbpctl_dev->bp_caps & BP_PWUP_CTL_CAP)) - return BP_NOT_CAP; - ret = cmnd_on(pbpctl_dev); - if (ret < 0) - return ret; - if (bypass_mode) - ret = bypass_state_pwron(pbpctl_dev); - else - ret = normal_state_pwron(pbpctl_dev); - cmnd_off(pbpctl_dev); - return ret; -} - -static int get_bypass_pwup_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return default_pwron_status(pbpctl_dev); -} - -static int set_bypass_wd_fn(struct bpctl_dev *pbpctl_dev, int timeout) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if (!(pbpctl_dev->bp_caps & WD_CTL_CAP)) - return BP_NOT_CAP; - - ret = cmnd_on(pbpctl_dev); - if (ret < 0) - return ret; - if (!timeout) - ret = wdt_off(pbpctl_dev); - else { - wdt_on(pbpctl_dev, timeout); - ret = pbpctl_dev->bypass_timer_interval; - } - cmnd_off(pbpctl_dev); - return ret; -} - -static int get_bypass_wd_fn(struct bpctl_dev *pbpctl_dev, int *timeout) -{ - if (!pbpctl_dev) - return -1; - - return wdt_programmed(pbpctl_dev, timeout); -} - -static int get_wd_expire_time_fn(struct bpctl_dev *pbpctl_dev, int *time_left) -{ - if (!pbpctl_dev) - return -1; - - return wdt_timer(pbpctl_dev, time_left); -} - -static int reset_bypass_wd_timer_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return wdt_timer_reload(pbpctl_dev); -} - -static int get_wd_set_caps_fn(struct bpctl_dev *pbpctl_dev) -{ - int bp_status = 0; - unsigned int step_value = TIMEOUT_MAX_STEP + 1, bit_cnt = 0; - - if (!pbpctl_dev) - return -1; - - if (INTEL_IF_SERIES(pbpctl_dev->subdevice)) - return BP_NOT_CAP; - - while ((step_value >>= 1)) - bit_cnt++; - - if (is_bypass_fn(pbpctl_dev)) { - bp_status = - WD_STEP_COUNT_MASK(bit_cnt) | WDT_STEP_TIME | - WD_MIN_TIME_MASK(TIMEOUT_UNIT / 100); - } else - return -1; - - return bp_status; -} - -static int set_std_nic_fn(struct bpctl_dev *pbpctl_dev, int nic_mode) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if (!(pbpctl_dev->bp_caps & STD_NIC_CAP)) - return BP_NOT_CAP; - - ret = cmnd_on(pbpctl_dev); - if (ret < 0) - return ret; - if (nic_mode) - ret = std_nic_on(pbpctl_dev); - else - ret = std_nic_off(pbpctl_dev); - cmnd_off(pbpctl_dev); - return ret; -} - -static int get_std_nic_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return std_nic_status(pbpctl_dev); -} - -static int set_tap_fn(struct bpctl_dev *pbpctl_dev, int tap_mode) -{ - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & TAP_CAP) && ((cmnd_on(pbpctl_dev)) >= 0)) { - if (!tap_mode) - tap_off(pbpctl_dev); - else - tap_on(pbpctl_dev); - cmnd_off(pbpctl_dev); - return 0; - } - return BP_NOT_CAP; -} - -static int get_tap_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return tap_status(pbpctl_dev); -} - -static int set_tap_pwup_fn(struct bpctl_dev *pbpctl_dev, int tap_mode) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & TAP_PWUP_CTL_CAP) - && ((cmnd_on(pbpctl_dev)) >= 0)) { - if (tap_mode) - ret = tap_state_pwron(pbpctl_dev); - else - ret = normal_state_pwron(pbpctl_dev); - cmnd_off(pbpctl_dev); - } else - ret = BP_NOT_CAP; - return ret; -} - -static int get_tap_pwup_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - ret = default_pwron_tap_status(pbpctl_dev); - if (ret < 0) - return ret; - return ((ret == 0) ? 1 : 0); -} - -static int get_tap_change_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return tap_change_status(pbpctl_dev); -} - -static int set_dis_tap_fn(struct bpctl_dev *pbpctl_dev, int dis_param) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & TAP_DIS_CAP) && ((cmnd_on(pbpctl_dev)) >= 0)) { - if (dis_param) - ret = dis_tap_cap(pbpctl_dev); - else - ret = en_tap_cap(pbpctl_dev); - cmnd_off(pbpctl_dev); - return ret; - } else - return BP_NOT_CAP; -} - -static int get_dis_tap_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return dis_tap_cap_status(pbpctl_dev); -} - -static int set_disc_fn(struct bpctl_dev *pbpctl_dev, int disc_mode) -{ - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & DISC_CAP) && ((cmnd_on(pbpctl_dev)) >= 0)) { - if (!disc_mode) - disc_off(pbpctl_dev); - else - disc_on(pbpctl_dev); - cmnd_off(pbpctl_dev); - - return BP_OK; - } - return BP_NOT_CAP; -} - -static int get_disc_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - ret = disc_status(pbpctl_dev); - - return ret; -} - -static int set_disc_pwup_fn(struct bpctl_dev *pbpctl_dev, int disc_mode) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & DISC_PWUP_CTL_CAP) - && ((cmnd_on(pbpctl_dev)) >= 0)) { - if (disc_mode) - ret = disc_state_pwron(pbpctl_dev); - else - ret = normal_state_pwron(pbpctl_dev); - cmnd_off(pbpctl_dev); - } else - ret = BP_NOT_CAP; - return ret; -} - -static int get_disc_pwup_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - ret = default_pwron_disc_status(pbpctl_dev); - return (ret == 0 ? 1 : (ret < 0 ? BP_NOT_CAP : 0)); -} - -static int get_disc_change_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - ret = disc_change_status(pbpctl_dev); - return ret; -} - -static int set_dis_disc_fn(struct bpctl_dev *pbpctl_dev, int dis_param) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & DISC_DIS_CAP) - && ((cmnd_on(pbpctl_dev)) >= 0)) { - if (dis_param) - ret = dis_disc_cap(pbpctl_dev); - else - ret = en_disc_cap(pbpctl_dev); - cmnd_off(pbpctl_dev); - return ret; - } else - return BP_NOT_CAP; -} - -static int get_dis_disc_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - ret = dis_disc_cap_status(pbpctl_dev); - - return ret; -} - -static int get_wd_exp_mode_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return wdt_exp_mode_status(pbpctl_dev); -} - -static int set_wd_exp_mode_fn(struct bpctl_dev *pbpctl_dev, int param) -{ - if (!pbpctl_dev) - return -1; - - return wdt_exp_mode(pbpctl_dev, param); -} - -static int set_tx_fn(struct bpctl_dev *pbpctl_dev, int tx_state) -{ - struct bpctl_dev *pbpctl_dev_b = NULL; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & TPL_CAP) && - (pbpctl_dev->bp_caps & SW_CTL_CAP)) { - if ((pbpctl_dev->bp_tpl_flag)) - return BP_NOT_CAP; - } else { - pbpctl_dev_b = get_master_port_fn(pbpctl_dev); - if (pbpctl_dev_b && - (pbpctl_dev_b->bp_caps & TPL_CAP) && - (pbpctl_dev_b->bp_tpl_flag)) - return BP_NOT_CAP; - } - return set_tx(pbpctl_dev, tx_state); -} - -static int set_bp_force_link_fn(int dev_num, int tx_state) -{ - static struct bpctl_dev *bpctl_dev_curr; - - if ((dev_num < 0) || (dev_num > device_num) - || (bpctl_dev_arr[dev_num].pdev == NULL)) - return -1; - bpctl_dev_curr = &bpctl_dev_arr[dev_num]; - - return set_bp_force_link(bpctl_dev_curr, tx_state); -} - -static int set_wd_autoreset_fn(struct bpctl_dev *pbpctl_dev, int param) -{ - if (!pbpctl_dev) - return -1; - - return set_bypass_wd_auto(pbpctl_dev, param); -} - -static int get_wd_autoreset_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return get_bypass_wd_auto(pbpctl_dev); -} - -#ifdef BP_SELF_TEST -int set_bp_self_test_fn(struct bpctl_dev *pbpctl_dev, int param) -{ - if (!pbpctl_dev) - return -1; - - return set_bp_self_test(pbpctl_dev, param); -} - -int get_bp_self_test_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return get_bp_self_test(pbpctl_dev); -} - -#endif - -static int get_bypass_caps_fn(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - return pbpctl_dev->bp_caps; - -} - -static int get_bypass_slave_fn(struct bpctl_dev *pbpctl_dev, - struct bpctl_dev **pbpctl_dev_out) -{ - int idx_dev = 0; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->func == 0) || (pbpctl_dev->func == 2)) { - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].pdev != NULL) - && (idx_dev < device_num)); idx_dev++) { - if ((bpctl_dev_arr[idx_dev].bus == pbpctl_dev->bus) - && (bpctl_dev_arr[idx_dev].slot == - pbpctl_dev->slot)) { - if ((pbpctl_dev->func == 0) - && (bpctl_dev_arr[idx_dev].func == 1)) { - *pbpctl_dev_out = - &bpctl_dev_arr[idx_dev]; - return 1; - } - if ((pbpctl_dev->func == 2) && - (bpctl_dev_arr[idx_dev].func == 3)) { - *pbpctl_dev_out = - &bpctl_dev_arr[idx_dev]; - return 1; - } - } - } - return -1; - } else - return 0; -} - -static int is_bypass(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->func == 0) || (pbpctl_dev->func == 2)) - return 1; - else - return 0; -} - -static int get_tx_fn(struct bpctl_dev *pbpctl_dev) -{ - struct bpctl_dev *pbpctl_dev_b = NULL; - - if (!pbpctl_dev) - return -1; - - if ((pbpctl_dev->bp_caps & TPL_CAP) && - (pbpctl_dev->bp_caps & SW_CTL_CAP)) { - if ((pbpctl_dev->bp_tpl_flag)) - return BP_NOT_CAP; - } else { - pbpctl_dev_b = get_master_port_fn(pbpctl_dev); - if (pbpctl_dev_b && - (pbpctl_dev_b->bp_caps & TPL_CAP) && - (pbpctl_dev_b->bp_tpl_flag)) - return BP_NOT_CAP; - } - return tx_status(pbpctl_dev); -} - -static int get_bp_force_link_fn(int dev_num) -{ - static struct bpctl_dev *bpctl_dev_curr; - - if ((dev_num < 0) || (dev_num > device_num) - || (bpctl_dev_arr[dev_num].pdev == NULL)) - return -1; - bpctl_dev_curr = &bpctl_dev_arr[dev_num]; - - return bp_force_link_status(bpctl_dev_curr); -} - -static int get_bypass_link_status(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->media_type == BP_FIBER) - return ((BPCTL_READ_REG(pbpctl_dev, CTRL) & - BPCTLI_CTRL_SWDPIN1)); - else - return ((BPCTL_READ_REG(pbpctl_dev, STATUS) & - BPCTLI_STATUS_LU)); - -} - -static void bp_tpl_timer_fn(unsigned long param) -{ - struct bpctl_dev *pbpctl_dev = (struct bpctl_dev *) param; - uint32_t link1, link2; - struct bpctl_dev *pbpctl_dev_b = NULL; - - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (!pbpctl_dev_b) - return; - - if (!pbpctl_dev->bp_tpl_flag) { - set_tx(pbpctl_dev_b, 1); - set_tx(pbpctl_dev, 1); - return; - } - link1 = get_bypass_link_status(pbpctl_dev); - - link2 = get_bypass_link_status(pbpctl_dev_b); - if ((link1) && (tx_status(pbpctl_dev))) { - if ((!link2) && (tx_status(pbpctl_dev_b))) - set_tx(pbpctl_dev, 0); - else if (!tx_status(pbpctl_dev_b)) - set_tx(pbpctl_dev_b, 1); - } else if ((!link1) && (tx_status(pbpctl_dev))) { - if ((link2) && (tx_status(pbpctl_dev_b))) - set_tx(pbpctl_dev_b, 0); - } else if ((link1) && (!tx_status(pbpctl_dev))) { - if ((link2) && (tx_status(pbpctl_dev_b))) - set_tx(pbpctl_dev, 1); - } else if ((!link1) && (!tx_status(pbpctl_dev))) { - if ((link2) && (tx_status(pbpctl_dev_b))) - set_tx(pbpctl_dev, 1); - } - - mod_timer(&pbpctl_dev->bp_tpl_timer, jiffies + BP_LINK_MON_DELAY * HZ); -} - -static void remove_bypass_tpl_auto(struct bpctl_dev *pbpctl_dev) -{ - struct bpctl_dev *pbpctl_dev_b; - if (!pbpctl_dev) - return; - - if (pbpctl_dev->bp_caps & TPL_CAP) { - del_timer_sync(&pbpctl_dev->bp_tpl_timer); - pbpctl_dev->bp_tpl_flag = 0; - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (pbpctl_dev_b) - set_tx(pbpctl_dev_b, 1); - set_tx(pbpctl_dev, 1); - } - return; -} - -static int init_bypass_tpl_auto(struct bpctl_dev *pbpctl_dev) -{ - if (!pbpctl_dev) - return -1; - if (pbpctl_dev->bp_caps & TPL_CAP) { - init_timer(&pbpctl_dev->bp_tpl_timer); - pbpctl_dev->bp_tpl_timer.function = &bp_tpl_timer_fn; - pbpctl_dev->bp_tpl_timer.data = (unsigned long)pbpctl_dev; - return BP_OK; - } - return BP_NOT_CAP; -} - -static int set_bypass_tpl_auto(struct bpctl_dev *pbpctl_dev, unsigned int param) -{ - if (!pbpctl_dev) - return -1; - if (pbpctl_dev->bp_caps & TPL_CAP) { - if ((param) && (!pbpctl_dev->bp_tpl_flag)) { - pbpctl_dev->bp_tpl_flag = param; - mod_timer(&pbpctl_dev->bp_tpl_timer, jiffies + 1); - return BP_OK; - } - if ((!param) && (pbpctl_dev->bp_tpl_flag)) - remove_bypass_tpl_auto(pbpctl_dev); - - return BP_OK; - } - return BP_NOT_CAP; -} - -static int set_tpl_fn(struct bpctl_dev *pbpctl_dev, int tpl_mode) -{ - - struct bpctl_dev *pbpctl_dev_b; - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_caps & TPL_CAP) { - if (tpl_mode) { - pbpctl_dev_b = get_status_port_fn(pbpctl_dev); - if (pbpctl_dev_b) - set_tx(pbpctl_dev_b, 1); - set_tx(pbpctl_dev, 1); - } - if ((TPL_IF_SERIES(pbpctl_dev->subdevice)) || - (pbpctl_dev->bp_caps_ex & TPL2_CAP_EX)) { - pbpctl_dev->bp_tpl_flag = tpl_mode; - if (!tpl_mode) - tpl_hw_off(pbpctl_dev); - else - tpl_hw_on(pbpctl_dev); - } else - set_bypass_tpl_auto(pbpctl_dev, tpl_mode); - return 0; - } - return BP_NOT_CAP; -} - -static int get_tpl_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = BP_NOT_CAP; - - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_caps & TPL_CAP) { - if (pbpctl_dev->bp_caps_ex & TPL2_CAP_EX) - return tpl2_flag_status(pbpctl_dev); - ret = pbpctl_dev->bp_tpl_flag; - } - return ret; -} - -static int set_bp_wait_at_pwup_fn(struct bpctl_dev *pbpctl_dev, int tap_mode) -{ - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - /* bp_lock(pbp_device_block); */ - cmnd_on(pbpctl_dev); - if (!tap_mode) - bp_wait_at_pwup_dis(pbpctl_dev); - else - bp_wait_at_pwup_en(pbpctl_dev); - cmnd_off(pbpctl_dev); - - /* bp_unlock(pbp_device_block); */ - return BP_OK; - } - return BP_NOT_CAP; -} - -static int get_bp_wait_at_pwup_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - /* bp_lock(pbp_device_block); */ - ret = bp_wait_at_pwup_status(pbpctl_dev); - /* bp_unlock(pbp_device_block); */ - - return ret; -} - -static int set_bp_hw_reset_fn(struct bpctl_dev *pbpctl_dev, int tap_mode) -{ - if (!pbpctl_dev) - return -1; - - if (pbpctl_dev->bp_caps & SW_CTL_CAP) { - /* bp_lock(pbp_device_block); */ - cmnd_on(pbpctl_dev); - - if (!tap_mode) - bp_hw_reset_dis(pbpctl_dev); - else - bp_hw_reset_en(pbpctl_dev); - cmnd_off(pbpctl_dev); - /* bp_unlock(pbp_device_block); */ - return BP_OK; - } - return BP_NOT_CAP; -} - -static int get_bp_hw_reset_fn(struct bpctl_dev *pbpctl_dev) -{ - int ret = 0; - - if (!pbpctl_dev) - return -1; - - /* bp_lock(pbp_device_block); */ - ret = bp_hw_reset_status(pbpctl_dev); - - /* bp_unlock(pbp_device_block); */ - - return ret; -} - - -static int get_bypass_info_fn(struct bpctl_dev *pbpctl_dev, char *dev_name, - char *add_param) -{ - if (!pbpctl_dev) - return -1; - if (!is_bypass_fn(pbpctl_dev)) - return -1; - strcpy(dev_name, pbpctl_dev->name); - *add_param = pbpctl_dev->bp_fw_ver; - return 0; -} - -static int get_dev_idx_bsf(int bus, int slot, int func) -{ - int idx_dev = 0; - - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].pdev != NULL) && (idx_dev < device_num)); - idx_dev++) { - if ((bus == bpctl_dev_arr[idx_dev].bus) - && (slot == bpctl_dev_arr[idx_dev].slot) - && (func == bpctl_dev_arr[idx_dev].func)) - - return idx_dev; - } - return -1; -} - -static int get_dev_idx(int ifindex) -{ - int idx_dev = 0; - - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].pdev != NULL) && (idx_dev < device_num)); - idx_dev++) { - if (ifindex == bpctl_dev_arr[idx_dev].ifindex) - return idx_dev; - } - - return -1; -} - -static struct bpctl_dev *get_dev_idx_p(int ifindex) -{ - int idx_dev = 0; - - for (idx_dev = 0; - ((bpctl_dev_arr[idx_dev].pdev != NULL) && (idx_dev < device_num)); - idx_dev++) { - if (ifindex == bpctl_dev_arr[idx_dev].ifindex) - return &bpctl_dev_arr[idx_dev]; - } - - return NULL; -} - -static void if_scan_init(void) -{ - struct net_device *dev; - - /* rcu_read_lock(); */ - /* rtnl_lock(); */ - /* rcu_read_lock(); */ - - for_each_netdev(&init_net, dev) { - int idx_dev; - - if (bp_get_dev_idx_bsf(dev, &idx_dev)) - continue; - - if (idx_dev == -1) - continue; - - bpctl_dev_arr[idx_dev].ifindex = dev->ifindex; - bpctl_dev_arr[idx_dev].ndev = dev; - } - /* rtnl_unlock(); */ - /* rcu_read_unlock(); */ -} - -static long device_ioctl(struct file *file, /* see include/linux/fs.h */ - unsigned int ioctl_num, /* number and param for ioctl */ - unsigned long ioctl_param) -{ - struct bpctl_cmd bpctl_cmd; - int dev_idx = 0; - struct bpctl_dev *pbpctl_dev_out; - void __user *argp = (void __user *)ioctl_param; - int ret = 0; - unsigned long flags; - - static struct bpctl_dev *pbpctl_dev; - - /* lock_kernel(); */ - if (down_interruptible(&bpctl_sema)) - return -ERESTARTSYS; - /* local_irq_save(flags); */ - /* if(!spin_trylock_irqsave(&bpvm_lock)){ - local_irq_restore(flags); - unlock_bpctl(); - unlock_kernel(); - return -1; - } */ - /* spin_lock_irqsave(&bpvm_lock, flags); */ - -/* -* Switch according to the ioctl called -*/ - if (ioctl_num == IOCTL_TX_MSG(IF_SCAN)) { - if_scan_init(); - ret = SUCCESS; - goto bp_exit; - } - if (copy_from_user(&bpctl_cmd, argp, sizeof(struct bpctl_cmd))) { - - ret = -EFAULT; - goto bp_exit; - } - - if (ioctl_num == IOCTL_TX_MSG(GET_DEV_NUM)) { - bpctl_cmd.out_param[0] = device_num; - if (copy_to_user - (argp, (void *)&bpctl_cmd, sizeof(struct bpctl_cmd))) { - ret = -EFAULT; - goto bp_exit; - } - ret = SUCCESS; - goto bp_exit; - - } - /* lock_bpctl(); */ - /* preempt_disable(); */ - local_irq_save(flags); - if (!spin_trylock(&bpvm_lock)) { - local_irq_restore(flags); - unlock_bpctl(); - return -1; - } - -/* preempt_disable(); - rcu_read_lock(); - spin_lock_irqsave(&bpvm_lock, flags); -*/ - if ((bpctl_cmd.in_param[5]) || - (bpctl_cmd.in_param[6]) || (bpctl_cmd.in_param[7])) - dev_idx = get_dev_idx_bsf(bpctl_cmd.in_param[5], - bpctl_cmd.in_param[6], - bpctl_cmd.in_param[7]); - else if (bpctl_cmd.in_param[1] == 0) - dev_idx = bpctl_cmd.in_param[0]; - else - dev_idx = get_dev_idx(bpctl_cmd.in_param[1]); - - if (dev_idx < 0 || dev_idx > device_num) { - /* unlock_bpctl(); - preempt_enable(); */ - ret = -EOPNOTSUPP; - /* preempt_enable(); - rcu_read_unlock(); */ - spin_unlock_irqrestore(&bpvm_lock, flags); - goto bp_exit; - } - - bpctl_cmd.out_param[0] = bpctl_dev_arr[dev_idx].bus; - bpctl_cmd.out_param[1] = bpctl_dev_arr[dev_idx].slot; - bpctl_cmd.out_param[2] = bpctl_dev_arr[dev_idx].func; - bpctl_cmd.out_param[3] = bpctl_dev_arr[dev_idx].ifindex; - - if ((bpctl_dev_arr[dev_idx].bp_10gb) - && (!(bpctl_dev_arr[dev_idx].ifindex))) { - printk("Please load network driver for %s adapter!\n", - bpctl_dev_arr[dev_idx].name); - bpctl_cmd.status = -1; - ret = SUCCESS; - /* preempt_enable(); */ - /* rcu_read_unlock(); */ - spin_unlock_irqrestore(&bpvm_lock, flags); - goto bp_exit; - - } - if ((bpctl_dev_arr[dev_idx].bp_10gb) && (bpctl_dev_arr[dev_idx].ndev)) { - if (!(bpctl_dev_arr[dev_idx].ndev->flags & IFF_UP)) { - if (!(bpctl_dev_arr[dev_idx].ndev->flags & IFF_UP)) { - printk - ("Please bring up network interfaces for %s adapter!\n", - bpctl_dev_arr[dev_idx].name); - bpctl_cmd.status = -1; - ret = SUCCESS; - /* preempt_enable(); */ - /* rcu_read_unlock(); */ - spin_unlock_irqrestore(&bpvm_lock, flags); - goto bp_exit; - } - - } - } - - if ((dev_idx < 0) || (dev_idx > device_num) - || (bpctl_dev_arr[dev_idx].pdev == NULL)) { - bpctl_cmd.status = -1; - goto bpcmd_exit; - } - - pbpctl_dev = &bpctl_dev_arr[dev_idx]; - - switch (ioctl_num) { - case IOCTL_TX_MSG(SET_BYPASS_PWOFF): - bpctl_cmd.status = - set_bypass_pwoff_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BYPASS_PWOFF): - bpctl_cmd.status = get_bypass_pwoff_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_BYPASS_PWUP): - bpctl_cmd.status = - set_bypass_pwup_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BYPASS_PWUP): - bpctl_cmd.status = get_bypass_pwup_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_BYPASS_WD): - bpctl_cmd.status = - set_bypass_wd_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BYPASS_WD): - bpctl_cmd.status = - get_bypass_wd_fn(pbpctl_dev, (int *)&(bpctl_cmd.data[0])); - break; - - case IOCTL_TX_MSG(GET_WD_EXPIRE_TIME): - bpctl_cmd.status = - get_wd_expire_time_fn(pbpctl_dev, - (int *)&(bpctl_cmd.data[0])); - break; - - case IOCTL_TX_MSG(RESET_BYPASS_WD_TIMER): - bpctl_cmd.status = reset_bypass_wd_timer_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(GET_WD_SET_CAPS): - bpctl_cmd.status = get_wd_set_caps_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_STD_NIC): - bpctl_cmd.status = - set_std_nic_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_STD_NIC): - bpctl_cmd.status = get_std_nic_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_TAP): - bpctl_cmd.status = - set_tap_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_TAP): - bpctl_cmd.status = get_tap_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(GET_TAP_CHANGE): - bpctl_cmd.status = get_tap_change_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_DIS_TAP): - bpctl_cmd.status = - set_dis_tap_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_DIS_TAP): - bpctl_cmd.status = get_dis_tap_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_TAP_PWUP): - bpctl_cmd.status = - set_tap_pwup_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_TAP_PWUP): - bpctl_cmd.status = get_tap_pwup_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_WD_EXP_MODE): - bpctl_cmd.status = - set_wd_exp_mode_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_WD_EXP_MODE): - bpctl_cmd.status = get_wd_exp_mode_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(GET_DIS_BYPASS): - bpctl_cmd.status = get_dis_bypass_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_DIS_BYPASS): - bpctl_cmd.status = - set_dis_bypass_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BYPASS_CHANGE): - bpctl_cmd.status = get_bypass_change_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(GET_BYPASS): - bpctl_cmd.status = get_bypass_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_BYPASS): - bpctl_cmd.status = - set_bypass_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BYPASS_CAPS): - bpctl_cmd.status = get_bypass_caps_fn(pbpctl_dev); - /*preempt_enable(); */ - /*rcu_read_unlock();*/ - spin_unlock_irqrestore(&bpvm_lock, flags); - if (copy_to_user - (argp, (void *)&bpctl_cmd, sizeof(struct bpctl_cmd))) { - /*unlock_bpctl(); */ - /*preempt_enable(); */ - ret = -EFAULT; - goto bp_exit; - } - goto bp_exit; - - case IOCTL_TX_MSG(GET_BYPASS_SLAVE): - bpctl_cmd.status = - get_bypass_slave_fn(pbpctl_dev, &pbpctl_dev_out); - if (bpctl_cmd.status == 1) { - bpctl_cmd.out_param[4] = pbpctl_dev_out->bus; - bpctl_cmd.out_param[5] = pbpctl_dev_out->slot; - bpctl_cmd.out_param[6] = pbpctl_dev_out->func; - bpctl_cmd.out_param[7] = pbpctl_dev_out->ifindex; - } - break; - - case IOCTL_TX_MSG(IS_BYPASS): - bpctl_cmd.status = is_bypass(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_TX): - bpctl_cmd.status = set_tx_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - case IOCTL_TX_MSG(GET_TX): - bpctl_cmd.status = get_tx_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_WD_AUTORESET): - bpctl_cmd.status = - set_wd_autoreset_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - - break; - case IOCTL_TX_MSG(GET_WD_AUTORESET): - - bpctl_cmd.status = get_wd_autoreset_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_DISC): - bpctl_cmd.status = - set_disc_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - case IOCTL_TX_MSG(GET_DISC): - bpctl_cmd.status = get_disc_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(GET_DISC_CHANGE): - bpctl_cmd.status = get_disc_change_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_DIS_DISC): - bpctl_cmd.status = - set_dis_disc_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - case IOCTL_TX_MSG(GET_DIS_DISC): - bpctl_cmd.status = get_dis_disc_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_DISC_PWUP): - bpctl_cmd.status = - set_disc_pwup_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - case IOCTL_TX_MSG(GET_DISC_PWUP): - bpctl_cmd.status = get_disc_pwup_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(GET_BYPASS_INFO): - - bpctl_cmd.status = - get_bypass_info_fn(pbpctl_dev, (char *)&bpctl_cmd.data, - (char *)&bpctl_cmd.out_param[4]); - break; - - case IOCTL_TX_MSG(SET_TPL): - bpctl_cmd.status = - set_tpl_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_TPL): - bpctl_cmd.status = get_tpl_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_BP_WAIT_AT_PWUP): - bpctl_cmd.status = - set_bp_wait_at_pwup_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BP_WAIT_AT_PWUP): - bpctl_cmd.status = get_bp_wait_at_pwup_fn(pbpctl_dev); - break; - case IOCTL_TX_MSG(SET_BP_HW_RESET): - bpctl_cmd.status = - set_bp_hw_reset_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BP_HW_RESET): - bpctl_cmd.status = get_bp_hw_reset_fn(pbpctl_dev); - break; -#ifdef BP_SELF_TEST - case IOCTL_TX_MSG(SET_BP_SELF_TEST): - bpctl_cmd.status = - set_bp_self_test_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - - break; - case IOCTL_TX_MSG(GET_BP_SELF_TEST): - bpctl_cmd.status = get_bp_self_test_fn(pbpctl_dev); - break; - -#endif -#if 0 - case IOCTL_TX_MSG(SET_DISC_PORT): - bpctl_cmd.status = - set_disc_port_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_DISC_PORT): - bpctl_cmd.status = get_disc_port_fn(pbpctl_dev); - break; - - case IOCTL_TX_MSG(SET_DISC_PORT_PWUP): - bpctl_cmd.status = - set_disc_port_pwup_fn(pbpctl_dev, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_DISC_PORT_PWUP): - bpctl_cmd.status = get_disc_port_pwup_fn(pbpctl_dev); - break; -#endif - case IOCTL_TX_MSG(SET_BP_FORCE_LINK): - bpctl_cmd.status = - set_bp_force_link_fn(dev_idx, bpctl_cmd.in_param[2]); - break; - - case IOCTL_TX_MSG(GET_BP_FORCE_LINK): - bpctl_cmd.status = get_bp_force_link_fn(dev_idx); - break; - - default: - /* unlock_bpctl(); */ - - ret = -EOPNOTSUPP; - /* preempt_enable(); */ - /* rcu_read_unlock();*/ - spin_unlock_irqrestore(&bpvm_lock, flags); - goto bp_exit; - } - /* unlock_bpctl(); */ - /* preempt_enable(); */ - bpcmd_exit: - /* rcu_read_unlock(); */ - spin_unlock_irqrestore(&bpvm_lock, flags); - if (copy_to_user(argp, (void *)&bpctl_cmd, sizeof(struct bpctl_cmd))) - ret = -EFAULT; - ret = SUCCESS; - bp_exit: - /* unlock_kernel(); */ - /* spin_unlock_irqrestore(&bpvm_lock, flags); */ - unlock_bpctl(); - /* unlock_kernel(); */ - return ret; -} - -static const struct file_operations Fops = { - .owner = THIS_MODULE, - .unlocked_ioctl = device_ioctl, -}; - -#ifndef PCI_DEVICE -#define PCI_DEVICE(vend, dev) \ - .vendor = (vend), .device = (dev), \ - .subvendor = PCI_ANY_ID, .subdevice = PCI_ANY_ID -#endif - -#define SILICOM_E1000BP_ETHERNET_DEVICE(device_id) {\ - PCI_DEVICE(SILICOM_VID, device_id)} - -enum board_type { - PXG2BPFI, - PXG2BPFIL, - PXG2BPFILX, - PXG2BPFILLX, - PXGBPI, - PXGBPIG, - PXG2TBFI, - PXG4BPI, - PXG4BPFI, - PEG4BPI, - PEG2BPI, - PEG4BPIN, - PEG2BPFI, - PEG2BPFILX, - PMCXG2BPFI, - PMCXG2BPFIN, - PEG4BPII, - PEG4BPFII, - PXG4BPFILX, - PMCXG2BPIN, - PMCXG4BPIN, - PXG2BISC1, - PEG2TBFI, - PXG2TBI, - PXG4BPFID, - PEG4BPFI, - PEG4BPIPT, - PXG6BPI, - PEG4BPIL, - PMCXG2BPIN2, - PMCXG4BPIN2, - PMCX2BPI, - PEG2BPFID, - PEG2BPFIDLX, - PMCX4BPI, - MEG2BPFILN, - MEG2BPFINX, - PEG4BPFILX, - PE10G2BPISR, - PE10G2BPILR, - MHIO8AD, - PE10G2BPICX4, - PEG2BPI5, - PEG6BPI, - PEG4BPFI5, - PEG4BPFI5LX, - MEG2BPFILXLN, - PEG2BPIX1, - MEG2BPFILXNX, - XE10G2BPIT, - XE10G2BPICX4, - XE10G2BPISR, - XE10G2BPILR, - PEG4BPIIO, - XE10G2BPIXR, - PE10GDBISR, - PE10GDBILR, - PEG2BISC6, - PEG6BPIFC, - PE10G2BPTCX4, - PE10G2BPTSR, - PE10G2BPTLR, - PE10G2BPTT, - PEG4BPI6, - PEG4BPFI6, - PEG4BPFI6LX, - PEG4BPFI6ZX, - PEG2BPI6, - PEG2BPFI6, - PEG2BPFI6LX, - PEG2BPFI6ZX, - PEG2BPFI6FLXM, - PEG4BPI6FC, - PEG4BPFI6FC, - PEG4BPFI6FCLX, - PEG4BPFI6FCZX, - PEG6BPI6, - PEG2BPI6SC6, - MEG2BPI6, - XEG2BPI6, - MEG4BPI6, - PEG2BPFI5, - PEG2BPFI5LX, - PXEG4BPFI, - M1EG2BPI6, - M1EG2BPFI6, - M1EG2BPFI6LX, - M1EG2BPFI6ZX, - M1EG4BPI6, - M1EG4BPFI6, - M1EG4BPFI6LX, - M1EG4BPFI6ZX, - M1EG6BPI6, - M1E2G4BPi80, - M1E2G4BPFi80, - M1E2G4BPFi80LX, - M1E2G4BPFi80ZX, - PE210G2SPI9, - M1E10G2BPI9CX4, - M1E10G2BPI9SR, - M1E10G2BPI9LR, - M1E10G2BPI9T, - PE210G2BPI9CX4, - PE210G2BPI9SR, - PE210G2BPI9LR, - PE210G2BPI9T, - M2EG2BPFI6, - M2EG2BPFI6LX, - M2EG2BPFI6ZX, - M2EG4BPI6, - M2EG4BPFI6, - M2EG4BPFI6LX, - M2EG4BPFI6ZX, - M2EG6BPI6, - PEG2DBI6, - PEG2DBFI6, - PEG2DBFI6LX, - PEG2DBFI6ZX, - PE2G4BPi80, - PE2G4BPFi80, - PE2G4BPFi80LX, - PE2G4BPFi80ZX, - PE2G4BPi80L, - M6E2G8BPi80A, - - PE2G2BPi35, - PAC1200BPi35, - PE2G2BPFi35, - PE2G2BPFi35LX, - PE2G2BPFi35ZX, - PE2G4BPi35, - PE2G4BPi35L, - PE2G4BPFi35, - PE2G4BPFi35LX, - PE2G4BPFi35ZX, - - PE2G6BPi35, - PE2G6BPi35CX, - - PE2G2BPi80, - PE2G2BPFi80, - PE2G2BPFi80LX, - PE2G2BPFi80ZX, - M2E10G2BPI9CX4, - M2E10G2BPI9SR, - M2E10G2BPI9LR, - M2E10G2BPI9T, - M6E2G8BPi80, - PE210G2DBi9SR, - PE210G2DBi9SRRB, - PE210G2DBi9LR, - PE210G2DBi9LRRB, - PE310G4DBi940SR, - PE310G4BPi9T, - PE310G4BPi9SR, - PE310G4BPi9LR, - PE210G2BPi40, -}; - -struct bpmod_info { - unsigned int vendor; - unsigned int device; - unsigned int subvendor; - unsigned int subdevice; - unsigned int index; - char *bp_name; - -}; - -struct { - char *name; -} dev_desc[] = { - {"Silicom Bypass PXG2BPFI-SD series adapter"}, - {"Silicom Bypass PXG2BPFIL-SD series adapter"}, - {"Silicom Bypass PXG2BPFILX-SD series adapter"}, - {"Silicom Bypass PXG2BPFILLX-SD series adapter"}, - {"Silicom Bypass PXG2BPI-SD series adapter"}, - {"Silicom Bypass PXG2BPIG-SD series adapter"}, - {"Silicom Bypass PXG2TBFI-SD series adapter"}, - {"Silicom Bypass PXG4BPI-SD series adapter"}, - {"Silicom Bypass PXG4BPFI-SD series adapter"}, - {"Silicom Bypass PEG4BPI-SD series adapter"}, - {"Silicom Bypass PEG2BPI-SD series adapter"}, - {"Silicom Bypass PEG4BPIN-SD series adapter"}, - {"Silicom Bypass PEG2BPFI-SD series adapter"}, - {"Silicom Bypass PEG2BPFI-LX-SD series adapter"}, - {"Silicom Bypass PMCX2BPFI-SD series adapter"}, - {"Silicom Bypass PMCX2BPFI-N series adapter"}, - {"Intel Bypass PEG2BPII series adapter"}, - {"Intel Bypass PEG2BPFII series adapter"}, - {"Silicom Bypass PXG4BPFILX-SD series adapter"}, - {"Silicom Bypass PMCX2BPI-N series adapter"}, - {"Silicom Bypass PMCX4BPI-N series adapter"}, - {"Silicom Bypass PXG2BISC1-SD series adapter"}, - {"Silicom Bypass PEG2TBFI-SD series adapter"}, - {"Silicom Bypass PXG2TBI-SD series adapter"}, - {"Silicom Bypass PXG4BPFID-SD series adapter"}, - {"Silicom Bypass PEG4BPFI-SD series adapter"}, - {"Silicom Bypass PEG4BPIPT-SD series adapter"}, - {"Silicom Bypass PXG6BPI-SD series adapter"}, - {"Silicom Bypass PEG4BPIL-SD series adapter"}, - {"Silicom Bypass PMCX2BPI-N2 series adapter"}, - {"Silicom Bypass PMCX4BPI-N2 series adapter"}, - {"Silicom Bypass PMCX2BPI-SD series adapter"}, - {"Silicom Bypass PEG2BPFID-SD series adapter"}, - {"Silicom Bypass PEG2BPFIDLX-SD series adapter"}, - {"Silicom Bypass PMCX4BPI-SD series adapter"}, - {"Silicom Bypass MEG2BPFILN-SD series adapter"}, - {"Silicom Bypass MEG2BPFINX-SD series adapter"}, - {"Silicom Bypass PEG4BPFILX-SD series adapter"}, - {"Silicom Bypass PE10G2BPISR-SD series adapter"}, - {"Silicom Bypass PE10G2BPILR-SD series adapter"}, - {"Silicom Bypass MHIO8AD-SD series adapter"}, - {"Silicom Bypass PE10G2BPICX4-SD series adapter"}, - {"Silicom Bypass PEG2BPI5-SD series adapter"}, - {"Silicom Bypass PEG6BPI5-SD series adapter"}, - {"Silicom Bypass PEG4BPFI5-SD series adapter"}, - {"Silicom Bypass PEG4BPFI5LX-SD series adapter"}, - {"Silicom Bypass MEG2BPFILXLN-SD series adapter"}, - {"Silicom Bypass PEG2BPIX1-SD series adapter"}, - {"Silicom Bypass MEG2BPFILXNX-SD series adapter"}, - {"Silicom Bypass XE10G2BPIT-SD series adapter"}, - {"Silicom Bypass XE10G2BPICX4-SD series adapter"}, - {"Silicom Bypass XE10G2BPISR-SD series adapter"}, - {"Silicom Bypass XE10G2BPILR-SD series adapter"}, - {"Intel Bypass PEG2BPFII0 series adapter"}, - {"Silicom Bypass XE10G2BPIXR series adapter"}, - {"Silicom Bypass PE10G2DBISR series adapter"}, - {"Silicom Bypass PEG2BI5SC6 series adapter"}, - {"Silicom Bypass PEG6BPI5FC series adapter"}, - - {"Silicom Bypass PE10G2BPTCX4 series adapter"}, - {"Silicom Bypass PE10G2BPTSR series adapter"}, - {"Silicom Bypass PE10G2BPTLR series adapter"}, - {"Silicom Bypass PE10G2BPTT series adapter"}, - {"Silicom Bypass PEG4BPI6 series adapter"}, - {"Silicom Bypass PEG4BPFI6 series adapter"}, - {"Silicom Bypass PEG4BPFI6LX series adapter"}, - {"Silicom Bypass PEG4BPFI6ZX series adapter"}, - {"Silicom Bypass PEG2BPI6 series adapter"}, - {"Silicom Bypass PEG2BPFI6 series adapter"}, - {"Silicom Bypass PEG2BPFI6LX series adapter"}, - {"Silicom Bypass PEG2BPFI6ZX series adapter"}, - {"Silicom Bypass PEG2BPFI6FLXM series adapter"}, - {"Silicom Bypass PEG4BPI6FC series adapter"}, - {"Silicom Bypass PEG4BPFI6FC series adapter"}, - {"Silicom Bypass PEG4BPFI6FCLX series adapter"}, - {"Silicom Bypass PEG4BPFI6FCZX series adapter"}, - {"Silicom Bypass PEG6BPI6 series adapter"}, - {"Silicom Bypass PEG2BPI6SC6 series adapter"}, - {"Silicom Bypass MEG2BPI6 series adapter"}, - {"Silicom Bypass XEG2BPI6 series adapter"}, - {"Silicom Bypass MEG4BPI6 series adapter"}, - {"Silicom Bypass PEG2BPFI5-SD series adapter"}, - {"Silicom Bypass PEG2BPFI5LX-SD series adapter"}, - {"Silicom Bypass PXEG4BPFI-SD series adapter"}, - {"Silicom Bypass MxEG2BPI6 series adapter"}, - {"Silicom Bypass MxEG2BPFI6 series adapter"}, - {"Silicom Bypass MxEG2BPFI6LX series adapter"}, - {"Silicom Bypass MxEG2BPFI6ZX series adapter"}, - {"Silicom Bypass MxEG4BPI6 series adapter"}, - {"Silicom Bypass MxEG4BPFI6 series adapter"}, - {"Silicom Bypass MxEG4BPFI6LX series adapter"}, - {"Silicom Bypass MxEG4BPFI6ZX series adapter"}, - {"Silicom Bypass MxEG6BPI6 series adapter"}, - {"Silicom Bypass MxE2G4BPi80 series adapter"}, - {"Silicom Bypass MxE2G4BPFi80 series adapter"}, - {"Silicom Bypass MxE2G4BPFi80LX series adapter"}, - {"Silicom Bypass MxE2G4BPFi80ZX series adapter"}, - - {"Silicom Bypass PE210G2SPI9 series adapter"}, - - {"Silicom Bypass MxE210G2BPI9CX4 series adapter"}, - {"Silicom Bypass MxE210G2BPI9SR series adapter"}, - {"Silicom Bypass MxE210G2BPI9LR series adapter"}, - {"Silicom Bypass MxE210G2BPI9T series adapter"}, - - {"Silicom Bypass PE210G2BPI9CX4 series adapter"}, - {"Silicom Bypass PE210G2BPI9SR series adapter"}, - {"Silicom Bypass PE210G2BPI9LR series adapter"}, - {"Silicom Bypass PE210G2BPI9T series adapter"}, - - {"Silicom Bypass M2EG2BPFI6 series adapter"}, - {"Silicom Bypass M2EG2BPFI6LX series adapter"}, - {"Silicom Bypass M2EG2BPFI6ZX series adapter"}, - {"Silicom Bypass M2EG4BPI6 series adapter"}, - {"Silicom Bypass M2EG4BPFI6 series adapter"}, - {"Silicom Bypass M2EG4BPFI6LX series adapter"}, - {"Silicom Bypass M2EG4BPFI6ZX series adapter"}, - {"Silicom Bypass M2EG6BPI6 series adapter"}, - - {"Silicom Bypass PEG2DBI6 series adapter"}, - {"Silicom Bypass PEG2DBFI6 series adapter"}, - {"Silicom Bypass PEG2DBFI6LX series adapter"}, - {"Silicom Bypass PEG2DBFI6ZX series adapter"}, - - {"Silicom Bypass PE2G4BPi80 series adapter"}, - {"Silicom Bypass PE2G4BPFi80 series adapter"}, - {"Silicom Bypass PE2G4BPFi80LX series adapter"}, - {"Silicom Bypass PE2G4BPFi80ZX series adapter"}, - - {"Silicom Bypass PE2G4BPi80L series adapter"}, - {"Silicom Bypass MxE2G8BPi80A series adapter"}, - - {"Silicom Bypass PE2G2BPi35 series adapter"}, - {"Silicom Bypass PAC1200BPi35 series adapter"}, - {"Silicom Bypass PE2G2BPFi35 series adapter"}, - {"Silicom Bypass PE2G2BPFi35LX series adapter"}, - {"Silicom Bypass PE2G2BPFi35ZX series adapter"}, - - {"Silicom Bypass PE2G4BPi35 series adapter"}, - {"Silicom Bypass PE2G4BPi35L series adapter"}, - {"Silicom Bypass PE2G4BPFi35 series adapter"}, - {"Silicom Bypass PE2G4BPFi35LX series adapter"}, - {"Silicom Bypass PE2G4BPFi35ZX series adapter"}, - - {"Silicom Bypass PE2G6BPi35 series adapter"}, - {"Silicom Bypass PE2G6BPi35CX series adapter"}, - - {"Silicom Bypass PE2G2BPi80 series adapter"}, - {"Silicom Bypass PE2G2BPFi80 series adapter"}, - {"Silicom Bypass PE2G2BPFi80LX series adapter"}, - {"Silicom Bypass PE2G2BPFi80ZX series adapter"}, - - {"Silicom Bypass M2E10G2BPI9CX4 series adapter"}, - {"Silicom Bypass M2E10G2BPI9SR series adapter"}, - {"Silicom Bypass M2E10G2BPI9LR series adapter"}, - {"Silicom Bypass M2E10G2BPI9T series adapter"}, - {"Silicom Bypass MxE2G8BPi80 series adapter"}, - {"Silicom Bypass PE210G2DBi9SR series adapter"}, - {"Silicom Bypass PE210G2DBi9SRRB series adapter"}, - {"Silicom Bypass PE210G2DBi9LR series adapter"}, - {"Silicom Bypass PE210G2DBi9LRRB series adapter"}, - {"Silicom Bypass PE310G4DBi9-SR series adapter"}, - {"Silicom Bypass PE310G4BPi9T series adapter"}, - {"Silicom Bypass PE310G4BPi9SR series adapter"}, - {"Silicom Bypass PE310G4BPi9LR series adapter"}, - {"Silicom Bypass PE210G2BPi40T series adapter"}, - {0}, -}; - -static struct bpmod_info tx_ctl_pci_tbl[] = { - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG2BPFI_SSID, PXG2BPFI, - "PXG2BPFI-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG2BPFIL_SSID, PXG2BPFIL, - "PXG2BPFIL-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG2BPFILX_SSID, PXG2BPFILX, - "PXG2BPFILX-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG2BPFILLX_SSID, PXG2BPFILLX, - "PXG2BPFILLXSD"}, - {0x8086, 0x1010, SILICOM_SVID, SILICOM_PXGBPI_SSID, PXGBPI, - "PXG2BPI-SD"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PXGBPIG_SSID, PXGBPIG, - "PXG2BPIG-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG2TBFI_SSID, PXG2TBFI, - "PXG2TBFI-SD"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PXG4BPI_SSID, PXG4BPI, - "PXG4BPI-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG4BPFI_SSID, PXG4BPFI, - "PXG4BPFI-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG4BPFILX_SSID, PXG4BPFILX, - "PXG4BPFILX-SD"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PEG4BPI_SSID, PEG4BPI, - "PEXG4BPI-SD"}, - {0x8086, 0x105e, SILICOM_SVID, SILICOM_PEG2BPI_SSID, PEG2BPI, - "PEG2BPI-SD"}, - {0x8086, 0x105e, SILICOM_SVID, SILICOM_PEG4BPIN_SSID, PEG4BPIN, - "PEG4BPI-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG2BPFI_SSID, PEG2BPFI, - "PEG2BPFI-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG2BPFILX_SSID, PEG2BPFILX, - "PEG2BPFILX-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PMCXG2BPFI_SSID, PMCXG2BPFI, - "PMCX2BPFI-SD"}, - {0x8086, 0x107a, NOKIA_PMCXG2BPFIN_SVID, NOKIA_PMCXG2BPFIN_SSID, - PMCXG2BPFIN, "PMCX2BPFI-N"}, - {0x8086, INTEL_PEG4BPII_PID, 0x8086, INTEL_PEG4BPII_SSID, PEG4BPII, - "PEG4BPII"}, - {0x8086, INTEL_PEG4BPIIO_PID, 0x8086, INTEL_PEG4BPIIO_SSID, PEG4BPIIO, - "PEG4BPII0"}, - {0x8086, INTEL_PEG4BPFII_PID, 0x8086, INTEL_PEG4BPFII_SSID, PEG4BPFII, - "PEG4BPFII"}, - {0x8086, 0x1079, NOKIA_PMCXG2BPFIN_SVID, NOKIA_PMCXG2BPIN_SSID, - PMCXG2BPIN, "PMCX2BPI-N"}, - {0x8086, 0x1079, NOKIA_PMCXG2BPFIN_SVID, NOKIA_PMCXG4BPIN_SSID, - PMCXG4BPIN, "PMCX4BPI-N"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PXG2BISC1_SSID, PXG2BISC1, - "PXG2BISC1-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG2TBFI_SSID, PEG2TBFI, - "PEG2TBFI-SD"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PXG2TBI_SSID, PXG2TBI, - "PXG2TBI-SD"}, - {0x8086, 0x107a, SILICOM_SVID, SILICOM_PXG4BPFID_SSID, PXG4BPFID, - "PXG4BPFID-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG4BPFI_SSID, PEG4BPFI, - "PEG4BPFI-SD"}, - {0x8086, 0x105e, SILICOM_SVID, SILICOM_PEG4BPIPT_SSID, PEG4BPIPT, - "PEG4BPIPT-SD"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PXG6BPI_SSID, PXG6BPI, - "PXG6BPI-SD"}, - {0x8086, 0x10a7, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPIL_SSID /*PCI_ANY_ID */ , PEG4BPIL, "PEG4BPIL-SD"}, - {0x8086, 0x1079, NOKIA_PMCXG2BPFIN_SVID, NOKIA_PMCXG2BPIN2_SSID, - PMCXG2BPIN2, "PMCX2BPI-N2"}, - {0x8086, 0x1079, NOKIA_PMCXG2BPFIN_SVID, NOKIA_PMCXG4BPIN2_SSID, - PMCXG4BPIN2, "PMCX4BPI-N2"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PMCX2BPI_SSID, PMCX2BPI, - "PMCX2BPI-SD"}, - {0x8086, 0x1079, SILICOM_SVID, SILICOM_PMCX4BPI_SSID, PMCX4BPI, - "PMCX4BPI-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG2BPFID_SSID, PEG2BPFID, - "PEG2BPFID-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG2BPFIDLX_SSID, PEG2BPFIDLX, - "PEG2BPFIDLXSD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_MEG2BPFILN_SSID, MEG2BPFILN, - "MEG2BPFILN-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_MEG2BPFINX_SSID, MEG2BPFINX, - "MEG2BPFINX-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PEG4BPFILX_SSID, PEG4BPFILX, - "PEG4BPFILX-SD"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID, SILICOM_PE10G2BPISR_SSID, - PE10G2BPISR, "PE10G2BPISR"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID, SILICOM_PE10G2BPILR_SSID, - PE10G2BPILR, "PE10G2BPILR"}, - {0x8086, 0x10a9, SILICOM_SVID, SILICOM_MHIO8AD_SSID, MHIO8AD, - "MHIO8AD-SD"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID, SILICOM_PE10G2BPICX4_SSID, - PE10G2BPISR, "PE10G2BPICX4"}, - {0x8086, 0x10a7, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPI5_SSID /*PCI_ANY_ID */ , PEG2BPI5, "PEG2BPI5-SD"}, - {0x8086, 0x10a7, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG6BPI_SSID /*PCI_ANY_ID */ , PEG6BPI, "PEG6BPI5"}, - {0x8086, 0x10a9, SILICOM_SVID /*PCI_ANY_ID */ , SILICOM_PEG4BPFI5_SSID, - PEG4BPFI5, "PEG4BPFI5"}, - {0x8086, 0x10a9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI5LX_SSID, PEG4BPFI5LX, "PEG4BPFI5LX"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_MEG2BPFILXLN_SSID, MEG2BPFILXLN, - "MEG2BPFILXLN"}, - {0x8086, 0x105e, SILICOM_SVID, SILICOM_PEG2BPIX1_SSID, PEG2BPIX1, - "PEG2BPIX1-SD"}, - {0x8086, 0x105f, SILICOM_SVID, SILICOM_MEG2BPFILXNX_SSID, MEG2BPFILXNX, - "MEG2BPFILXNX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID, SILICOM_XE10G2BPIT_SSID, XE10G2BPIT, - "XE10G2BPIT"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID, SILICOM_XE10G2BPICX4_SSID, - XE10G2BPICX4, "XE10G2BPICX4"}, - {0x8086, 0x10C6, SILICOM_SVID, SILICOM_XE10G2BPISR_SSID, XE10G2BPISR, - "XE10G2BPISR"}, - {0x8086, 0x10C6, SILICOM_SVID, SILICOM_XE10G2BPILR_SSID, XE10G2BPILR, - "XE10G2BPILR"}, - {0x8086, 0x10C6, NOKIA_XE10G2BPIXR_SVID, NOKIA_XE10G2BPIXR_SSID, - XE10G2BPIXR, "XE10G2BPIXR"}, - {0x8086, 0x10C6, SILICOM_SVID, SILICOM_PE10GDBISR_SSID, PE10GDBISR, - "PE10G2DBISR"}, - {0x8086, 0x10C6, SILICOM_SVID, SILICOM_PE10GDBILR_SSID, PE10GDBILR, - "PE10G2DBILR"}, - {0x8086, 0x10a7, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BISC6_SSID /*PCI_ANY_ID */ , PEG2BISC6, "PEG2BI5SC6"}, - {0x8086, 0x10a7, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG6BPIFC_SSID /*PCI_ANY_ID */ , PEG6BPIFC, "PEG6BPI5FC"}, - - {BROADCOM_VID, BROADCOM_PE10G2_PID, SILICOM_SVID, - SILICOM_PE10G2BPTCX4_SSID, PE10G2BPTCX4, "PE10G2BPTCX4"}, - {BROADCOM_VID, BROADCOM_PE10G2_PID, SILICOM_SVID, - SILICOM_PE10G2BPTSR_SSID, PE10G2BPTSR, "PE10G2BPTSR"}, - {BROADCOM_VID, BROADCOM_PE10G2_PID, SILICOM_SVID, - SILICOM_PE10G2BPTLR_SSID, PE10G2BPTLR, "PE10G2BPTLR"}, - {BROADCOM_VID, BROADCOM_PE10G2_PID, SILICOM_SVID, - SILICOM_PE10G2BPTT_SSID, PE10G2BPTT, "PE10G2BPTT"}, - - /* {BROADCOM_VID, BROADCOM_PE10G2_PID, PCI_ANY_ID, PCI_ANY_ID, PE10G2BPTCX4, "PE10G2BPTCX4"}, */ - - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPI6_SSID /*PCI_ANY_ID */ , PEG4BPI6, "PEG4BPI6"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI6_SSID /*PCI_ANY_ID */ , PEG4BPFI6, "PEG4BPFI6"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI6LX_SSID /*PCI_ANY_ID */ , PEG4BPFI6LX, "PEG4BPFI6LX"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI6ZX_SSID /*PCI_ANY_ID */ , PEG4BPFI6ZX, "PEG4BPFI6ZX"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPI6_SSID /*PCI_ANY_ID */ , PEG2BPI6, "PEG2BPI6"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPFI6_SSID /*PCI_ANY_ID */ , PEG2BPFI6, "PEG2BPFI6"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPFI6LX_SSID /*PCI_ANY_ID */ , PEG2BPFI6LX, "PEG2BPFI6LX"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPFI6ZX_SSID /*PCI_ANY_ID */ , PEG2BPFI6ZX, "PEG2BPFI6ZX"}, - {0x8086, 0x10e7, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPFI6FLXM_SSID /*PCI_ANY_ID */ , PEG2BPFI6FLXM, - "PEG2BPFI6FLXM"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPI6FC_SSID /*PCI_ANY_ID */ , PEG4BPI6FC, "PEG4BPI6FC"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI6FC_SSID /*PCI_ANY_ID */ , PEG4BPFI6FC, "PEG4BPFI6FC"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI6FCLX_SSID /*PCI_ANY_ID */ , PEG4BPFI6FCLX, - "PEG4BPFI6FCLX"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG4BPFI6FCZX_SSID /*PCI_ANY_ID */ , PEG4BPFI6FCZX, - "PEG4BPFI6FCZX"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG6BPI6_SSID /*PCI_ANY_ID */ , PEG6BPI6, "PEG6BPI6"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPI6SC6_SSID /*PCI_ANY_ID */ , PEG2BPI6SC6, - "PEG6BPI62SC6"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_MEG2BPI6_SSID /*PCI_ANY_ID */ , MEG2BPI6, "MEG2BPI6"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_XEG2BPI6_SSID /*PCI_ANY_ID */ , XEG2BPI6, "XEG2BPI6"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_MEG4BPI6_SSID /*PCI_ANY_ID */ , MEG4BPI6, "MEG4BPI6"}, - - {0x8086, 0x10a9, SILICOM_SVID /*PCI_ANY_ID */ , SILICOM_PEG2BPFI5_SSID, - PEG2BPFI5, "PEG2BPFI5"}, - {0x8086, 0x10a9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2BPFI5LX_SSID, PEG2BPFI5LX, "PEG2BPFI5LX"}, - - {0x8086, 0x105f, SILICOM_SVID, SILICOM_PXEG4BPFI_SSID, PXEG4BPFI, - "PXEG4BPFI-SD"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG2BPI6_SSID /*PCI_ANY_ID */ , M1EG2BPI6, "MxEG2BPI6"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG2BPFI6_SSID /*PCI_ANY_ID */ , M1EG2BPFI6, "MxEG2BPFI6"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG2BPFI6LX_SSID /*PCI_ANY_ID */ , M1EG2BPFI6LX, - "MxEG2BPFI6LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG2BPFI6ZX_SSID /*PCI_ANY_ID */ , M1EG2BPFI6ZX, - "MxEG2BPFI6ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG4BPI6_SSID /*PCI_ANY_ID */ , M1EG4BPI6, "MxEG4BPI6"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG4BPFI6_SSID /*PCI_ANY_ID */ , M1EG4BPFI6, "MxEG4BPFI6"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG4BPFI6LX_SSID /*PCI_ANY_ID */ , M1EG4BPFI6LX, - "MxEG4BPFI6LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG4BPFI6ZX_SSID /*PCI_ANY_ID */ , M1EG4BPFI6ZX, - "MxEG4BPFI6ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1EG6BPI6_SSID /*PCI_ANY_ID */ , M1EG6BPI6, "MxEG6BPI6"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E2G4BPi80_SSID /*PCI_ANY_ID */ , M1E2G4BPi80, "MxE2G4BPi80"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E2G4BPFi80_SSID /*PCI_ANY_ID */ , M1E2G4BPFi80, - "MxE2G4BPFi80"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E2G4BPFi80LX_SSID /*PCI_ANY_ID */ , M1E2G4BPFi80LX, - "MxE2G4BPFi80LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E2G4BPFi80ZX_SSID /*PCI_ANY_ID */ , M1E2G4BPFi80ZX, - "MxE2G4BPFi80ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG2BPFI6_SSID /*PCI_ANY_ID */ , M2EG2BPFI6, "M2EG2BPFI6"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG2BPFI6LX_SSID /*PCI_ANY_ID */ , M2EG2BPFI6LX, - "M2EG2BPFI6LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG2BPFI6ZX_SSID /*PCI_ANY_ID */ , M2EG2BPFI6ZX, - "M2EG2BPFI6ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG4BPI6_SSID /*PCI_ANY_ID */ , M2EG4BPI6, "M2EG4BPI6"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG4BPFI6_SSID /*PCI_ANY_ID */ , M2EG4BPFI6, "M2EG4BPFI6"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG4BPFI6LX_SSID /*PCI_ANY_ID */ , M2EG4BPFI6LX, - "M2EG4BPFI6LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG4BPFI6ZX_SSID /*PCI_ANY_ID */ , M2EG4BPFI6ZX, - "M2EG4BPFI6ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2EG6BPI6_SSID /*PCI_ANY_ID */ , M2EG6BPI6, "M2EG6BPI6"}, - - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2DBI6_SSID /*PCI_ANY_ID */ , PEG2DBI6, "PEG2DBI6"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2DBFI6_SSID /*PCI_ANY_ID */ , PEG2DBFI6, "PEG2DBFI6"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2DBFI6LX_SSID /*PCI_ANY_ID */ , PEG2DBFI6LX, "PEG2DBFI6LX"}, - {0x8086, 0x10e6, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PEG2DBFI6ZX_SSID /*PCI_ANY_ID */ , PEG2DBFI6ZX, "PEG2DBFI6ZX"}, - - {0x8086, 0x10F9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE210G2DBi9SR_SSID, PE210G2DBi9SR, "PE210G2DBi9SR"}, - {0x8086, 0x10F9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE210G2DBi9LR_SSID, PE210G2DBi9LR, "PE210G2DBi9LR"}, - {0x8086, 0x10F9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE310G4DBi940SR_SSID, PE310G4DBi940SR, "PE310G4DBi9SR"}, - - {0x8086, 0x10Fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE310G4BPi9T_SSID, PE310G4BPi9T, "PE310G4BPi9T"}, - {0x8086, 0x10Fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE310G4BPi9SR_SSID, PE310G4BPi9SR, "PE310G4BPi9SR"}, - {0x8086, 0x10Fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE310G4BPi9LR_SSID, PE310G4BPi9LR, "PE310G4BPi9LR"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPi80_SSID /*PCI_ANY_ID */ , PE2G4BPi80, "PE2G4BPi80"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPFi80_SSID /*PCI_ANY_ID */ , PE2G4BPFi80, "PE2G4BPFi80"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPFi80LX_SSID /*PCI_ANY_ID */ , PE2G4BPFi80LX, - "PE2G4BPFi80LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPFi80ZX_SSID /*PCI_ANY_ID */ , PE2G4BPFi80ZX, - "PE2G4BPFi80ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPi80L_SSID /*PCI_ANY_ID */ , PE2G4BPi80L, "PE2G4BPi80L"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M6E2G8BPi80A_SSID /*PCI_ANY_ID */ , M6E2G8BPi80A, - "MxE2G8BPi80A"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPi35_SSID /*PCI_ANY_ID */ , PE2G2BPi35, "PE2G2BPi35"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PAC1200BPi35_SSID /*PCI_ANY_ID */ , PAC1200BPi35, - "PAC1200BPi35"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPFi35_SSID /*PCI_ANY_ID */ , PE2G2BPFi35, "PE2G2BPFi35"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPFi35LX_SSID /*PCI_ANY_ID */ , PE2G2BPFi35LX, - "PE2G2BPFi35LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPFi35ZX_SSID /*PCI_ANY_ID */ , PE2G2BPFi35ZX, - "PE2G2BPFi35ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPi35_SSID /*PCI_ANY_ID */ , PE2G4BPi35, "PE2G4BPi35"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPi35L_SSID /*PCI_ANY_ID */ , PE2G4BPi35L, "PE2G4BPi35L"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPFi35_SSID /*PCI_ANY_ID */ , PE2G4BPFi35, "PE2G4BPFi35"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPFi35LX_SSID /*PCI_ANY_ID */ , PE2G4BPFi35LX, - "PE2G4BPFi35LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G4BPFi35ZX_SSID /*PCI_ANY_ID */ , PE2G4BPFi35ZX, - "PE2G4BPFi35ZX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G6BPi35_SSID /*PCI_ANY_ID */ , PE2G6BPi35, "PE2G6BPi35"}, - - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa0, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa1, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa2, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa3, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa4, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa5, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa6, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa7, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa8, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaa9, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaaa, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaab, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaac, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaad, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaae, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaaf, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab0, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab1, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab2, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab3, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab4, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab5, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab6, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab7, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab8, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xab9, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xaba, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xabb, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xabc, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xabd, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xabe, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , 0xabf, PE2G6BPi35CX, - "PE2G6BPi35CX"}, - - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPi80_SSID /*PCI_ANY_ID */ , PE2G2BPi80, "PE2G2BPi80"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPFi80_SSID /*PCI_ANY_ID */ , PE2G2BPFi80, "PE2G2BPFi80"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPFi80LX_SSID /*PCI_ANY_ID */ , PE2G2BPFi80LX, - "PE2G2BPFi80LX"}, - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE2G2BPFi80ZX_SSID /*PCI_ANY_ID */ , PE2G2BPFi80ZX, - "PE2G2BPFi80ZX"}, - - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_MEG2BPI6_SSID /*PCI_ANY_ID */ , MEG2BPI6, "MEG2BPI6"}, - {0x8086, 0x10c9, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_XEG2BPI6_SSID /*PCI_ANY_ID */ , XEG2BPI6, "XEG2BPI6"}, - -#if 0 - {0x8086, 0x10fb, 0x8086, INTEL_PE210G2SPI9_SSID, PE210G2SPI9, - "PE210G2SPI9"}, -#endif - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E10G2BPI9CX4_SSID /*PCI_ANY_ID */ , M1E10G2BPI9CX4, - "MxE210G2BPI9CX4"}, - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E10G2BPI9SR_SSID /*PCI_ANY_ID */ , M1E10G2BPI9SR, - "MxE210G2BPI9SR"}, - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E10G2BPI9LR_SSID /*PCI_ANY_ID */ , M1E10G2BPI9LR, - "MxE210G2BPI9LR"}, - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M1E10G2BPI9T_SSID /*PCI_ANY_ID */ , M1E10G2BPI9T, - "MxE210G2BPI9T"}, - - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2E10G2BPI9CX4_SSID /*PCI_ANY_ID */ , M2E10G2BPI9CX4, - "M2E10G2BPI9CX4"}, - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2E10G2BPI9SR_SSID /*PCI_ANY_ID */ , M2E10G2BPI9SR, - "M2E10G2BPI9SR"}, - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2E10G2BPI9LR_SSID /*PCI_ANY_ID */ , M2E10G2BPI9LR, - "M2E10G2BPI9LR"}, - {0x8086, 0x10fb, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M2E10G2BPI9T_SSID /*PCI_ANY_ID */ , M2E10G2BPI9T, - "M2E10G2BPI9T"}, - - {0x8086, 0x10fb, SILICOM_SVID, SILICOM_PE210G2BPI9CX4_SSID, - PE210G2BPI9CX4, "PE210G2BPI9CX4"}, - {0x8086, 0x10fb, SILICOM_SVID, SILICOM_PE210G2BPI9SR_SSID, - PE210G2BPI9SR, "PE210G2BPI9SR"}, - {0x8086, 0x10fb, SILICOM_SVID, SILICOM_PE210G2BPI9LR_SSID, - PE210G2BPI9LR, "PE210G2BPI9LR"}, - {0x8086, 0x10fb, SILICOM_SVID, SILICOM_PE210G2BPI9T_SSID, PE210G2BPI9T, - "PE210G2BPI9T"}, - -#if 0 - {0x1374, 0x2c, SILICOM_SVID, SILICOM_PXG4BPI_SSID, PXG4BPI, - "PXG4BPI-SD"}, - - {0x1374, 0x2d, SILICOM_SVID, SILICOM_PXG4BPFI_SSID, PXG4BPFI, - "PXG4BPFI-SD"}, - - {0x1374, 0x3f, SILICOM_SVID, SILICOM_PXG2TBI_SSID, PXG2TBI, - "PXG2TBI-SD"}, - - {0x1374, 0x3d, SILICOM_SVID, SILICOM_PXG2BISC1_SSID, PXG2BISC1, - "PXG2BISC1-SD"}, - - {0x1374, 0x40, SILICOM_SVID, SILICOM_PEG4BPFI_SSID, PEG4BPFI, - "PEG4BPFI-SD"}, - -#ifdef BP_SELF_TEST - {0x1374, 0x28, SILICOM_SVID, 0x28, PXGBPI, "PXG2BPI-SD"}, -#endif -#endif - {0x8086, PCI_ANY_ID, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_M6E2G8BPi80_SSID /*PCI_ANY_ID */ , M6E2G8BPi80, "MxE2G8BPi80"}, - {0x8086, 0x1528, SILICOM_SVID /*PCI_ANY_ID */ , - SILICOM_PE210G2BPi40_SSID /*PCI_ANY_ID */ , PE210G2BPi40, - "PE210G2BPi40T"}, - - /* required last entry */ - {0,} -}; - -static void find_fw(struct bpctl_dev *dev) -{ - unsigned long mmio_start, mmio_len; - struct pci_dev *pdev1 = dev->pdev; - - if ((OLD_IF_SERIES(dev->subdevice)) || - (INTEL_IF_SERIES(dev->subdevice))) - dev->bp_fw_ver = 0xff; - else - dev->bp_fw_ver = bypass_fw_ver(dev); - - if (dev->bp_10gb == 1 && dev->bp_fw_ver == 0xff) { - int cnt = 100; - while (cnt--) { - iounmap((void *)dev->mem_map); - mmio_start = pci_resource_start(pdev1, 0); - mmio_len = pci_resource_len(pdev1, 0); - - dev->mem_map = (unsigned long) - ioremap(mmio_start, mmio_len); - - dev->bp_fw_ver = bypass_fw_ver(dev); - if (dev->bp_fw_ver == 0xa8) - break; - } - } - /* dev->bp_fw_ver=0xa8; */ - printk("firmware version: 0x%x\n", dev->bp_fw_ver); -} - -static int init_one(struct bpctl_dev *dev, struct bpmod_info *info, struct pci_dev *pdev1) -{ - unsigned long mmio_start, mmio_len; - - dev->pdev = pdev1; - mmio_start = pci_resource_start(pdev1, 0); - mmio_len = pci_resource_len(pdev1, 0); - - dev->desc = dev_desc[info->index].name; - dev->name = info->bp_name; - dev->device = info->device; - dev->vendor = info->vendor; - dev->subdevice = info->subdevice; - dev->subvendor = info->subvendor; - dev->func = PCI_FUNC(pdev1->devfn); - dev->slot = PCI_SLOT(pdev1->devfn); - dev->bus = pdev1->bus->number; - dev->mem_map = (unsigned long)ioremap(mmio_start, mmio_len); -#ifdef BP_SYNC_FLAG - spin_lock_init(&dev->bypass_wr_lock); -#endif - if (BP10G9_IF_SERIES(dev->subdevice)) - dev->bp_10g9 = 1; - if (BP10G_IF_SERIES(dev->subdevice)) - dev->bp_10g = 1; - if (PEG540_IF_SERIES(dev->subdevice)) - dev->bp_540 = 1; - if (PEGF5_IF_SERIES(dev->subdevice)) - dev->bp_fiber5 = 1; - if (PEG80_IF_SERIES(dev->subdevice)) - dev->bp_i80 = 1; - if (PEGF80_IF_SERIES(dev->subdevice)) - dev->bp_i80 = 1; - if ((dev->subdevice & 0xa00) == 0xa00) - dev->bp_i80 = 1; - if (BP10GB_IF_SERIES(dev->subdevice)) { - if (dev->ifindex == 0) { - unregister_chrdev(major_num, DEVICE_NAME); - printk("Please load network driver for %s adapter!\n", - dev->name); - return -1; - } - - if (dev->ndev && !(dev->ndev->flags & IFF_UP)) { - unregister_chrdev(major_num, DEVICE_NAME); - printk("Please bring up network interfaces for %s adapter!\n", - dev->name); - return -1; - } - dev->bp_10gb = 1; - } - - if (!dev->bp_10g9) { - if (is_bypass_fn(dev)) { - printk(KERN_INFO "%s found, ", - dev->name); - find_fw(dev); - } - dev->wdt_status = WDT_STATUS_UNKNOWN; - dev->reset_time = 0; - atomic_set(&dev->wdt_busy, 0); - dev->bp_status_un = 1; - - bypass_caps_init(dev); - - init_bypass_wd_auto(dev); - init_bypass_tpl_auto(dev); - if (NOKIA_SERIES(dev->subdevice)) - reset_cont(dev); - } -#ifdef BP_SELF_TEST - dev->bp_tx_data = kzalloc(BPTEST_DATA_LEN, GFP_KERNEL); - if (dev->bp_tx_data) { - memset(dev->bp_tx_data, 0xff, 6); - memset(dev->bp_tx_data + 6, 0x0, 1); - memset(dev->bp_tx_data + 7, 0xaa, 5); - *(__be16 *)(dev->bp_tx_data + 12) = htons(ETH_P_BPTEST); - } else - printk("bp_ctl: Memory allocation error!\n"); -#endif - return 0; -} - -/* -* Initialize the module - Register the character device -*/ - -static int __init bypass_init_module(void) -{ - int ret_val, idx, idx_dev = 0; - struct pci_dev *pdev1 = NULL; - struct bpctl_dev *dev; - - printk(BP_MOD_DESCR " v" BP_MOD_VER "\n"); - ret_val = register_chrdev(major_num, DEVICE_NAME, &Fops); - if (ret_val < 0) { - printk("%s failed with %d\n", DEVICE_NAME, ret_val); - return ret_val; - } - major_num = ret_val; /* dynamic */ - for (idx = 0; tx_ctl_pci_tbl[idx].vendor; idx++) { - while ((pdev1 = pci_get_subsys(tx_ctl_pci_tbl[idx].vendor, - tx_ctl_pci_tbl[idx].device, - tx_ctl_pci_tbl[idx].subvendor, - tx_ctl_pci_tbl[idx].subdevice, - pdev1))) { - - device_num++; - } - } - if (!device_num) { - printk("No such device\n"); - unregister_chrdev(major_num, DEVICE_NAME); - return -1; - } - - bpctl_dev_arr = kmalloc((device_num) * sizeof(struct bpctl_dev), GFP_KERNEL); - - if (!bpctl_dev_arr) { - printk("Allocation error\n"); - unregister_chrdev(major_num, DEVICE_NAME); - return -1; - } - memset(bpctl_dev_arr, 0, ((device_num) * sizeof(struct bpctl_dev))); - - pdev1 = NULL; - dev = bpctl_dev_arr; - for (idx = 0; tx_ctl_pci_tbl[idx].vendor; idx++) { - while ((pdev1 = pci_get_subsys(tx_ctl_pci_tbl[idx].vendor, - tx_ctl_pci_tbl[idx].device, - tx_ctl_pci_tbl[idx].subvendor, - tx_ctl_pci_tbl[idx].subdevice, - pdev1))) { - if (init_one(dev, &tx_ctl_pci_tbl[idx], pdev1) < 0) - return -1; - dev++; - } - } - if_scan_init(); - - sema_init(&bpctl_sema, 1); - spin_lock_init(&bpvm_lock); - - for (idx_dev = 0, dev = bpctl_dev_arr; - idx_dev < device_num && dev->pdev; - idx_dev++, dev++) { - if (dev->bp_10g9) { - if (is_bypass_fn(dev)) { - printk(KERN_INFO "%s found, ", dev->name); - dev->bp_fw_ver = bypass_fw_ver(dev); - printk("firmware version: 0x%x\n", - dev->bp_fw_ver); - } - dev->wdt_status = WDT_STATUS_UNKNOWN; - dev->reset_time = 0; - atomic_set(&dev->wdt_busy, 0); - dev->bp_status_un = 1; - - bypass_caps_init(dev); - - init_bypass_wd_auto(dev); - init_bypass_tpl_auto(dev); - } - } - - register_netdevice_notifier(&bp_notifier_block); - return 0; -} - -/* -* Cleanup - unregister the appropriate file from /proc -*/ -static void __exit bypass_cleanup_module(void) -{ - int i; - - unregister_netdevice_notifier(&bp_notifier_block); - - for (i = 0; i < device_num; i++) { - /* unsigned long flags; */ - remove_bypass_wd_auto(&bpctl_dev_arr[i]); - bpctl_dev_arr[i].reset_time = 0; - - remove_bypass_tpl_auto(&bpctl_dev_arr[i]); - } - - /* unmap all devices */ - for (i = 0; i < device_num; i++) { -#ifdef BP_SELF_TEST - kfree(bpctl_dev_arr[i].bp_tx_data); -#endif - iounmap((void *)(bpctl_dev_arr[i].mem_map)); - } - - /* free all devices space */ - kfree(bpctl_dev_arr); - -/* -* Unregister the device -*/ - unregister_chrdev(major_num, DEVICE_NAME); -} - -module_init(bypass_init_module); -module_exit(bypass_cleanup_module); - -int is_bypass_sd(int ifindex) -{ - return is_bypass(get_dev_idx_p(ifindex)); -} -EXPORT_SYMBOL(is_bypass_sd); - -int set_bypass_sd(int ifindex, int bypass_mode) -{ - - return set_bypass_fn(get_dev_idx_p(ifindex), bypass_mode); -} -EXPORT_SYMBOL(set_bypass_sd); - -int get_bypass_sd(int ifindex) -{ - - return get_bypass_fn(get_dev_idx_p(ifindex)); -} -EXPORT_SYMBOL(get_bypass_sd); - -int get_bypass_change_sd(int ifindex) -{ - - return get_bypass_change_fn(get_dev_idx_p(ifindex)); -} -EXPORT_SYMBOL(get_bypass_change_sd); - -int set_dis_bypass_sd(int ifindex, int dis_param) -{ - return set_dis_bypass_fn(get_dev_idx_p(ifindex), dis_param); -} -EXPORT_SYMBOL(set_dis_bypass_sd); - -int get_dis_bypass_sd(int ifindex) -{ - - return get_dis_bypass_fn(get_dev_idx_p(ifindex)); -} -EXPORT_SYMBOL(get_dis_bypass_sd); - -int set_bypass_pwoff_sd(int ifindex, int bypass_mode) -{ - return set_bypass_pwoff_fn(get_dev_idx_p(ifindex), bypass_mode); - -} -EXPORT_SYMBOL(set_bypass_pwoff_sd); - -int get_bypass_pwoff_sd(int ifindex) -{ - return get_bypass_pwoff_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bypass_pwoff_sd); - -int set_bypass_pwup_sd(int ifindex, int bypass_mode) -{ - return set_bypass_pwup_fn(get_dev_idx_p(ifindex), bypass_mode); - -} -EXPORT_SYMBOL(set_bypass_pwup_sd); - -int get_bypass_pwup_sd(int ifindex) -{ - return get_bypass_pwup_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bypass_pwup_sd); - -int set_bypass_wd_sd(int if_index, int ms_timeout, int *ms_timeout_set) -{ - if ((is_bypass(get_dev_idx_p(if_index))) <= 0) - return BP_NOT_CAP; - *ms_timeout_set = set_bypass_wd_fn(get_dev_idx_p(if_index), ms_timeout); - return 0; -} -EXPORT_SYMBOL(set_bypass_wd_sd); - -int get_bypass_wd_sd(int ifindex, int *timeout) -{ - return get_bypass_wd_fn(get_dev_idx_p(ifindex), timeout); - -} -EXPORT_SYMBOL(get_bypass_wd_sd); - -int get_wd_expire_time_sd(int ifindex, int *time_left) -{ - return get_wd_expire_time_fn(get_dev_idx_p(ifindex), time_left); -} -EXPORT_SYMBOL(get_wd_expire_time_sd); - -int reset_bypass_wd_timer_sd(int ifindex) -{ - return reset_bypass_wd_timer_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(reset_bypass_wd_timer_sd); - -int get_wd_set_caps_sd(int ifindex) -{ - return get_wd_set_caps_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_wd_set_caps_sd); - -int set_std_nic_sd(int ifindex, int nic_mode) -{ - return set_std_nic_fn(get_dev_idx_p(ifindex), nic_mode); - -} -EXPORT_SYMBOL(set_std_nic_sd); - -int get_std_nic_sd(int ifindex) -{ - return get_std_nic_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_std_nic_sd); - -int set_tap_sd(int ifindex, int tap_mode) -{ - return set_tap_fn(get_dev_idx_p(ifindex), tap_mode); - -} -EXPORT_SYMBOL(set_tap_sd); - -int get_tap_sd(int ifindex) -{ - return get_tap_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_tap_sd); - -int set_tap_pwup_sd(int ifindex, int tap_mode) -{ - return set_tap_pwup_fn(get_dev_idx_p(ifindex), tap_mode); - -} -EXPORT_SYMBOL(set_tap_pwup_sd); - -int get_tap_pwup_sd(int ifindex) -{ - return get_tap_pwup_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_tap_pwup_sd); - -int get_tap_change_sd(int ifindex) -{ - return get_tap_change_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_tap_change_sd); - -int set_dis_tap_sd(int ifindex, int dis_param) -{ - return set_dis_tap_fn(get_dev_idx_p(ifindex), dis_param); - -} -EXPORT_SYMBOL(set_dis_tap_sd); - -int get_dis_tap_sd(int ifindex) -{ - return get_dis_tap_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_dis_tap_sd); - -int set_bp_disc_sd(int ifindex, int disc_mode) -{ - return set_disc_fn(get_dev_idx_p(ifindex), disc_mode); - -} -EXPORT_SYMBOL(set_bp_disc_sd); - -int get_bp_disc_sd(int ifindex) -{ - return get_disc_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bp_disc_sd); - -int set_bp_disc_pwup_sd(int ifindex, int disc_mode) -{ - return set_disc_pwup_fn(get_dev_idx_p(ifindex), disc_mode); - -} -EXPORT_SYMBOL(set_bp_disc_pwup_sd); - -int get_bp_disc_pwup_sd(int ifindex) -{ - return get_disc_pwup_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bp_disc_pwup_sd); - -int get_bp_disc_change_sd(int ifindex) -{ - return get_disc_change_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bp_disc_change_sd); - -int set_bp_dis_disc_sd(int ifindex, int dis_param) -{ - return set_dis_disc_fn(get_dev_idx_p(ifindex), dis_param); - -} -EXPORT_SYMBOL(set_bp_dis_disc_sd); - -int get_bp_dis_disc_sd(int ifindex) -{ - return get_dis_disc_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bp_dis_disc_sd); - -int get_wd_exp_mode_sd(int ifindex) -{ - return get_wd_exp_mode_fn(get_dev_idx_p(ifindex)); -} -EXPORT_SYMBOL(get_wd_exp_mode_sd); - -int set_wd_exp_mode_sd(int ifindex, int param) -{ - return set_wd_exp_mode_fn(get_dev_idx_p(ifindex), param); - -} -EXPORT_SYMBOL(set_wd_exp_mode_sd); - -int set_tx_sd(int ifindex, int tx_state) -{ - return set_tx_fn(get_dev_idx_p(ifindex), tx_state); - -} -EXPORT_SYMBOL(set_tx_sd); - -int set_tpl_sd(int ifindex, int tpl_state) -{ - return set_tpl_fn(get_dev_idx_p(ifindex), tpl_state); - -} -EXPORT_SYMBOL(set_tpl_sd); - -int set_bp_hw_reset_sd(int ifindex, int status) -{ - return set_bp_hw_reset_fn(get_dev_idx_p(ifindex), status); - -} -EXPORT_SYMBOL(set_bp_hw_reset_sd); - -int set_wd_autoreset_sd(int ifindex, int param) -{ - return set_wd_autoreset_fn(get_dev_idx_p(ifindex), param); - -} -EXPORT_SYMBOL(set_wd_autoreset_sd); - -int get_wd_autoreset_sd(int ifindex) -{ - return get_wd_autoreset_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_wd_autoreset_sd); - -int get_bypass_caps_sd(int ifindex) -{ - return get_bypass_caps_fn(get_dev_idx_p(ifindex)); -} -EXPORT_SYMBOL(get_bypass_caps_sd); - -int get_bypass_slave_sd(int ifindex) -{ - struct bpctl_dev *pbpctl_dev_out; - int ret = get_bypass_slave_fn(get_dev_idx_p(ifindex), &pbpctl_dev_out); - - if (ret == 1) - return pbpctl_dev_out->ifindex; - return -1; - -} -EXPORT_SYMBOL(get_bypass_slave_sd); - -int get_tx_sd(int ifindex) -{ - return get_tx_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_tx_sd); - -int get_tpl_sd(int ifindex) -{ - return get_tpl_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_tpl_sd); - -int get_bp_hw_reset_sd(int ifindex) -{ - return get_bp_hw_reset_fn(get_dev_idx_p(ifindex)); - -} -EXPORT_SYMBOL(get_bp_hw_reset_sd); - -int get_bypass_info_sd(int ifindex, struct bp_info *bp_info) -{ - return get_bypass_info_fn(get_dev_idx_p(ifindex), bp_info->prod_name, &bp_info->fw_ver); -} -EXPORT_SYMBOL(get_bypass_info_sd); - -int bp_if_scan_sd(void) -{ - if_scan_init(); - return 0; -} -EXPORT_SYMBOL(bp_if_scan_sd); - -#define BP_PROC_DIR "bypass" - -static struct proc_dir_entry *bp_procfs_dir; - -static int procfs_add(char *proc_name, const struct file_operations *fops, - struct bpctl_dev *dev) -{ - struct bypass_pfs_sd *pfs = &dev->bypass_pfs_set; - - if (!proc_create_data(proc_name, 0644, pfs->bypass_entry, fops, dev)) - return -1; - return 0; -} - -#define RO_FOPS(name) \ -static int name##_open(struct inode *inode, struct file *file) \ -{ \ - return single_open(file, show_##name, PDE_DATA(inode));\ -} \ -static const struct file_operations name##_ops = { \ - .open = name##_open, \ - .read = seq_read, \ - .llseek = seq_lseek, \ - .release = single_release, \ -}; - -#define RW_FOPS(name) \ -static int name##_open(struct inode *inode, struct file *file) \ -{ \ - return single_open(file, show_##name, PDE_DATA(inode));\ -} \ -static const struct file_operations name##_ops = { \ - .open = name##_open, \ - .read = seq_read, \ - .write = name##_write, \ - .llseek = seq_lseek, \ - .release = single_release, \ -}; - -static int show_bypass_info(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - - seq_printf(m, "Name\t\t\t%s\n", dev->name); - seq_printf(m, "Firmware version\t0x%x\n", dev->bp_fw_ver); - return 0; -} -RO_FOPS(bypass_info) - -static int show_bypass_slave(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - struct bpctl_dev *slave = get_status_port_fn(dev); - - if (!slave) - slave = dev; - if (!slave) - seq_puts(m, "fail\n"); - else if (slave->ndev) - seq_printf(m, "%s\n", slave->ndev->name); - return 0; -} -RO_FOPS(bypass_slave) - -static int show_bypass_caps(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bypass_caps_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "-1\n"); - else - seq_printf(m, "0x%x\n", ret); - return 0; -} -RO_FOPS(bypass_caps) - -static int show_wd_set_caps(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_wd_set_caps_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "-1\n"); - else - seq_printf(m, "0x%x\n", ret); - return 0; -} -RO_FOPS(wd_set_caps) - -static int user_on_off(const void __user *buffer, size_t count) -{ - - char kbuf[256]; - int length = 0; - - if (count > (sizeof(kbuf) - 1)) - return -1; - - if (copy_from_user(&kbuf, buffer, count)) - return -1; - - kbuf[count] = '\0'; - length = strlen(kbuf); - if (kbuf[length - 1] == '\n') - kbuf[--length] = '\0'; - - if (strcmp(kbuf, "on") == 0) - return 1; - if (strcmp(kbuf, "off") == 0) - return 0; - return 0; -} - -static ssize_t bypass_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int bypass_param = user_on_off(buffer, count); - - if (bypass_param < 0) - return -1; - - set_bypass_fn(PDE_DATA(file_inode(file)), bypass_param); - return count; -} -static int show_bypass(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bypass_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - return 0; -} -RW_FOPS(bypass) - -static ssize_t tap_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int tap_param = user_on_off(buffer, count); - - if (tap_param < 0) - return -1; - - set_tap_fn(PDE_DATA(file_inode(file)), tap_param); - return count; -} -static int show_tap(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_tap_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - return 0; -} -RW_FOPS(tap) - -static ssize_t disc_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int tap_param = user_on_off(buffer, count); - - if (tap_param < 0) - return -1; - - set_disc_fn(PDE_DATA(file_inode(file)), tap_param); - return count; -} -static int show_disc(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_disc_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - return 0; -} -RW_FOPS(disc) - -static int show_bypass_change(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bypass_change_fn(dev); - - if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "fail\n"); - return 0; -} -RO_FOPS(bypass_change) - -static int show_tap_change(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_tap_change_fn(dev); - - if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "fail\n"); - return 0; -} -RO_FOPS(tap_change) - -static int show_disc_change(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_disc_change_fn(dev); - - if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "fail\n"); - return 0; -} -RO_FOPS(disc_change) - -static ssize_t bypass_wd_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - struct bpctl_dev *dev = PDE_DATA(file_inode(file)); - int timeout; - int ret = kstrtoint_from_user(buffer, count, 10, &timeout); - - if (ret) - return ret; - set_bypass_wd_fn(dev, timeout); - return count; -} -static int show_bypass_wd(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = 0, timeout = 0; - - ret = get_bypass_wd_fn(dev, &timeout); - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (timeout == -1) - seq_puts(m, "unknown\n"); - else if (timeout == 0) - seq_puts(m, "disable\n"); - else - seq_printf(m, "%d\n", timeout); - return 0; -} -RW_FOPS(bypass_wd) - -static int show_wd_expire_time(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = 0, timeout = 0; - - ret = get_wd_expire_time_fn(dev, &timeout); - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (timeout == -1) - seq_puts(m, "expire\n"); - else if (timeout == 0) - seq_puts(m, "disable\n"); - else - seq_printf(m, "%d\n", timeout); - return 0; -} -RO_FOPS(wd_expire_time) - -static ssize_t tpl_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - struct bpctl_dev *dev = PDE_DATA(file_inode(file)); - int tpl_param = user_on_off(buffer, count); - - if (tpl_param < 0) - return -1; - - set_tpl_fn(dev, tpl_param); - return count; -} -static int show_tpl(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_tpl_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - return 0; -} -RW_FOPS(tpl) - -#ifdef PMC_FIX_FLAG -static ssize_t wait_at_pwup_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - struct bpctl_dev *dev = PDE_DATA(file_inode(file)); - int tpl_param = user_on_off(buffer, count); - - if (tpl_param < 0) - return -1; - - set_bp_wait_at_pwup_fn(dev, tpl_param); - return count; -} -static int show_wait_at_pwup(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bp_wait_at_pwup_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - return 0; -} -RW_FOPS(wait_at_pwup) - -static ssize_t hw_reset_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - struct bpctl_dev *dev = PDE_DATA(file_inode(file)); - int tpl_param = user_on_off(buffer, count); - - if (tpl_param < 0) - return -1; - - set_bp_hw_reset_fn(dev, tpl_param); - return count; -} -static int show_hw_reset(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bp_hw_reset_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 1) - seq_puts(m, "on\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - return 0; -} -RW_FOPS(hw_reset) - -#endif /*PMC_WAIT_FLAG */ - -static int show_reset_bypass_wd(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = reset_bypass_wd_timer_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "disable\n"); - else if (ret == 1) - seq_puts(m, "success\n"); - return 0; -} -RO_FOPS(reset_bypass_wd) - -static ssize_t dis_bypass_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int bypass_param = user_on_off(buffer, count); - - if (bypass_param < 0) - return -EINVAL; - - set_dis_bypass_fn(PDE_DATA(file_inode(file)), bypass_param); - return count; -} -static int show_dis_bypass(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_dis_bypass_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(dis_bypass) - -static ssize_t dis_tap_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int tap_param = user_on_off(buffer, count); - - if (tap_param < 0) - return -EINVAL; - - set_dis_tap_fn(PDE_DATA(file_inode(file)), tap_param); - return count; -} -static int show_dis_tap(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_dis_tap_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(dis_tap) - -static ssize_t dis_disc_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int tap_param = user_on_off(buffer, count); - - if (tap_param < 0) - return -EINVAL; - - set_dis_disc_fn(PDE_DATA(file_inode(file)), tap_param); - return count; -} -static int show_dis_disc(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_dis_disc_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(dis_disc) - -static ssize_t bypass_pwup_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int bypass_param = user_on_off(buffer, count); - - if (bypass_param < 0) - return -EINVAL; - - set_bypass_pwup_fn(PDE_DATA(file_inode(file)), bypass_param); - return count; -} -static int show_bypass_pwup(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bypass_pwup_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(bypass_pwup) - -static ssize_t bypass_pwoff_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int bypass_param = user_on_off(buffer, count); - - if (bypass_param < 0) - return -EINVAL; - - set_bypass_pwoff_fn(PDE_DATA(file_inode(file)), bypass_param); - return count; -} -static int show_bypass_pwoff(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_bypass_pwoff_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(bypass_pwoff) - -static ssize_t tap_pwup_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int tap_param = user_on_off(buffer, count); - - if (tap_param < 0) - return -EINVAL; - - set_tap_pwup_fn(PDE_DATA(file_inode(file)), tap_param); - return count; -} -static int show_tap_pwup(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_tap_pwup_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(tap_pwup) - -static ssize_t disc_pwup_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int tap_param = user_on_off(buffer, count); - - if (tap_param < 0) - return -EINVAL; - - set_disc_pwup_fn(PDE_DATA(file_inode(file)), tap_param); - return count; -} -static int show_disc_pwup(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_disc_pwup_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(disc_pwup) - -static ssize_t std_nic_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int bypass_param = user_on_off(buffer, count); - - if (bypass_param < 0) - return -EINVAL; - - set_std_nic_fn(PDE_DATA(file_inode(file)), bypass_param); - return count; -} -static int show_std_nic(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_std_nic_fn(dev); - - if (ret == BP_NOT_CAP) - seq_puts(m, "fail\n"); - else if (ret == 0) - seq_puts(m, "off\n"); - else - seq_puts(m, "on\n"); - return 0; -} -RW_FOPS(std_nic) - -static ssize_t wd_exp_mode_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - char kbuf[256]; - int bypass_param = 0, length = 0; - - if (count > (sizeof(kbuf) - 1)) - return -1; - - if (copy_from_user(&kbuf, buffer, count)) - return -1; - - kbuf[count] = '\0'; - length = strlen(kbuf); - if (kbuf[length - 1] == '\n') - kbuf[--length] = '\0'; - - if (strcmp(kbuf, "tap") == 0) - bypass_param = 1; - else if (strcmp(kbuf, "bypass") == 0) - bypass_param = 0; - else if (strcmp(kbuf, "disc") == 0) - bypass_param = 2; - - set_wd_exp_mode_fn(PDE_DATA(file_inode(file)), bypass_param); - - return count; -} -static int show_wd_exp_mode(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_wd_exp_mode_fn(dev); - - if (ret == 1) - seq_puts(m, "tap\n"); - else if (ret == 0) - seq_puts(m, "bypass\n"); - else if (ret == 2) - seq_puts(m, "disc\n"); - else - seq_puts(m, "fail\n"); - return 0; -} -RW_FOPS(wd_exp_mode) - -static ssize_t wd_autoreset_write(struct file *file, const char __user *buffer, - size_t count, loff_t *pos) -{ - int timeout; - int ret = kstrtoint_from_user(buffer, count, 10, &timeout); - - if (ret) - return ret; - set_wd_autoreset_fn(PDE_DATA(file_inode(file)), timeout); - return count; -} -static int show_wd_autoreset(struct seq_file *m, void *v) -{ - struct bpctl_dev *dev = m->private; - int ret = get_wd_autoreset_fn(dev); - - if (ret >= 0) - seq_printf(m, "%d\n", ret); - else - seq_puts(m, "fail\n"); - return 0; -} -RW_FOPS(wd_autoreset) - -static int bypass_proc_create_dev_sd(struct bpctl_dev *pbp_device_block) -{ - struct bypass_pfs_sd *current_pfs = &(pbp_device_block->bypass_pfs_set); - static struct proc_dir_entry *procfs_dir; - int ret = 0; - - if (!pbp_device_block->ndev) - return -1; - sprintf(current_pfs->dir_name, "bypass_%s", - pbp_device_block->ndev->name); - - if (!bp_procfs_dir) - return -1; - - /* create device proc dir */ - procfs_dir = proc_mkdir(current_pfs->dir_name, bp_procfs_dir); - if (!procfs_dir) { - printk(KERN_DEBUG "Could not create procfs directory %s\n", - current_pfs->dir_name); - return -1; - } - current_pfs->bypass_entry = procfs_dir; - -#define ENTRY(x) (ret |= procfs_add(#x, &x##_ops, pbp_device_block)) - - ENTRY(bypass_info); - if (pbp_device_block->bp_caps & SW_CTL_CAP) { - /* Create set param proc's */ - ENTRY(bypass_slave); - ENTRY(bypass_caps); - ENTRY(wd_set_caps); - ENTRY(bypass_wd); - ENTRY(wd_expire_time); - ENTRY(reset_bypass_wd); - ENTRY(std_nic); - if (pbp_device_block->bp_caps & BP_CAP) { - ENTRY(bypass); - ENTRY(dis_bypass); - ENTRY(bypass_pwup); - ENTRY(bypass_pwoff); - ENTRY(bypass_change); - } - if (pbp_device_block->bp_caps & TAP_CAP) { - ENTRY(tap); - ENTRY(dis_tap); - ENTRY(tap_pwup); - ENTRY(tap_change); - } - if (pbp_device_block->bp_caps & DISC_CAP) { - ENTRY(disc); - ENTRY(dis_disc); - ENTRY(disc_pwup); - ENTRY(disc_change); - } - - ENTRY(wd_exp_mode); - ENTRY(wd_autoreset); - ENTRY(tpl); -#ifdef PMC_FIX_FLAG - ENTRY(wait_at_pwup); - ENTRY(hw_reset); -#endif - } -#undef ENTRY - if (ret < 0) - printk(KERN_DEBUG "Create proc entry failed\n"); - - return ret; -} - -static int bypass_proc_remove_dev_sd(struct bpctl_dev *pbp_device_block) -{ - struct bypass_pfs_sd *current_pfs = &pbp_device_block->bypass_pfs_set; - - remove_proc_subtree(current_pfs->dir_name, bp_procfs_dir); - current_pfs->bypass_entry = NULL; - return 0; -} diff --git a/drivers/staging/silicom/bypass.h b/drivers/staging/silicom/bypass.h deleted file mode 100644 index 08fa7a0..0000000 --- a/drivers/staging/silicom/bypass.h +++ /dev/null @@ -1,202 +0,0 @@ -/******************************************************************************/ -/* */ -/* Bypass Control utility, Copyright (c) 2005 Silicom */ -/* All rights reserved. */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* */ -/******************************************************************************/ - -#ifndef BYPASS_H -#define BYPASS_H - -/* Bypass related */ - -#define SYNC_CMD_VAL 2 /* 10b */ -#define SYNC_CMD_LEN 2 - -#define WR_CMD_VAL 2 /* 10b */ -#define WR_CMD_LEN 2 - -#define RD_CMD_VAL 1 /* 10b */ -#define RD_CMD_LEN 2 - -#define ADDR_CMD_LEN 4 - -#define WR_DATA_LEN 8 -#define RD_DATA_LEN 8 - -#define PIC_SIGN_REG_ADDR 0x7 -#define PIC_SIGN_VALUE 0xcd - -#define STATUS_REG_ADDR 0 -#define WDT_EN_MASK 0x01 /* BIT_0 */ -#define CMND_EN_MASK 0x02 /* BIT_1 */ -#define DIS_BYPASS_CAP_MASK 0x04 /* BIT_2 Bypass Cap is disable*/ -#define DFLT_PWRON_MASK 0x08 /* BIT_3 */ -#define BYPASS_OFF_MASK 0x10 /* BIT_4 */ -#define BYPASS_FLAG_MASK 0x20 /* BIT_5 */ -#define STD_NIC_MASK (DIS_BYPASS_CAP_MASK | BYPASS_OFF_MASK | DFLT_PWRON_MASK) -#define WD_EXP_FLAG_MASK 0x40 /* BIT_6 */ -#define DFLT_PWROFF_MASK 0x80 /* BIT_7 */ -#define STD_NIC_PWOFF_MASK (DIS_BYPASS_CAP_MASK | BYPASS_OFF_MASK | DFLT_PWRON_MASK | DFLT_PWROFF_MASK) - -#define PRODUCT_CAP_REG_ADDR 0x5 -#define BYPASS_SUPPORT_MASK 0x01 /* BIT_0 */ -#define TAP_SUPPORT_MASK 0x02 /* BIT_1 */ -#define NORMAL_UNSUPPORT_MASK 0x04 /* BIT_2 */ -#define DISC_SUPPORT_MASK 0x08 /* BIT_3 */ -#define TPL2_SUPPORT_MASK 0x10 /* BIT_4 */ -#define DISC_PORT_SUPPORT_MASK 0x20 /* BIT_5 */ - -#define STATUS_TAP_REG_ADDR 0x6 -#define WDTE_TAP_BPN_MASK 0x01 /* BIT_1 1 when wdt expired -> TAP, 0 - Bypass */ -#define DIS_TAP_CAP_MASK 0x04 /* BIT_2 TAP Cap is disable*/ -#define DFLT_PWRON_TAP_MASK 0x08 /* BIT_3 */ -#define TAP_OFF_MASK 0x10 /* BIT_4 */ -#define TAP_FLAG_MASK 0x20 /* BIT_5 */ -#define TX_DISA_MASK 0x40 -#define TX_DISB_MASK 0x80 - -#define STD_NIC_TAP_MASK (DIS_TAP_CAP_MASK | TAP_OFF_MASK | DFLT_PWRON_TAP_MASK) - -#define STATUS_DISC_REG_ADDR 13 -#define WDTE_DISC_BPN_MASK 0x01 /* BIT_0 1 when wdt expired -> TAP, 0 - Bypass */ -#define STD_NIC_ON_MASK 0x02 /* BIT_1 */ -#define DIS_DISC_CAP_MASK 0x04 /* BIT_2 TAP Cap is disable*/ -#define DFLT_PWRON_DISC_MASK 0x08 /* BIT_3 */ -#define DISC_OFF_MASK 0x10 /* BIT_4 */ -#define DISC_FLAG_MASK 0x20 /* BIT_5 */ -#define TPL2_FLAG_MASK 0x40 /* BIT_6 */ -#define STD_NIC_DISC_MASK DIS_DISC_CAP_MASK - -#define CONT_CONFIG_REG_ADDR 12 -#define EN_HW_RESET_MASK 0x2 /* BIT_1 */ -#define WAIT_AT_PWUP_MASK 0x1 /* BIT_0 */ - -#define VER_REG_ADDR 0x1 -#define BP_FW_VER_A0 0xa0 -#define BP_FW_VER_A1 0xa1 - -#define INT_VER_MASK 0xf0 -#define EXT_VER_MASK 0xf -/* */ -#define PXG2BPI_VER 0x0 -#define PXG2TBPI_VER 0x1 -#define PXE2TBPI_VER 0x2 -#define PXG4BPFI_VER 0x4 -#define BP_FW_EXT_VER7 0x6 -#define BP_FW_EXT_VER8 0x8 -#define BP_FW_EXT_VER9 0x9 - -#define OLD_IF_VER -1 - -#define CMND_REG_ADDR 10 /* 1010b */ -#define WDT_REG_ADDR 4 -#define TMRL_REG_ADDR 2 -#define TMRH_REG_ADDR 3 - -/* NEW_FW */ -#define WDT_INTERVAL 1 /* 5 //8 */ -#define WDT_CMND_INTERVAL 200 /* 50 */ -#define CMND_INTERVAL 200 /* 100 usec */ -#define PULSE_TIME 100 - -/* OLD_FW */ -#define INIT_CMND_INTERVAL 40 -#define PULSE_INTERVAL 5 -#define WDT_TIME_CNT 3 - -/* Intel Commands */ - -#define CMND_OFF_INT 0xf -#define PWROFF_BYPASS_ON_INT 0x5 -#define BYPASS_ON_INT 0x6 -#define DIS_BYPASS_CAP_INT 0x4 -#define RESET_WDT_INT 0x1 - -/* Intel timing */ - -#define BYPASS_DELAY_INT 4 /* msec */ -#define CMND_INTERVAL_INT 2 /* msec */ - -/* Silicom Commands */ -#define CMND_ON 0x4 -#define CMND_OFF 0x2 -#define BYPASS_ON 0xa -#define BYPASS_OFF 0x8 -#define PORT_LINK_EN 0xe -#define PORT_LINK_DIS 0xc -#define WDT_ON 0x10 /* 0x1f (11111) - max */ -#define TIMEOUT_UNIT 100 -#define TIMEOUT_MAX_STEP 15 -#define WDT_TIMEOUT_MIN 100 /* msec */ -#define WDT_TIMEOUT_MAX 3276800 /* msec */ -#define WDT_AUTO_MIN_INT 500 -#define WDT_TIMEOUT_DEF WDT_TIMEOUT_MIN -#define WDT_OFF 0x6 -#define WDT_RELOAD 0x9 -#define RESET_CONT 0x20 -#define DIS_BYPASS_CAP 0x22 -#define EN_BYPASS_CAP 0x24 -#define BYPASS_STATE_PWRON 0x26 -#define NORMAL_STATE_PWRON 0x28 -#define BYPASS_STATE_PWROFF 0x27 -#define NORMAL_STATE_PWROFF 0x29 -#define TAP_ON 0xb -#define TAP_OFF 0x9 -#define TAP_STATE_PWRON 0x2a -#define DIS_TAP_CAP 0x2c -#define EN_TAP_CAP 0x2e -#define STD_NIC_OFF 0x86 -#define STD_NIC_ON 0x84 -#define DISC_ON 0x85 -#define DISC_OFF 0x8a -#define DISC_STATE_PWRON 0x87 -#define DIS_DISC_CAP 0x88 -#define EN_DISC_CAP 0x89 -#define TPL2_ON 0x8c -#define TPL2_OFF 0x8b -#define BP_WAIT_AT_PWUP_EN 0x80 -#define BP_WAIT_AT_PWUP_DIS 0x81 -#define BP_HW_RESET_EN 0x82 -#define BP_HW_RESET_DIS 0x83 - -#define TX_DISA 0x8d -#define TX_DISB 0x8e -#define TX_ENA 0xA0 -#define TX_ENB 0xA1 - -#define TX_DISA_PWRUP 0xA2 -#define TX_DISB_PWRUP 0xA3 -#define TX_ENA_PWRUP 0xA4 -#define TX_ENB_PWRUP 0xA5 - -#define BYPASS_CAP_DELAY 21 /* msec */ -#define DFLT_PWRON_DELAY 10 /* msec */ -#define LATCH_DELAY 13 /* msec */ -#define EEPROM_WR_DELAY 8 /* msec */ - -#define BP_LINK_MON_DELAY 4 /* sec */ - -#define BP_FW_EXT_VER0 0xa0 -#define BP_FW_EXT_VER1 0xa1 -#define BP_FW_EXT_VER2 0xb1 - -#define BP_OK 0 -#define BP_NOT_CAP -1 -#define WDT_STATUS_EXP -2 -#define WDT_STATUS_UNKNOWN -1 -#define WDT_STATUS_EN 1 -#define WDT_STATUS_DIS 0 - -#ifdef BP_SELF_TEST -#define ETH_P_BPTEST 0xabba - -#define BPTEST_DATA_LEN 60 -#endif - -#endif /* BYPASS_H */ diff --git a/drivers/staging/silicom/bypasslib/Makefile b/drivers/staging/silicom/bypasslib/Makefile deleted file mode 100644 index 80e8b9b..0000000 --- a/drivers/staging/silicom/bypasslib/Makefile +++ /dev/null @@ -1,6 +0,0 @@ -# -# Makefile for the Bypass network device drivers. -# - -obj-$(CONFIG_SBYPASS) += bypass.o - diff --git a/drivers/staging/silicom/bypasslib/bp_ioctl.h b/drivers/staging/silicom/bypasslib/bp_ioctl.h deleted file mode 100644 index a13932a..0000000 --- a/drivers/staging/silicom/bypasslib/bp_ioctl.h +++ /dev/null @@ -1,198 +0,0 @@ -/******************************************************************************/ -/* */ -/* bypass library, Copyright (c) 2004-2006 Silicom, Ltd */ -/* Corporation. */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* */ -/* */ -/******************************************************************************/ - -#ifndef BP_IOCTL_H -#define BP_IOCTL_H - -#define BP_CAP 0x01 /* BIT_0 */ -#define BP_STATUS_CAP 0x02 /* BIT_1 */ -#define BP_STATUS_CHANGE_CAP 0x04 /* BIT_2 */ -#define SW_CTL_CAP 0x08 /* BIT_3 */ -#define BP_DIS_CAP 0x10 /* BIT_4 */ -#define BP_DIS_STATUS_CAP 0x20 /* BIT_5 */ -#define STD_NIC_CAP 0x40 /* BIT_6 */ -#define BP_PWOFF_ON_CAP 0x80 /* BIT_7 */ -#define BP_PWOFF_OFF_CAP 0x0100 /* BIT_8 */ -#define BP_PWOFF_CTL_CAP 0x0200 /* BIT_9 */ -#define BP_PWUP_ON_CAP 0x0400 /* BIT_10 */ -#define BP_PWUP_OFF_CAP 0x0800 /* BIT_11 */ -#define BP_PWUP_CTL_CAP 0x1000 /* BIT_12 */ -#define WD_CTL_CAP 0x2000 /* BIT_13 */ -#define WD_STATUS_CAP 0x4000 /* BIT_14 */ -#define WD_TIMEOUT_CAP 0x8000 /* BIT_15 */ -#define TX_CTL_CAP 0x10000 /* BIT_16 */ -#define TX_STATUS_CAP 0x20000 /* BIT_17 */ -#define TAP_CAP 0x40000 /* BIT_18 */ -#define TAP_STATUS_CAP 0x80000 /* BIT_19 */ -#define TAP_STATUS_CHANGE_CAP 0x100000 /* BIT_20 */ -#define TAP_DIS_CAP 0x200000 /* BIT_21 */ -#define TAP_DIS_STATUS_CAP 0x400000 /* BIT_22 */ -#define TAP_PWUP_ON_CAP 0x800000 /* BIT_23 */ -#define TAP_PWUP_OFF_CAP 0x1000000 /* BIT 24 */ -#define TAP_PWUP_CTL_CAP 0x2000000 /* BIT 25 */ -#define NIC_CAP_NEG 0x4000000 /* BIT 26 */ -#define TPL_CAP 0x8000000 /* BIT 27 */ -#define DISC_CAP 0x10000000 /* BIT 28 */ -#define DISC_DIS_CAP 0x20000000 /* BIT 29 */ -#define DISC_PWUP_CTL_CAP 0x40000000 /* BIT 30 */ - -#define WD_MIN_TIME_MASK(val) (val & 0xf) -#define WD_STEP_COUNT_MASK(val) ((val & 0xf) << 5) -#define WDT_STEP_TIME 0x10 /* BIT_4 */ - -#define WD_MIN_TIME_GET(desc) (desc & 0xf) -#define WD_STEP_COUNT_GET(desc) ((desc>>5) & 0xf) - -enum { - IS_BYPASS = 1, - GET_BYPASS_SLAVE, - GET_BYPASS_CAPS, - GET_WD_SET_CAPS, - SET_BYPASS, - GET_BYPASS, - GET_BYPASS_CHANGE, - SET_BYPASS_WD, - GET_BYPASS_WD, - GET_WD_EXPIRE_TIME, - RESET_BYPASS_WD_TIMER, - SET_DIS_BYPASS, - GET_DIS_BYPASS, - SET_BYPASS_PWOFF, - GET_BYPASS_PWOFF, - SET_BYPASS_PWUP, - GET_BYPASS_PWUP, - SET_STD_NIC, - GET_STD_NIC, - SET_TX, - GET_TX, - SET_TAP, - GET_TAP, - GET_TAP_CHANGE, - SET_DIS_TAP, - GET_DIS_TAP, - SET_TAP_PWUP, - GET_TAP_PWUP, - SET_WD_EXP_MODE, - GET_WD_EXP_MODE, - SET_WD_AUTORESET, - GET_WD_AUTORESET, - SET_TPL, - GET_TPL, - SET_DISC, - GET_DISC, - GET_DISC_CHANGE, - SET_DIS_DISC, - GET_DIS_DISC, - SET_DISC_PWUP, - GET_DISC_PWUP, - - GET_BYPASS_INFO = 100, - GET_BP_WAIT_AT_PWUP, - SET_BP_WAIT_AT_PWUP, - GET_BP_HW_RESET, - SET_BP_HW_RESET, -}; - -enum { - IF_SCAN_SD, - GET_DEV_NUM_SD, - IS_BYPASS_SD, - GET_BYPASS_SLAVE_SD, - GET_BYPASS_CAPS_SD, - GET_WD_SET_CAPS_SD, - SET_BYPASS_SD, - GET_BYPASS_SD, - GET_BYPASS_CHANGE_SD, - SET_BYPASS_WD_SD, - GET_BYPASS_WD_SD, - GET_WD_EXPIRE_TIME_SD, - RESET_BYPASS_WD_TIMER_SD, - SET_DIS_BYPASS_SD, - GET_DIS_BYPASS_SD, - SET_BYPASS_PWOFF_SD, - GET_BYPASS_PWOFF_SD, - SET_BYPASS_PWUP_SD, - GET_BYPASS_PWUP_SD, - SET_STD_NIC_SD, - GET_STD_NIC_SD, - SET_TX_SD, - GET_TX_SD, - SET_TAP_SD, - GET_TAP_SD, - GET_TAP_CHANGE_SD, - SET_DIS_TAP_SD, - GET_DIS_TAP_SD, - SET_TAP_PWUP_SD, - GET_TAP_PWUP_SD, - SET_WD_EXP_MODE_SD, - GET_WD_EXP_MODE_SD, - SET_WD_AUTORESET_SD, - GET_WD_AUTORESET_SD, - SET_TPL_SD, - GET_TPL_SD, - SET_DISC_SD, - GET_DISC_SD, - GET_DISC_CHANGE_SD, - SET_DIS_DISC_SD, - GET_DIS_DISC_SD, - SET_DISC_PWUP_SD, - GET_DISC_PWUP_SD, - - GET_BYPASS_INFO_SD = 100, - GET_BP_WAIT_AT_PWUP_SD, - SET_BP_WAIT_AT_PWUP_SD, - GET_BP_HW_RESET_SD, - SET_BP_HW_RESET_SD, - -}; - -#define SIOCGIFBYPASS (SIOCDEVPRIVATE+10) - -struct bp_info { - char prod_name[14]; - unsigned char fw_ver; -}; - -/* for passing single values */ -struct if_bypass { - char if_name[IFNAMSIZ]; - int cmd; - int data; -}; -struct if_bypass_info { - char if_name[IFNAMSIZ]; - char cmd; - struct bp_info bp_info; -}; - -/* -* The major device number. We can't rely on dynamic -* registration any more, because ioctls need to know -* it. -*/ - -#define MAGIC_NUM 'J' - -/* for passing single values */ -struct bpctl_cmd { - int status; - int data[8]; - int in_param[8]; - int out_param[8]; -}; - -#define IOCTL_TX_MSG(cmd) _IOWR(MAGIC_NUM, cmd, struct bpctl_cmd) - -#define DEVICE_NAME "bpctl" - -#endif diff --git a/drivers/staging/silicom/bypasslib/bplibk.h b/drivers/staging/silicom/bypasslib/bplibk.h deleted file mode 100644 index c5c75c4..0000000 --- a/drivers/staging/silicom/bypasslib/bplibk.h +++ /dev/null @@ -1,36 +0,0 @@ -/******************************************************************************/ -/* */ -/* bypass library, Copyright (c) 2004 Silicom, Ltd */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* */ -/* bplib.h */ -/* */ -/******************************************************************************/ -#ifndef BYPASS_H -#define BYPASS_H - -#include "bp_ioctl.h" -#include "libbp_sd.h" - -#define IF_NAME "eth" -#define SILICOM_VID 0x1374 -#define SILICOM_BP_PID_MIN 0x24 -#define SILICOM_BP_PID_MAX 0x5f -#define INTEL_PEG4BPII_PID 0x10a0 -#define INTEL_PEG4BPFII_PID 0x10a1 - -#define PEGII_IF_SERIES(vid, pid) \ - ((vid == 0x8086) && \ - ((pid == INTEL_PEG4BPII_PID) || \ - (pid == INTEL_PEG4BPFII_PID))) - -#ifdef BP_VENDOR_SUPPORT -char *bp_desc_array[] = { "e1000bp", "e1000bpe", "slcm5700", - "bnx2xbp", "ixgbp", "ixgbpe", NULL }; -#endif - -#endif diff --git a/drivers/staging/silicom/bypasslib/bypass.c b/drivers/staging/silicom/bypasslib/bypass.c deleted file mode 100644 index 8e714a8..0000000 --- a/drivers/staging/silicom/bypasslib/bypass.c +++ /dev/null @@ -1,536 +0,0 @@ -/******************************************************************************/ -/* */ -/* bypass library, Copyright (c) 2004-2007 Silicom, Ltd */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* */ -/* bypass.c */ -/* */ -/******************************************************************************/ - -#if defined(CONFIG_SMP) && !defined(__SMP__) -#define __SMP__ -#endif - -#include -#include -#include - -#include -#include - -#include /* struct device, and other headers */ -#include -#include -#include -#include - -#include - -#include "bplibk.h" - -#define MOD_NAME "bypass" - -#define VERSION "\n"MOD_NAME" version 9.0.4\n" - -MODULE_AUTHOR("www.silicom.co.il"); - -MODULE_LICENSE("GPL"); - -static int do_cmd(struct net_device *dev, struct ifreq *ifr, int cmd, int *data) -{ - int ret = -1; - struct if_bypass *bypass_cb; - - bypass_cb = (struct if_bypass *)ifr; - bypass_cb->cmd = cmd; - bypass_cb->data = *data; - - if (dev->netdev_ops && dev->netdev_ops->ndo_do_ioctl) { - ret = dev->netdev_ops->ndo_do_ioctl(dev, ifr, SIOCGIFBYPASS); - *data = bypass_cb->data; - } - - return ret; -} - -static int doit(int cmd, int if_index, int *data) -{ - struct ifreq ifr; - int ret = -1; - struct net_device *dev; - struct net_device *n; - - for_each_netdev_safe(&init_net, dev, n) { - if (dev->ifindex == if_index) { - ret = do_cmd(dev, &ifr, cmd, data); - if (ret < 0) - ret = -1; - } - } - - return ret; -} - -#define bp_symbol_get(fn_name) symbol_get(fn_name) -#define bp_symbol_put(fn_name) symbol_put(fn_name) - -#define SET_BPLIB_INT_FN(fn_name, arg_type, arg, ret) \ -({ int (*fn_ex)(arg_type) = NULL; \ - fn_ex = bp_symbol_get(fn_name##_sd); \ - if (fn_ex) { \ - ret = fn_ex(arg); \ - bp_symbol_put(fn_name##_sd); \ - } else { \ - ret = -1; \ - } \ -}) - -#define SET_BPLIB_INT_FN2(fn_name, arg_type, arg, arg_type1, arg1, ret)\ -({ int (*fn_ex)(arg_type, arg_type1) = NULL; \ - fn_ex = bp_symbol_get(fn_name##_sd); \ - if (fn_ex) { \ - ret = fn_ex(arg, arg1); \ - bp_symbol_put(fn_name##_sd); \ - } else { \ - ret = -1; \ - } \ -}) - -#define SET_BPLIB_INT_FN3(fn_name, arg_type, arg, arg_type1, arg1, \ - arg_type2, arg2, ret) \ -({ int (*fn_ex)(arg_type, arg_type1, arg_type2) = NULL; \ - fn_ex = bp_symbol_get(fn_name##_sd); \ - if (fn_ex) { \ - ret = fn_ex(arg, arg1, arg2); \ - bp_symbol_put(fn_name##_sd); \ - } else { \ - ret = -1; \ - } \ -}) - -#define DO_BPLIB_GET_ARG_FN(fn_name, ioctl_val, if_index) \ -({ int data, ret = 0; \ - if (is_dev_sd(if_index)) { \ - SET_BPLIB_INT_FN(fn_name, int, if_index, ret); \ - return ret; \ - } \ - return doit(ioctl_val, if_index, &data); \ -}) - -#define DO_BPLIB_SET_ARG_FN(fn_name, ioctl_val, if_index, arg) \ -({ int data, ret = 0; \ - if (is_dev_sd(if_index)) { \ - SET_BPLIB_INT_FN2(fn_name, int, if_index, int, \ - arg, ret); \ - return ret; \ - } \ - data = arg; \ - return doit(ioctl_val, if_index, &data); \ -}) - -static int is_dev_sd(int if_index) -{ - int ret = 0; - - SET_BPLIB_INT_FN(is_bypass, int, if_index, ret); - return ret >= 0 ? 1 : 0; -} - -static int is_bypass_dev(int if_index) -{ - struct pci_dev *pdev = NULL; - struct net_device *dev = NULL; - struct ifreq ifr; - int ret = 0; - int data = 0; - - while ((pdev = pci_get_class(PCI_CLASS_NETWORK_ETHERNET << 8, pdev))) { - dev = pci_get_drvdata(pdev); - if ((dev != NULL) && (dev->ifindex == if_index)) { - if ((pdev->vendor == SILICOM_VID) && - (pdev->device >= SILICOM_BP_PID_MIN) && - (pdev->device <= SILICOM_BP_PID_MAX)) { - goto send_cmd; - } -#if defined(BP_VENDOR_SUPPORT) && defined(ETHTOOL_GDRVINFO) - else { - struct ethtool_drvinfo info; - const struct ethtool_ops *ops = - dev->ethtool_ops; - int k = 0; - - if (ops->get_drvinfo) { - memset(&info, 0, sizeof(info)); - info.cmd = ETHTOOL_GDRVINFO; - ops->get_drvinfo(dev, &info); - for (; bp_desc_array[k]; k++) - if (!(strcmp(bp_desc_array[k], - info.driver))) - goto send_cmd; - - } - - } -#endif - return -1; - } - } - send_cmd: - ret = do_cmd(dev, &ifr, IS_BYPASS, &data); - return ret < 0 ? -1 : ret; -} - -static int is_bypass(int if_index) -{ - int ret = 0; - - SET_BPLIB_INT_FN(is_bypass, int, if_index, ret); - - if (ret < 0) - return is_bypass_dev(if_index); - return ret; -} -EXPORT_SYMBOL(is_bypass); - -static int get_bypass_slave(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bypass_slave, GET_BYPASS_SLAVE, if_index); -} -EXPORT_SYMBOL(get_bypass_slave); - -static int get_bypass_caps(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bypass_caps, GET_BYPASS_CAPS, if_index); -} -EXPORT_SYMBOL(get_bypass_caps); - -static int get_wd_set_caps(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_wd_set_caps, GET_WD_SET_CAPS, if_index); -} -EXPORT_SYMBOL(get_wd_set_caps); - -static int set_bypass(int if_index, int bypass_mode) -{ - DO_BPLIB_SET_ARG_FN(set_bypass, SET_BYPASS, if_index, bypass_mode); -} -EXPORT_SYMBOL(set_bypass); - -static int get_bypass(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bypass, GET_BYPASS, if_index); -} -EXPORT_SYMBOL(get_bypass); - -static int get_bypass_change(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bypass_change, GET_BYPASS_CHANGE, if_index); -} -EXPORT_SYMBOL(get_bypass_change); - -static int set_dis_bypass(int if_index, int dis_bypass) -{ - DO_BPLIB_SET_ARG_FN(set_dis_bypass, SET_DIS_BYPASS, if_index, - dis_bypass); -} -EXPORT_SYMBOL(set_dis_bypass); - -static int get_dis_bypass(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_dis_bypass, GET_DIS_BYPASS, if_index); -} -EXPORT_SYMBOL(get_dis_bypass); - -static int set_bypass_pwoff(int if_index, int bypass_mode) -{ - DO_BPLIB_SET_ARG_FN(set_bypass_pwoff, SET_BYPASS_PWOFF, if_index, - bypass_mode); -} -EXPORT_SYMBOL(set_bypass_pwoff); - -static int get_bypass_pwoff(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bypass_pwoff, GET_BYPASS_PWOFF, if_index); -} -EXPORT_SYMBOL(get_bypass_pwoff); - -static int set_bypass_pwup(int if_index, int bypass_mode) -{ - DO_BPLIB_SET_ARG_FN(set_bypass_pwup, SET_BYPASS_PWUP, if_index, - bypass_mode); -} -EXPORT_SYMBOL(set_bypass_pwup); - -static int get_bypass_pwup(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bypass_pwup, GET_BYPASS_PWUP, if_index); -} -EXPORT_SYMBOL(get_bypass_pwup); - -static int set_bypass_wd(int if_index, int ms_timeout, int *ms_timeout_set) -{ - int data = ms_timeout; - int ret = 0; - - if (is_dev_sd(if_index)) { - SET_BPLIB_INT_FN3(set_bypass_wd, int, if_index, int, ms_timeout, - int *, ms_timeout_set, ret); - } else { - ret = doit(SET_BYPASS_WD, if_index, &data); - if (ret > 0) { - *ms_timeout_set = ret; - ret = 0; - } - } - return ret; -} -EXPORT_SYMBOL(set_bypass_wd); - -static int get_bypass_wd(int if_index, int *ms_timeout_set) -{ - int *data = ms_timeout_set; - int ret = 0; - - if (is_dev_sd(if_index)) - SET_BPLIB_INT_FN2(get_bypass_wd, int, if_index, int *, - ms_timeout_set, ret); - else - ret = doit(GET_BYPASS_WD, if_index, data); - return ret; -} -EXPORT_SYMBOL(get_bypass_wd); - -static int get_wd_expire_time(int if_index, int *ms_time_left) -{ - int *data = ms_time_left, ret = 0; - - if (is_dev_sd(if_index)) { - SET_BPLIB_INT_FN2(get_wd_expire_time, int, if_index, int *, - ms_time_left, ret); - } else { - ret = doit(GET_WD_EXPIRE_TIME, if_index, data); - if ((ret == 0) && (*data != 0)) - ret = 1; - } - return ret; -} -EXPORT_SYMBOL(get_wd_expire_time); - -static int reset_bypass_wd_timer(int if_index) -{ - DO_BPLIB_GET_ARG_FN(reset_bypass_wd_timer, RESET_BYPASS_WD_TIMER, - if_index); -} -EXPORT_SYMBOL(reset_bypass_wd_timer); - -static int set_std_nic(int if_index, int bypass_mode) -{ - DO_BPLIB_SET_ARG_FN(set_std_nic, SET_STD_NIC, if_index, bypass_mode); -} -EXPORT_SYMBOL(set_std_nic); - -static int get_std_nic(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_std_nic, GET_STD_NIC, if_index); -} -EXPORT_SYMBOL(get_std_nic); - -static int set_tx(int if_index, int tx_state) -{ - DO_BPLIB_SET_ARG_FN(set_tx, SET_TX, if_index, tx_state); -} -EXPORT_SYMBOL(set_tx); - -static int get_tx(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_tx, GET_TX, if_index); -} -EXPORT_SYMBOL(get_tx); - -static int set_tap(int if_index, int tap_mode) -{ - DO_BPLIB_SET_ARG_FN(set_tap, SET_TAP, if_index, tap_mode); -} -EXPORT_SYMBOL(set_tap); - -static int get_tap(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_tap, GET_TAP, if_index); -} -EXPORT_SYMBOL(get_tap); - -static int get_tap_change(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_tap_change, GET_TAP_CHANGE, if_index); -} -EXPORT_SYMBOL(get_tap_change); - -static int set_dis_tap(int if_index, int dis_tap) -{ - DO_BPLIB_SET_ARG_FN(set_dis_tap, SET_DIS_TAP, if_index, dis_tap); -} -EXPORT_SYMBOL(set_dis_tap); - -static int get_dis_tap(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_dis_tap, GET_DIS_TAP, if_index); -} -EXPORT_SYMBOL(get_dis_tap); - -static int set_tap_pwup(int if_index, int tap_mode) -{ - DO_BPLIB_SET_ARG_FN(set_tap_pwup, SET_TAP_PWUP, if_index, tap_mode); -} -EXPORT_SYMBOL(set_tap_pwup); - -static int get_tap_pwup(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_tap_pwup, GET_TAP_PWUP, if_index); -} -EXPORT_SYMBOL(get_tap_pwup); - -static int set_bp_disc(int if_index, int disc_mode) -{ - DO_BPLIB_SET_ARG_FN(set_bp_disc, SET_DISC, if_index, disc_mode); -} -EXPORT_SYMBOL(set_bp_disc); - -static int get_bp_disc(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bp_disc, GET_DISC, if_index); -} -EXPORT_SYMBOL(get_bp_disc); - -static int get_bp_disc_change(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bp_disc_change, GET_DISC_CHANGE, if_index); -} -EXPORT_SYMBOL(get_bp_disc_change); - -static int set_bp_dis_disc(int if_index, int dis_disc) -{ - DO_BPLIB_SET_ARG_FN(set_bp_dis_disc, SET_DIS_DISC, if_index, dis_disc); -} -EXPORT_SYMBOL(set_bp_dis_disc); - -static int get_bp_dis_disc(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bp_dis_disc, GET_DIS_DISC, if_index); -} -EXPORT_SYMBOL(get_bp_dis_disc); - -static int set_bp_disc_pwup(int if_index, int disc_mode) -{ - DO_BPLIB_SET_ARG_FN(set_bp_disc_pwup, SET_DISC_PWUP, if_index, - disc_mode); -} -EXPORT_SYMBOL(set_bp_disc_pwup); - -static int get_bp_disc_pwup(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_bp_disc_pwup, GET_DISC_PWUP, if_index); -} -EXPORT_SYMBOL(get_bp_disc_pwup); - -static int set_wd_exp_mode(int if_index, int mode) -{ - DO_BPLIB_SET_ARG_FN(set_wd_exp_mode, SET_WD_EXP_MODE, if_index, mode); -} -EXPORT_SYMBOL(set_wd_exp_mode); - -static int get_wd_exp_mode(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_wd_exp_mode, GET_WD_EXP_MODE, if_index); -} -EXPORT_SYMBOL(get_wd_exp_mode); - -static int set_wd_autoreset(int if_index, int time) -{ - DO_BPLIB_SET_ARG_FN(set_wd_autoreset, SET_WD_AUTORESET, if_index, time); -} -EXPORT_SYMBOL(set_wd_autoreset); - -static int get_wd_autoreset(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_wd_autoreset, GET_WD_AUTORESET, if_index); -} -EXPORT_SYMBOL(get_wd_autoreset); - -static int set_tpl(int if_index, int tpl_mode) -{ - DO_BPLIB_SET_ARG_FN(set_tpl, SET_TPL, if_index, tpl_mode); -} -EXPORT_SYMBOL(set_tpl); - -static int get_tpl(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_tpl, GET_TPL, if_index); -} -EXPORT_SYMBOL(get_tpl); - -static int set_bp_hw_reset(int if_index, int mode) -{ - DO_BPLIB_SET_ARG_FN(set_tpl, SET_BP_HW_RESET, if_index, mode); -} -EXPORT_SYMBOL(set_bp_hw_reset); - -static int get_bp_hw_reset(int if_index) -{ - DO_BPLIB_GET_ARG_FN(get_tpl, GET_BP_HW_RESET, if_index); -} -EXPORT_SYMBOL(get_bp_hw_reset); - -static int get_bypass_info(int if_index, struct bp_info *bp_info) -{ - int ret = 0; - - if (is_dev_sd(if_index)) { - SET_BPLIB_INT_FN2(get_bypass_info, int, if_index, - struct bp_info *, bp_info, ret); - } else { - struct net_device *dev; - struct net_device *n; - - for_each_netdev_safe(&init_net, dev, n) { - if (dev->ifindex == if_index) { - struct if_bypass_info *bypass_cb; - struct ifreq ifr; - - memset(&ifr, 0, sizeof(ifr)); - bypass_cb = (struct if_bypass_info *)𝔦 - bypass_cb->cmd = GET_BYPASS_INFO; - - if (dev->netdev_ops && - dev->netdev_ops->ndo_do_ioctl) - ret = dev->netdev_ops->ndo_do_ioctl(dev, - &ifr, SIOCGIFBYPASS); - else - ret = -1; - if (ret == 0) - memcpy(bp_info, &bypass_cb->bp_info, - sizeof(struct bp_info)); - ret = ret < 0 ? -1 : 0; - break; - } - } - } - return ret; -} -EXPORT_SYMBOL(get_bypass_info); - -static int __init init_lib_module(void) -{ - printk(VERSION); - return 0; -} - -static void __exit cleanup_lib_module(void) -{ -} - -module_init(init_lib_module); -module_exit(cleanup_lib_module); diff --git a/drivers/staging/silicom/bypasslib/libbp_sd.h b/drivers/staging/silicom/bypasslib/libbp_sd.h deleted file mode 100644 index cac4b0b..0000000 --- a/drivers/staging/silicom/bypasslib/libbp_sd.h +++ /dev/null @@ -1,532 +0,0 @@ -/******************************************************************************/ -/* */ -/* bypass library, Copyright (c) 2004 Silicom, Ltd */ -/* Corporation. */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* Ver 1.0.0 */ -/* */ -/* libbypass.h */ -/* */ -/******************************************************************************/ - -/** - * is_bypass - check if device is a Bypass controlling device - * @if_index: network device index - * - * Output: - * 1 - if device is bypass controlling device, - * 0 - if device is bypass slave device - * -1 - device not support Bypass - **/ -int is_bypass_sd(int if_index); - -/** - * get_bypass_slave - get second port participate in the Bypass pair - * @if_index: network device index - * - * Output: - * network device index of the slave device - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_bypass_slave_sd(int if_index); - -/** - * get_bypass_caps - get second port participate in the Bypass pair - * @if_index: network device index - * - * Output: - * flags word on success;flag word is a 32-bit mask word with each bit defines - * different capability as described bellow. - * Value of 1 for supporting this feature. 0 for not supporting this feature. - * -1 - on failure (if the device is not capable of the operation or not a - * Bypass device) - * Bit feature description - * - * 0 BP_CAP The interface is Bypass capable in general - * - * 1 BP_STATUS_CAP The interface can report of the current Bypass - * mode - * - * 2 BP_STATUS_CHANGE_CAP The interface can report on a change to bypass - * mode from the last time the mode was defined - * - * 3 SW_CTL_CAP The interface is Software controlled capable for - * bypass/non bypass modes. - * - * 4 BP_DIS_CAP The interface is capable of disabling the Bypass - * mode at all times. This mode will retain its - * mode even during power loss and also after power - * recovery. This will overcome on any bypass - * operation due to watchdog timeout or set bypass - * command. - * - * 5 BP_DIS_STATUS_CAP The interface can report of the current - * DIS_BP_CAP - * - * 6 STD_NIC_CAP The interface is capable to be configured to - * operate as standard, non Bypass, NIC interface - * (have direct connection to interfaces at all - * power modes) - * - * 7 BP_PWOFF_NO_CAP The interface can be in Bypass mode at power off - * state - * - * 8 BP_PWOFF_OFF_CAP The interface can disconnect the Bypass mode at - * power off state without effecting all the other - * states of operation - * - * 9 BP_PWOFF_CTL_CAP The behavior of the Bypass mode at Power-off - * state can be controlled by software without - * effecting any other state - * - *10 BP_PWUP_ON_CAP The interface can be in Bypass mode when power - * is turned on (until the system take control of - * the bypass functionality) - * - *11 BP_PWUP_OFF_CAP The interface can disconnect from Bypass mode - * when power is turned on (until the system take - * control of the bypass functionality) - * - *12 BP_PWUP_CTL_CAP The behavior of the Bypass mode at Power-up can - * be controlled by software - * - *13 WD_CTL_CAP The interface has watchdog capabilities to turn - * to Bypass mode when not reset for defined period - * of time. - * - *14 WD_STATUS_CAP The interface can report on the watchdog status - * (Active/inactive) - * - *15 WD_TIMEOUT_CAP The interface can report the time left till - * watchdog triggers to Bypass mode. - * - *16-31 RESERVED - * - * **/ -int get_bypass_caps_sd(int if_index); - -/** - * get_wd_set_caps - Obtain watchdog timer setting capabilities - * @if_index: network device index - * - * Output: - * - * Set of numbers defining the various parameters of the watchdog capable - * to be set to as described bellow. - * -1 - on failure (device not support Bypass or it's a slave device) - * - * Bit feature description - * - * 0-3 WD_MIN_TIME The interface WD minimal time period in 100mS units - * - * 4 WD_STEP_TIME The steps of the WD timer in - * 0 - for linear steps (WD_MIN_TIME * X) - * 1 - for multiply by 2 from previous step - * (WD_MIN_TIME * 2^X) - * - * 5-8 WD_STEP_COUNT Number of steps the WD timer supports in 2^X - * (X bit available for defining the value) - * - * - * - **/ -int get_wd_set_caps_sd(int if_index); - -/** - * set_bypass - set Bypass state - * @if_index: network device index of the controlling device - * @bypass_mode: bypass mode (1=on, 0=off) - * Output: - * 0 - on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int set_bypass_sd(int if_index, int bypass_mode); - -/** - * get_bypass - Get Bypass mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_bypass_sd(int if_index); - -/** - * get_bypass_change - Get change of Bypass mode state from last status check - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_bypass_change_sd(int if_index); - -/** - * set_dis_bypass - Set Disable Bypass mode - * @if_index: network device index of the controlling device - * @dis_bypass: disable bypass(1=dis, 0=en) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int set_dis_bypass_sd(int if_index, int dis_bypass); - -/** - * get_dis_bypass - Get Disable Bypass mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (normal Bypass mode/ Disable bypass) - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int get_dis_bypass_sd(int if_index); - -/** - * set_bypass_pwoff - Set Bypass mode at power-off state - * @if_index: network device index of the controlling device - * @bypass_mode: bypass mode setting at power off state (1=BP en, 0=BP Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int set_bypass_pwoff_sd(int if_index, int bypass_mode); - -/** - * get_bypass_pwoff - Get Bypass mode state at power-off state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable bypass at power off state / normal Bypass mode) - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int get_bypass_pwoff_sd(int if_index); - -/** - * set_bypass_pwup - Set Bypass mode at power-up state - * @if_index: network device index of the controlling device - * @bypass_mode: bypass mode setting at power up state (1=BP en, 0=BP Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int set_bypass_pwup_sd(int if_index, int bypass_mode); - -/** - * get_bypass_pwup - Get Bypass mode state at power-up state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable bypass at power up state / normal Bypass mode) - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int get_bypass_pwup_sd(int if_index); - -/** - * set_bypass_wd - Set watchdog state - * @if_index: network device index of the controlling device - * @ms_timeout: requested timeout (in ms units), 0 for disabling the watchdog - * timer - * @ms_timeout_set(output): requested timeout (in ms units), that the adapter - * supports and will be used by the watchdog - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int set_bypass_wd_sd(int if_index, int ms_timeout, int *ms_timeout_set); - -/** - * get_bypass_wd - Get watchdog state - * @if_index: network device index of the controlling device - * @ms_timeout (output): WDT timeout (in ms units), - * -1 for unknown wdt status - * 0 if WDT is disabled - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int get_bypass_wd_sd(int if_index, int *ms_timeout_set); - -/** - * get_wd_expire_time - Get watchdog expire - * @if_index: network device index of the controlling device - * @ms_time_left (output): time left till watchdog time expire, - * -1 if WDT has expired - * 0 if WDT is disabled - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device or unknown wdt status) - **/ -int get_wd_expire_time_sd(int if_index, int *ms_time_left); - -/** - * reset_bypass_wd_timer - Reset watchdog timer - * @if_index: network device index of the controlling device - * - * Output: - * 1 - on success - * 0 - watchdog is not configured - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device or unknown wdt status) - **/ -int reset_bypass_wd_timer_sd(int if_index); - -/** - * set_std_nic - Standard NIC mode of operation - * @if_index: network device index of the controlling device - * @nic_mode: 0/1 (Default Bypass mode / Standard NIC mode) - * - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int set_std_nic_sd(int if_index, int nic_mode); - -/** - * get_std_nic - Get Standard NIC mode setting - * @if_index: network device index of the controlling device - * - * Output: - * 0/1 (Default Bypass mode / Standard NIC mode) on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass or it's a slave device) - **/ -int get_std_nic_sd(int if_index); - -/** - * set_tx - set transmitter enable/disable - * @if_index: network device index of the controlling device - * @tx_state: 0/1 (Transmit Disable / Transmit Enable) - * - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ) - **/ -int set_tx_sd(int if_index, int tx_state); - -/** - * get_std_nic - get transmitter state (disable / enable) - * @if_index: network device index of the controlling device - * - * Output: - * 0/1 (ransmit Disable / Transmit Enable) on success - * -1 - on failure (device is not capable of the operation or device not support - * Bypass) - **/ -int get_tx_sd(int if_index); - -/** - * set_tap - set TAP state - * @if_index: network device index of the controlling device - * @tap_mode: 1 tap mode , 0 normal nic mode - * Output: - * 0 - on success - * -1 - on failure (device not support TAP or it's a slave device) - **/ -int set_tap_sd(int if_index, int tap_mode); - -/** - * get_tap - Get TAP mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support TAP or it's a slave device) - **/ -int get_tap_sd(int if_index); - -/** - * get_tap_change - Get change of TAP mode state from last status check - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support TAP or it's a slave device) - **/ -int get_tap_change_sd(int if_index); - -/** - * set_dis_tap - Set Disable TAP mode - * @if_index: network device index of the controlling device - * @dis_tap: disable tap(1=dis, 0=en) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not support - * TAP or it's a slave device) - **/ -int set_dis_tap_sd(int if_index, int dis_tap); - -/** - * get_dis_tap - Get Disable TAP mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (normal TAP mode/ Disable TAP) - * -1 - on failure (device is not capable of the operation or device not support - * TAP or it's a slave device) - **/ -int get_dis_tap_sd(int if_index); - -/** - * set_tap_pwup - Set TAP mode at power-up state - * @if_index: network device index of the controlling device - * @bypass_mode: tap mode setting at power up state (1=TAP en, 0=TAP Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not - * support TAP or it's a slave device) - **/ -int set_tap_pwup_sd(int if_index, int tap_mode); - -/** - * get_tap_pwup - Get TAP mode state at power-up state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable TAP at power up state / normal TAP mode) - * -1 - on failure (device is not capable of the operation or device not - * support TAP or it's a slave device) - **/ -int get_tap_pwup_sd(int if_index); - -/** - * set_bp_disc - set Disconnect state - * @if_index: network device index of the controlling device - * @tap_mode: 1 disc mode , 0 non-disc mode - * Output: - * 0 - on success - * -1 - on failure (device not support Disconnect or it's a slave device) - **/ -int set_bp_disc_sd(int if_index, int disc_mode); - -/** - * get_bp_disc - Get Disconnect mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support Disconnect or it's a slave device) - **/ -int get_bp_disc_sd(int if_index); - -/** - * get_bp_disc_change - Get change of Disconnect mode state from last status check - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support Disconnect or it's a slave device) - **/ -int get_bp_disc_change_sd(int if_index); - -/** - * set_bp_dis_disc - Set Disable Disconnect mode - * @if_index: network device index of the controlling device - * @dis_tap: disable tap(1=dis, 0=en) - * Output: - * 0 - on success - * -1 - on failure (device is not capable ofthe operation or device not - * support Disconnect or it's a slave device) - **/ -int set_bp_dis_disc_sd(int if_index, int dis_disc); - -/** - * get_dis_tap - Get Disable Disconnect mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (normal Disconnect mode/ Disable Disconnect) - * -1 - on failure (device is not capable of the operation or device not - * support Disconnect or it's a slave device) - **/ -int get_bp_dis_disc_sd(int if_index); - -/** - * set_bp_disc_pwup - Set Disconnect mode at power-up state - * @if_index: network device index of the controlling device - * @disc_mode: tap mode setting at power up state (1=Disc en, 0=Disc Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation or device not - * support Disconnect or it's a slave device) - **/ -int set_bp_disc_pwup_sd(int if_index, int disc_mode); - -/** - * get_bp_disc_pwup - Get Disconnect mode state at power-up state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable Disconnect at power up state / normal Disconnect - * mode) - * -1 - on failure (device is not capable of the operation or device not - * support TAP or it's a slave device) - **/ -int get_bp_disc_pwup_sd(int if_index); - -/** - * set_wd_exp_mode - Set adapter state when WDT expired. - * @if_index: network device index of the controlling device - * @bypass_mode: adapter mode (1=tap mode, 0=bypass mode) - * Output: - * 0 - on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int set_wd_exp_mode_sd(int if_index, int bypass_mode); - -/** - * get_wd_exp_mode - Get adapter state when WDT expired. - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (bypass/tap) on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_wd_exp_mode_sd(int if_index); - -/** - * set_wd_autoreset - reset WDT periodically. - * @if_index: network device index of the controlling device - * @bypass_mode: adapter mode (1=tap mode, 0=bypass mode) - * Output: - * 1 - on success - * -1 - on failure (device is not capable of the operation or device not - * support Bypass or it's a slave device or unknown wdt - * status) - **/ -int set_wd_autoreset_sd(int if_index, int time); - -/** - * set_wd_autoreset - reset WDT periodically. - * @if_index: network device index of the controlling device - * @bypass_mode: adapter mode (1=tap mode, 0=bypass mode) - * Output: - * 1 - on success - * -1 - on failure (device is not capable of the operation or device not - * support Bypass or it's a slave device or unknown wdt - * status) - **/ -int get_wd_autoreset_sd(int if_index); - -/** - * set_tpl - set TPL state - * @if_index: network device index of the controlling device - * @tpl_mode: 1 tpl mode , 0 normal nic mode - * Output: - * 0 - on success - * -1 - on failure (device not support TPL) - **/ -int set_tpl_sd(int if_index, int tpl_mode); - -/** - * get_tpl - Get TPL mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support TPL or it's a slave device) - **/ -int get_tpl_sd(int if_index); - -int get_bypass_info_sd(int if_index, struct bp_info *bp_info); -int bp_if_scan_sd(void); -/*int get_dev_num_sd(void);*/ diff --git a/drivers/staging/silicom/libbp_sd.h b/drivers/staging/silicom/libbp_sd.h deleted file mode 100644 index 065277f..0000000 --- a/drivers/staging/silicom/libbp_sd.h +++ /dev/null @@ -1,550 +0,0 @@ -/******************************************************************************/ -/* */ -/* bypass library, Copyright (c) 2004 Silicom, Ltd */ -/* Corporation. */ -/* */ -/* This program is free software; you can redistribute it and/or modify */ -/* it under the terms of the GNU General Public License as published by */ -/* the Free Software Foundation, located in the file LICENSE. */ -/* */ -/* Ver 1.0.0 */ -/* */ -/* libbypass.h */ -/* */ -/******************************************************************************/ - -#define BP_CAP 0x01 /* BIT_0 */ -#define BP_STATUS_CAP 0x02 -#define BP_STATUS_CHANGE_CAP 0x04 -#define SW_CTL_CAP 0x08 -#define BP_DIS_CAP 0x10 -#define BP_DIS_STATUS_CAP 0x20 -#define STD_NIC_CAP 0x40 -#define BP_PWOFF_ON_CAP 0x80 -#define BP_PWOFF_OFF_CAP 0x0100 -#define BP_PWOFF_CTL_CAP 0x0200 -#define BP_PWUP_ON_CAP 0x0400 -#define BP_PWUP_OFF_CAP 0x0800 -#define BP_PWUP_CTL_CAP 0x1000 -#define WD_CTL_CAP 0x2000 -#define WD_STATUS_CAP 0x4000 -#define WD_TIMEOUT_CAP 0x8000 -#define TX_CTL_CAP 0x10000 -#define TX_STATUS_CAP 0x20000 -#define TAP_CAP 0x40000 -#define TAP_STATUS_CAP 0x80000 -#define TAP_STATUS_CHANGE_CAP 0x100000 -#define TAP_DIS_CAP 0x200000 -#define TAP_DIS_STATUS_CAP 0x400000 -#define TAP_PWUP_ON_CAP 0x800000 -#define TAP_PWUP_OFF_CAP 0x1000000 -#define TAP_PWUP_CTL_CAP 0x2000000 -#define NIC_CAP_NEG 0x4000000 /* BIT 26 */ - -#define WD_MIN_TIME_GET(desc) (desc & 0xf) -#define WDT_STEP_TIME 0x10 - -struct bp_info { - char prod_name[14]; - unsigned char fw_ver; -}; - -/** - * is_bypass - check if device is a Bypass controlling device - * @if_index: network device index - * - * Output: - * 1 - if device is bypass controlling device, - * 0 - if device is bypass slave device - * -1 - device not support Bypass - **/ -int is_bypass_sd(int if_index); - -/** - * get_bypass_slave - get second port participate in the Bypass pair - * @if_index: network device index - * - * Output: - * network device index of the slave device - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_bypass_slave_sd(int if_index); - -/** - * get_bypass_caps - get second port participate in the Bypass pair - * @if_index: network device index - * - * Output: - * flags word on success;flag word is a 32-bit mask word with each bit defines different - * capability as described bellow. - * Value of 1 for supporting this feature. 0 for not supporting this feature. - * -1 - on failure (if the device is not capable of the operation or not a Bypass device) - * Bit feature description - * - * 0 BP_CAP The interface is Bypass capable in general - * - * 1 BP_STATUS_CAP The interface can report of the current Bypass mode - * - * 2 BP_STATUS_CHANGE_CAP The interface can report on a change to bypass mode from - * the last time the mode was defined - * - * 3 SW_CTL_CAP The interface is Software controlled capable for bypass/non bypass modes. - * - * 4 BP_DIS_CAP The interface is capable of disabling the Bypass mode at all times. - * This mode will retain its mode even during power loss and also after - * power recovery. This will overcome on any bypass operation due to - * watchdog timeout or set bypass command. - * - * 5 BP_DIS_STATUS_CAP The interface can report of the current DIS_BP_CAP - * - * 6 STD_NIC_CAP The interface is capable to be configured to operate as standard, non Bypass, - * NIC interface (have direct connection to interfaces at all power modes) - * - * 7 BP_PWOFF_NO_CAP The interface can be in Bypass mode at power off state - * - * 8 BP_PWOFF_OFF_CAP The interface can disconnect the Bypass mode at power off state without - * effecting all the other states of operation - * - * 9 BP_PWOFF_CTL_CAP The behavior of the Bypass mode at Power-off state can be controlled by - * software without effecting any other state - * - *10 BP_PWUP_ON_CAP The interface can be in Bypass mode when power is turned on - * (until the system take control of the bypass functionality) - * - *11 BP_PWUP_OFF_CAP The interface can disconnect from Bypass mode when power is turned on - * (until the system take control of the bypass functionality) - * - *12 BP_PWUP_CTL_CAP The behavior of the Bypass mode at Power-up can be controlled by software - * - *13 WD_CTL_CAP The interface has watchdog capabilities to turn to Bypass mode when not reset - * for defined period of time. - * - *14 WD_STATUS_CAP The interface can report on the watchdog status (Active/inactive) - * - *15 WD_TIMEOUT_CAP The interface can report the time left till watchdog triggers to Bypass mode. - * - *16-31 RESERVED - * - * **/ -int get_bypass_caps_sd(int if_index); - -/** - * get_wd_set_caps - Obtain watchdog timer setting capabilities - * @if_index: network device index - * - * Output: - * - * Set of numbers defining the various parameters of the watchdog capable - * to be set to as described bellow. - * -1 - on failure (device not support Bypass or it's a slave device) - * - * Bit feature description - * - * 0-3 WD_MIN_TIME The interface WD minimal time period in 100mS units - * - * 4 WD_STEP_TIME The steps of the WD timer in - * 0 - for linear steps (WD_MIN_TIME * X) - * 1 - for multiply by 2 from previous step (WD_MIN_TIME * 2^X) - * - * 5-8 WD_STEP_COUNT Number of steps the WD timer supports in 2^X - * (X bit available for defining the value) - * - * - * - **/ -int get_wd_set_caps_sd(int if_index); - -/** - * set_bypass - set Bypass state - * @if_index: network device index of the controlling device - * @bypass_mode: bypass mode (1=on, 0=off) - * Output: - * 0 - on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int set_bypass_sd(int if_index, int bypass_mode); - -/** - * get_bypass - Get Bypass mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_bypass_sd(int if_index); - -/** - * get_bypass_change - Get change of Bypass mode state from last status check - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_bypass_change_sd(int if_index); - -/** - * set_dis_bypass - Set Disable Bypass mode - * @if_index: network device index of the controlling device - * @dis_bypass: disable bypass(1=dis, 0=en) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int set_dis_bypass_sd(int if_index, int dis_bypass); - -/** - * get_dis_bypass - Get Disable Bypass mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (normal Bypass mode/ Disable bypass) - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int get_dis_bypass_sd(int if_index); - -/** - * set_bypass_pwoff - Set Bypass mode at power-off state - * @if_index: network device index of the controlling device - * @bypass_mode: bypass mode setting at power off state (1=BP en, 0=BP Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int set_bypass_pwoff_sd(int if_index, int bypass_mode); - -/** - * get_bypass_pwoff - Get Bypass mode state at power-off state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable bypass at power off state / normal Bypass mode) - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int get_bypass_pwoff_sd(int if_index); - -/** - * set_bypass_pwup - Set Bypass mode at power-up state - * @if_index: network device index of the controlling device - * @bypass_mode: bypass mode setting at power up state (1=BP en, 0=BP Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int set_bypass_pwup_sd(int if_index, int bypass_mode); - -/** - * get_bypass_pwup - Get Bypass mode state at power-up state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable bypass at power up state / normal Bypass mode) - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int get_bypass_pwup_sd(int if_index); - -/** - * set_bypass_wd - Set watchdog state - * @if_index: network device index of the controlling device - * @ms_timeout: requested timeout (in ms units), 0 for disabling the watchdog timer - * @ms_timeout_set(output): requested timeout (in ms units), - * that the adapter supports and will be used by the watchdog - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int set_bypass_wd_sd(int if_index, int ms_timeout, int *ms_timeout_set); - -/** - * get_bypass_wd - Get watchdog state - * @if_index: network device index of the controlling device - * @ms_timeout (output): WDT timeout (in ms units), - * -1 for unknown wdt status - * 0 if WDT is disabled - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int get_bypass_wd_sd(int if_index, int *ms_timeout_set); - -/** - * get_wd_expire_time - Get watchdog expire - * @if_index: network device index of the controlling device - * @ms_time_left (output): time left till watchdog time expire, - * -1 if WDT has expired - * 0 if WDT is disabled - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device or unknown wdt status) - **/ -int get_wd_expire_time_sd(int if_index, int *ms_time_left); - -/** - * reset_bypass_wd_timer - Reset watchdog timer - * @if_index: network device index of the controlling device - * - * Output: - * 1 - on success - * 0 - watchdog is not configured - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device or unknown wdt status) - **/ -int reset_bypass_wd_timer_sd(int if_index); - -/** - * set_std_nic - Standard NIC mode of operation - * @if_index: network device index of the controlling device - * @nic_mode: 0/1 (Default Bypass mode / Standard NIC mode) - * - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int set_std_nic_sd(int if_index, int nic_mode); - -/** - * get_std_nic - Get Standard NIC mode setting - * @if_index: network device index of the controlling device - * - * Output: - * 0/1 (Default Bypass mode / Standard NIC mode) on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device) - **/ -int get_std_nic_sd(int if_index); - -/** - * set_tx - set transmitter enable/disable - * @if_index: network device index of the controlling device - * @tx_state: 0/1 (Transmit Disable / Transmit Enable) - * - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ) - **/ -int set_tx_sd(int if_index, int tx_state); - -/** - * get_tx - get transmitter state (disable / enable) - * @if_index: network device index of the controlling device - * - * Output: - * 0/1 (ransmit Disable / Transmit Enable) on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass) - **/ -int get_tx_sd(int if_index); - -/** - * set_tpl - set TPL enable/disable - * @if_index: network device index of the controlling device - * @tx_state: 0/1 (TPL Disable / TPL Enable) - * - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ) - **/ -int set_tpl_sd(int if_index, int tpl_state); - -/** - * get_tpl - get TPL state (disable / enable) - * @if_index: network device index of the controlling device - * - * Output: - * 0/1 (TPL Disable / TPL Enable) on success - * -1 - on failure (device is not capable of the operation) - **/ -int get_tpl_sd(int if_index); - -int get_bp_hw_reset_sd(int if_index); - -int set_bp_hw_reset_sd(int if_index, int status); - -/** - * set_tap - set TAP state - * @if_index: network device index of the controlling device - * @tap_mode: 1 tap mode , 0 normal nic mode - * Output: - * 0 - on success - * -1 - on failure (device not support TAP or it's a slave device) - **/ -int set_tap_sd(int if_index, int tap_mode); - -/** - * get_tap - Get TAP mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support TAP or it's a slave device) - **/ -int get_tap_sd(int if_index); - -/** - * get_tap_change - Get change of TAP mode state from last status check - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support TAP or it's a slave device) - **/ -int get_tap_change_sd(int if_index); - -/** - * set_dis_tap - Set Disable TAP mode - * @if_index: network device index of the controlling device - * @dis_tap: disable tap(1=dis, 0=en) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support TAP - * or it's a slave device) - **/ -int set_dis_tap_sd(int if_index, int dis_tap); - -/** - * get_dis_tap - Get Disable TAP mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (normal TAP mode/ Disable TAP) - * -1 - on failure (device is not capable of the operation ordevice not support TAP - * or it's a slave device) - **/ -int get_dis_tap_sd(int if_index); - -/** - * set_tap_pwup - Set TAP mode at power-up state - * @if_index: network device index of the controlling device - * @bypass_mode: tap mode setting at power up state (1=TAP en, 0=TAP Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support TAP - * or it's a slave device) - **/ -int set_tap_pwup_sd(int if_index, int tap_mode); - -/** - * get_tap_pwup - Get TAP mode state at power-up state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable TAP at power up state / normal TAP mode) - * -1 - on failure (device is not capable of the operation ordevice not support TAP - * or it's a slave device) - **/ -int get_tap_pwup_sd(int if_index); - -/** - * set_wd_exp_mode - Set adapter state when WDT expired. - * @if_index: network device index of the controlling device - * @bypass_mode: adapter mode (1=tap mode, 0=bypass mode) - * Output: - * 0 - on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int set_wd_exp_mode_sd(int if_index, int bypass_mode); - -/** - * get_wd_exp_mode - Get adapter state when WDT expired. - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (bypass/tap) on success - * -1 - on failure (device not support Bypass or it's a slave device) - **/ -int get_wd_exp_mode_sd(int if_index); - -/** - * set_wd_autoreset - reset WDT periodically. - * @if_index: network device index of the controlling device - * @bypass_mode: adapter mode (1=tap mode, 0=bypass mode) - * Output: - * 1 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device or unknown wdt status) - **/ -int set_wd_autoreset_sd(int if_index, int time); - -/** - * set_wd_autoreset - reset WDT periodically. - * @if_index: network device index of the controlling device - * @bypass_mode: adapter mode (1=tap mode, 0=bypass mode) - * Output: - * 1 - on success - * -1 - on failure (device is not capable of the operation ordevice not support Bypass - * or it's a slave device or unknown wdt status) - **/ -int get_wd_autoreset_sd(int if_index); -/** - * set_disc - set DISC state - * @if_index: network device index of the controlling device - * @tap_mode: 1 DISC mode , 0 normal nic mode - * Output: - * 0 - on success - * -1 - on failure (device not support disconnect or it's a slave device) - **/ -int set_bp_disc_sd(int if_index, int disc_mode); - -/** - * get_disc - Get disc mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support disconnect or it's a slave device) - **/ -int get_bp_disc_sd(int if_index); - -/** - * get_disc_change - Get change of DISC mode state from last status check - * @if_index: network device index of the controlling device - * Output: - * 0/1 - (off/on) on success - * -1 - on failure (device not support disconnect or it's a slave device) - **/ -int get_bp_disc_change_sd(int if_index); - -/** - * set_dis_disc - Set Disable DISC mode - * @if_index: network device index of the controlling device - * @dis_disc: disable disconnect(1=dis, 0=en) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support DISC - * or it's a slave device) - **/ -int set_bp_dis_disc_sd(int if_index, int dis_disc); - -/** - * get_dis_disc - Get Disable DISC mode state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (normal DISC mode/ Disable DISC) - * -1 - on failure (device is not capable of the operation ordevice not support TAP - * or it's a slave device) - **/ -int get_bp_dis_disc_sd(int if_index); - -/** - * set_disc_pwup - Set DISC mode at power-up state - * @if_index: network device index of the controlling device - * @disc_mode: DISC mode setting at power up state (1= en, 0= Dis) - * Output: - * 0 - on success - * -1 - on failure (device is not capable of the operation ordevice not support DISC - * or it's a slave device) - **/ -int set_bp_disc_pwup_sd(int if_index, int disc_mode); - -/** - * get_disc_pwup - Get DISC mode state at power-up state - * @if_index: network device index of the controlling device - * Output: - * 0/1 - on success (Disable DISC at power up state / normal DISC mode) - * -1 - on failure (device is not capable of the operation ordevice not support DISC - * or it's a slave device) - **/ -int get_bp_disc_pwup_sd(int if_index); - -int get_bypass_info_sd(int if_index, struct bp_info *bp_info); -int bp_if_scan_sd(void); -/*int get_dev_num_sd(void);*/ -- cgit v1.1