From patchwork Thu Nov 14 19:31:58 2013 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Loc Ho X-Patchwork-Id: 3184901 Return-Path: X-Original-To: patchwork-linux-arm@patchwork.kernel.org Delivered-To: patchwork-parsemail@patchwork2.web.kernel.org Received: from mail.kernel.org (mail.kernel.org [198.145.19.201]) by patchwork2.web.kernel.org (Postfix) with ESMTP id 117E0C045B for ; Thu, 14 Nov 2013 19:35:06 +0000 (UTC) Received: from mail.kernel.org (localhost [127.0.0.1]) by mail.kernel.org (Postfix) with ESMTP id 908B52089E for ; Thu, 14 Nov 2013 19:35:01 +0000 (UTC) Received: from casper.infradead.org (casper.infradead.org [85.118.1.10]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mail.kernel.org (Postfix) with ESMTPS id A383420892 for ; Thu, 14 Nov 2013 19:34:56 +0000 (UTC) Received: from merlin.infradead.org ([2001:4978:20e::2]) by casper.infradead.org with esmtps (Exim 4.80.1 #2 (Red Hat Linux)) id 1Vh2fd-0004gN-6A; Thu, 14 Nov 2013 19:33:42 +0000 Received: from localhost ([::1] helo=merlin.infradead.org) by merlin.infradead.org with esmtp (Exim 4.80.1 #2 (Red Hat Linux)) id 1Vh2fG-0002Mg-Fc; Thu, 14 Nov 2013 19:33:18 +0000 Received: from exprod5og118.obsmtp.com ([64.18.0.160]) by merlin.infradead.org with smtp (Exim 4.80.1 #2 (Red Hat Linux)) id 1Vh2eo-0002If-MA for linux-arm-kernel@lists.infradead.org; Thu, 14 Nov 2013 19:33:12 +0000 Received: from mail-pa0-f54.google.com ([209.85.220.54]) (using TLSv1) by exprod5ob118.postini.com ([64.18.4.12]) with SMTP ID DSNKUoUlTW7eZ89rYRe9mIrFZh+QIMQqn1tl@postini.com; Thu, 14 Nov 2013 11:32:50 PST Received: by mail-pa0-f54.google.com with SMTP id lj1so2540564pab.13 for ; Thu, 14 Nov 2013 11:32:28 -0800 (PST) X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20130820; h=x-gm-message-state:from:to:cc:subject:date:message-id:in-reply-to :references; bh=JD8m8bItSJt3+yX4Om+SH40PnfhtkWXYbgUn98miun4=; b=PL/dY7FQ6c9sQ+w88yj8tFcsBYnp6hyDR+kpjkhHqQpKgK0tRacuMQV07Ggf1e8w7Q /FsE+DrZhA/5HryqpoNC0/IWbHdoFP21J3yLcgH5Vz/+vfFGDjpYIj+qSiQX8ykadk7B QaM6kN7w+zlayBJvbKhfJQNsuwVHpZI7oeceUVOESd9sq1hVijlciropHoEG1qtv+nvA emAtC0fGsbGhO4FcDWgt5VZkTmfcTIkFaSU49YSjCChF4osN8KWmhuIVHs7QZHW89+nm Tmd+6YE4GlB34VElePcP303D4HlG2oaO0tp4AW/JvOiI/MVHI6kn2brhsL1afSS4aWaT TxHg== X-Gm-Message-State: ALoCoQkxfy4L+c2Pg1FAftpR6UIvojdxmOen1ailyxHfh074TKFzOL+osc7BzLAMsXyaELu8uGNSIeE7EkTxHi/JtZI11xrFusVJnSq8Wre+tS75TnYcvAYXbOoDDJ094JfRF6k1sp8FPBLF1ZbX1NyFOj2pY3G7IhJoMUiq6gvUL93HcwZtYFmxOkbHJ6cDIdFYmgOuqlJl X-Received: by 10.68.108.162 with SMTP id hl2mr2951574pbb.53.1384457548653; Thu, 14 Nov 2013 11:32:28 -0800 (PST) X-Received: by 10.68.108.162 with SMTP id hl2mr2951561pbb.53.1384457548515; Thu, 14 Nov 2013 11:32:28 -0800 (PST) Received: from localhost ([198.137.200.11]) by mx.google.com with ESMTPSA id b3sm49101128pbu.38.2013.11.14.11.32.26 for (version=TLSv1 cipher=RC4-SHA bits=128/128); Thu, 14 Nov 2013 11:32:27 -0800 (PST) From: Loc Ho To: olof@lixom.net, tj@kernel.org, arnd@arndb.de Subject: [PATCH 2/3] ata: Add APM X-Gene SoC 6.0Gbps SATA PHY driver Date: Thu, 14 Nov 2013 12:31:58 -0700 Message-Id: <1384457519-21335-3-git-send-email-lho@apm.com> X-Mailer: git-send-email 1.5.5 In-Reply-To: <1384457519-21335-2-git-send-email-lho@apm.com> References: <1384457519-21335-1-git-send-email-lho@apm.com> <1384457519-21335-2-git-send-email-lho@apm.com> X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20131114_143251_478777_552D6A60 X-CRM114-Status: GOOD ( 17.53 ) X-Spam-Score: -1.9 (-) Cc: devicetree@vger.kernel.org, Suman Tripathi , linux-scsi@vger.kernel.org, jcm@redhat.com, linux-ide@vger.kernel.org, Loc Ho , Tuan Phan , linux-arm-kernel@lists.infradead.org X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.15 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , MIME-Version: 1.0 Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+patchwork-linux-arm=patchwork.kernel.org@lists.infradead.org X-Spam-Status: No, score=-4.2 required=5.0 tests=BAYES_00, RCVD_IN_DNSWL_MED, RP_MATCHES_RCVD, UNPARSEABLE_RELAY autolearn=unavailable version=3.3.1 X-Spam-Checker-Version: SpamAssassin 3.3.1 (2010-03-16) on mail.kernel.org X-Virus-Scanned: ClamAV using ClamSMTP ata: add APM X-Gene SoC 6.0Gbps SATA PHY driver This patch adds support for APM X-Gene SoC 6.0Gbps SATA PHY. This is the physical layer interface for the corresponding SATA host controller. This driver uses the new PHY generic framework posted by Kishon Vijay Abrahm. Signed-off-by: Loc Ho Signed-off-by: Tuan Phan Signed-off-by: Suman Tripathi Reviewed-by: Arnd Bergmann Reviewed-by: Olof Johansson --- drivers/ata/Kconfig | 6 + drivers/ata/Makefile | 1 + drivers/ata/sata_xgene_phy.c | 2142 ++++++++++++++++++++++++++++++++++++++++++ 3 files changed, 2149 insertions(+), 0 deletions(-) create mode 100644 drivers/ata/sata_xgene_phy.c diff --git a/drivers/ata/Kconfig b/drivers/ata/Kconfig index 4e73772..d467e06 100644 --- a/drivers/ata/Kconfig +++ b/drivers/ata/Kconfig @@ -106,6 +106,12 @@ config AHCI_IMX If unsure, say N. +config SATA_XGENE_PHY + tristate "APM X-Gene 6.0Gbps SATA PHY support" + default y if ARM64 + help + This option enables support for APM X-Gene SoC SATA PHY. + config SATA_FSL tristate "Freescale 3.0Gbps SATA support" depends on FSL_SOC diff --git a/drivers/ata/Makefile b/drivers/ata/Makefile index 46518c6..be53890 100644 --- a/drivers/ata/Makefile +++ b/drivers/ata/Makefile @@ -11,6 +11,7 @@ obj-$(CONFIG_SATA_SIL24) += sata_sil24.o obj-$(CONFIG_SATA_DWC) += sata_dwc_460ex.o obj-$(CONFIG_SATA_HIGHBANK) += sata_highbank.o libahci.o obj-$(CONFIG_AHCI_IMX) += ahci_imx.o +obj-$(CONFIG_SATA_XGENE_PHY) += sata_xgene_phy.o # SFF w/ custom DMA obj-$(CONFIG_PDC_ADMA) += pdc_adma.o diff --git a/drivers/ata/sata_xgene_phy.c b/drivers/ata/sata_xgene_phy.c new file mode 100644 index 0000000..6f134fa --- /dev/null +++ b/drivers/ata/sata_xgene_phy.c @@ -0,0 +1,2142 @@ +/* + * AppliedMicro X-Gene SATA PHY driver + * + * Copyright (c) 2013, Applied Micro Circuits Corporation + * Author: Loc Ho + * Tuan Phan + * Suman Tripathi + * + * 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; either version 2 of the License, or (at your + * option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program. If not, see . + * + */ +#include +#include +#include +#include +#include + +#undef XGENE_DBG1_CSR /* Dump all CSR access */ +#undef XGENE_DBG2_CSR /* Dump all PHY access */ + +#define MAX_CHANNEL 2 +/* + * Configure Reference clock (clock type): + * External differential 0 + * Internal differential 1 + * Internal single ended 2 + */ +#define SATA_CLK_EXT_DIFF 0 +#define SATA_CLK_INT_DIFF 1 +#define SATA_CLK_INT_SING 2 + +/* SATA PHY CSR block offset */ +#define SATA_ETH_MUX_OFFSET 0x00007000 +#define SATA_SERDES_OFFSET 0x0000A000 +#define SATA_CLK_OFFSET 0x0000C000 + +/* SATA PHY common tunning parameters. + * + * These are the common tunning PHY parameter. This are here to quick + * reference. They can be override from the control override registers. + */ +#define FBDIV_VAL_50M 0x77 +#define REFDIV_VAL_50M 0x1 +#define FBDIV_VAL_100M 0x3B +#define REFDIV_VAL_100M 0x0 +#define FBDIV_VAL FBDIV_VAL_50M +#define REFDIV_VAL REFDIV_VAL_50M + +#define DEFAULT_CTLE_EQ 0x2 +#define DEFAULT_PQ 0xa +#define DEFAULT_SPD_SEL 0x5 +#define DEFAULT_PQ_SIGN 0x1 + +#define SPD_SEL_GEN3 0x5 +#define SPD_SEL_GEN2 0x3 +#define SPD_SEL_GEN1 0x1 + +/* SATA Clock/Reset CSR */ +#define SATACLKENREG_ADDR 0x00000000 +#define SATASRESETREG_ADDR 0x00000004 +#define SATA_MEM_RESET_MASK 0x00000020 +#define SATA_MEM_RESET_RD(src) (((src) & 0x00000020)>>5) +#define SATA_SDS_RESET_MASK 0x00000004 +#define SATA_CSR_RESET_MASK 0x00000001 +#define SATA_CORE_RESET_MASK 0x00000002 +#define SATA_PMCLK_RESET_MASK 0x00000010 +#define SATA_PCLK_RESET_MASK 0x00000008 + +/* SATA SDS CSR */ +#define SATA_ENET_SDS_PCS_CTL0_ADDR 0x00000000 +#define REGSPEC_CFG_I_TX_WORDMODE0_SET(dst, src) \ + (((dst) & ~0x00070000) | (((u32)(src)<<16) & 0x00070000)) +#define REGSPEC_CFG_I_RX_WORDMODE0_SET(dst, src) \ + (((dst) & ~0x00e00000) | (((u32)(src)<<21) & 0x00e00000)) +#define SATA_ENET_SDS_CTL1_ADDR 0x00000010 +#define CFG_I_SPD_SEL_CDR_OVR1_SET(dst, src) \ + (((dst) & ~0x0000000f) | (((u32)(src)) & 0x0000000f)) +#define SATA_ENET_SDS_CTL0_ADDR 0x0000000c +#define REGSPEC_CFG_I_CUSTOMER_PIN_MODE0_SET(dst, src) \ + (((dst) & ~0x00007fff) | (((u32)(src)) & 0x00007fff)) +#define SATA_ENET_SDS_RST_CTL_ADDR 0x00000024 +#define SATA_ENET_SDS_IND_CMD_REG_ADDR 0x0000003c +#define CFG_IND_WR_CMD_MASK 0x00000001 +#define CFG_IND_RD_CMD_MASK 0x00000002 +#define CFG_IND_CMD_DONE_MASK 0x00000004 +#define CFG_IND_ADDR_SET(dst, src) \ + (((dst) & ~0x003ffff0) | (((u32)(src)<<4) & 0x003ffff0)) +#define SATA_ENET_SDS_IND_RDATA_REG_ADDR 0x00000040 +#define SATA_ENET_SDS_IND_WDATA_REG_ADDR 0x00000044 +#define SATA_ENET_CLK_MACRO_REG_ADDR 0x0000004c +#define I_RESET_B_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src)) & 0x00000001)) +#define I_PLL_FBDIV_SET(dst, src) \ + (((dst) & ~0x001ff000) | (((u32)(src)<<12) & 0x001ff000)) +#define I_CUSTOMEROV_SET(dst, src) \ + (((dst) & ~0x00000f80) | (((u32)(src)<<7) & 0x00000f80)) +#define O_PLL_LOCK_RD(src) (((src) & 0x40000000)>>30) +#define O_PLL_READY_RD(src) (((src) & 0x80000000)>>31) + +/* SATA PHY clock CSR */ +#define KC_CLKMACRO_CMU_REGS_CMU_REG0_ADDR 0x20000 +#define CMU_REG0_PDOWN_MASK 0x00004000 +#define CMU_REG0_CAL_COUNT_RESOL_SET(dst, src) \ + (((dst) & ~0x000000e0) | (((u32)(src) << 0x5) & 0x000000e0)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG1_ADDR 0x20002 +#define CMU_REG1_PLL_CP_SET(dst, src) \ + (((dst) & ~0x00003c00) | (((u32)(src) << 0xa) & 0x00003c00)) +#define CMU_REG1_PLL_MANUALCAL_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define CMU_REG1_PLL_CP_SEL_SET(dst, src) \ + (((dst) & ~0x000003e0) | (((u32)(src) << 0x5) & 0x000003e0)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG2_ADDR 0x20004 +#define CMU_REG2_PLL_LFRES_SET(dst, src) \ + (((dst) & ~0x0000001e) | (((u32)(src) << 0x1) & 0x0000001e)) +#define CMU_REG2_PLL_FBDIV_SET(dst, src) \ + (((dst) & ~0x00003fe0) | (((u32)(src) << 0x5) & 0x00003fe0)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG3_ADDR 0x20006 +#define CMU_REG3_VCOVARSEL_SET(dst, src) \ + (((dst) & ~0x0000000f) | (((u32)(src) << 0x0) & 0x0000000f)) +#define CMU_REG3_VCO_MOMSEL_INIT_SET(dst, src) \ + (((dst) & ~0x000003f0) | (((u32)(src) << 0x4) & 0x000003f0)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG4_ADDR 0x20008 +#define KC_CLKMACRO_CMU_REGS_CMU_REG5_ADDR 0x2000a +#define CMU_REG5_PLL_LFSMCAP_SET(dst, src) \ + (((dst) & ~0x0000c000) | (((u32)(src) << 0xe) & 0x0000c000)) +#define CMU_REG5_PLL_LOCK_RESOLUTION_SET(dst, src) \ + (((dst) & ~0x0000000e) | (((u32)(src) << 0x1) & 0x0000000e)) +#define CMU_REG5_PLL_LFCAP_SET(dst, src) \ + (((dst) & ~0x00003000) | (((u32)(src) << 0xc) & 0x00003000)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG6_ADDR 0x2000c +#define CMU_REG6_PLL_VREGTRIM_SET(dst, src) \ + (((dst) & ~0x00000600) | (((u32)(src) << 0x9) & 0x00000600)) +#define CMU_REG6_MAN_PVT_CAL_SET(dst, src) \ + (((dst) & ~0x00000004) | (((u32)(src) << 0x2) & 0x00000004)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG7_ADDR 0x2000e +#define CMU_REG7_PLL_CALIB_DONE_RD(src) \ + ((0x00004000 & (u32)(src)) >> 0xe) +#define CMU_REG7_VCO_CAL_FAIL_RD(src) \ + ((0x00000c00 & (u32)(src)) >> 0xa) +#define KC_CLKMACRO_CMU_REGS_CMU_REG8_ADDR 0x20010 +#define KC_CLKMACRO_CMU_REGS_CMU_REG9_ADDR 0x20012 +#define KC_CLKMACRO_CMU_REGS_CMU_REG10_ADDR 0x20014 +#define KC_CLKMACRO_CMU_REGS_CMU_REG11_ADDR 0x20016 +#define KC_CLKMACRO_CMU_REGS_CMU_REG12_ADDR 0x20018 +#define KC_CLKMACRO_CMU_REGS_CMU_REG13_ADDR 0x2001a +#define KC_CLKMACRO_CMU_REGS_CMU_REG14_ADDR 0x2001c +#define KC_CLKMACRO_CMU_REGS_CMU_REG15_ADDR 0x2001e +#define KC_CLKMACRO_CMU_REGS_CMU_REG16_ADDR 0x20020 +#define CMU_REG16_PVT_DN_MAN_ENA_MASK 0x00000001 +#define CMU_REG16_PVT_UP_MAN_ENA_MASK 0x00000002 +#define CMU_REG16_VCOCAL_WAIT_BTW_CODE_SET(dst, src) \ + (((dst) & ~0x0000001c) | (((u32)(src) << 0x2) & 0x0000001c)) +#define CMU_REG16_CALIBRATION_DONE_OVERRIDE_SET(dst, src) \ + (((dst) & ~0x00000040) | (((u32)(src) << 0x6) & 0x00000040)) +#define CMU_REG16_BYPASS_PLL_LOCK_SET(dst, src) \ + (((dst) & ~0x00000020) | (((u32)(src) << 0x5) & 0x00000020)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR 0x20022 +#define CMU_REG17_PVT_CODE_R2A_SET(dst, src) \ + (((dst) & ~0x00007f00) | (((u32)(src) << 0x8) & 0x00007f00)) +#define CMU_REG17_RESERVED_7_SET(dst, src) \ + (((dst) & ~0x000000e0) | (((u32)(src) << 0x5) & 0x000000e0)) +#define CMU_REG17_PVT_TERM_MAN_ENA_MASK 0x00008000 +#define KC_CLKMACRO_CMU_REGS_CMU_REG18_ADDR 0x20024 +#define KC_CLKMACRO_CMU_REGS_CMU_REG19_ADDR 0x20026 +#define KC_CLKMACRO_CMU_REGS_CMU_REG20_ADDR 0x20028 +#define KC_CLKMACRO_CMU_REGS_CMU_REG21_ADDR 0x2002a +#define KC_CLKMACRO_CMU_REGS_CMU_REG22_ADDR 0x2002c +#define KC_CLKMACRO_CMU_REGS_CMU_REG23_ADDR 0x2002e +#define KC_CLKMACRO_CMU_REGS_CMU_REG24_ADDR 0x20030 +#define KC_CLKMACRO_CMU_REGS_CMU_REG25_ADDR 0x20032 +#define KC_CLKMACRO_CMU_REGS_CMU_REG26_ADDR 0x20034 +#define CMU_REG26_FORCE_PLL_LOCK_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src) << 0x0) & 0x00000001)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG27_ADDR 0x20036 +#define KC_CLKMACRO_CMU_REGS_CMU_REG28_ADDR 0x20038 +#define KC_CLKMACRO_CMU_REGS_CMU_REG29_ADDR 0x2003a +#define KC_CLKMACRO_CMU_REGS_CMU_REG30_ADDR 0x2003c +#define CMU_REG30_LOCK_COUNT_SET(dst, src) \ + (((dst) & ~0x00000006) | (((u32)(src) << 0x1) & 0x00000006)) +#define CMU_REG30_PCIE_MODE_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG31_ADDR 0x2003e +#define KC_CLKMACRO_CMU_REGS_CMU_REG32_ADDR 0x20040 +#define CMU_REG32_FORCE_VCOCAL_START_MASK 0x00004000 +#define CMU_REG32_PVT_CAL_WAIT_SEL_SET(dst, src) \ + (((dst) & ~0x00000006) | (((u32)(src) << 0x1) & 0x00000006)) +#define CMU_REG32_IREF_ADJ_SET(dst, src) \ + (((dst) & ~0x00000180) | (((u32)(src) << 0x7) & 0x00000180)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG33_ADDR 0x20042 +#define KC_CLKMACRO_CMU_REGS_CMU_REG34_ADDR 0x20044 +#define CMU_REG34_VCO_CAL_VTH_LO_MAX_SET(dst, src) \ + (((dst) & ~0x0000000f) | (((u32)(src) << 0x0) & 0x0000000f)) +#define CMU_REG34_VCO_CAL_VTH_HI_MAX_SET(dst, src) \ + (((dst) & ~0x00000f00) | (((u32)(src) << 0x8) & 0x00000f00)) +#define CMU_REG34_VCO_CAL_VTH_LO_MIN_SET(dst, src) \ + (((dst) & ~0x000000f0) | (((u32)(src) << 0x4) & 0x000000f0)) +#define CMU_REG34_VCO_CAL_VTH_HI_MIN_SET(dst, src) \ + (((dst) & ~0x0000f000) | (((u32)(src) << 0xc) & 0x0000f000)) +#define KC_SERDES_CMU_REGS_CMU_REG35_ADDR 0x46 +#define CMU_REG35_PLL_SSC_MOD_SET(dst, src) \ + (((dst) & ~0x0000fe00) | (((u32)(src) << 0x9) & 0x0000fe00)) +#define KC_SERDES_CMU_REGS_CMU_REG36_ADDR 0x48 +#define CMU_REG36_PLL_SSC_EN_SET(dst, src) \ + (((dst) & ~0x00000010) | (((u32)(src) << 0x4) & 0x00000010)) +#define CMU_REG36_PLL_SSC_VSTEP_SET(dst, src) \ + (((dst) & ~0x0000ffc0) | (((u32)(src) << 0x6) & 0x0000ffc0)) +#define CMU_REG36_PLL_SSC_DSMSEL_SET(dst, src) \ + (((dst) & ~0x00000020) | (((u32)(src) << 0x5) & 0x00000020)) +#define KC_CLKMACRO_CMU_REGS_CMU_REG35_ADDR 0x20046 +#define KC_CLKMACRO_CMU_REGS_CMU_REG36_ADDR 0x20048 +#define KC_CLKMACRO_CMU_REGS_CMU_REG37_ADDR 0x2004a +#define KC_CLKMACRO_CMU_REGS_CMU_REG38_ADDR 0x2004c +#define KC_CLKMACRO_CMU_REGS_CMU_REG39_ADDR 0x2004e + +/* SATA PHY RXTX CSR */ +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG0_ADDR 0x400 +#define CH0_RXTX_REG0_CTLE_EQ_HR_SET(dst, src) \ + (((dst) & ~0x0000f800) | (((u32)(src) << 0xb) & 0x0000f800)) +#define CH0_RXTX_REG0_CTLE_EQ_QR_SET(dst, src) \ + (((dst) & ~0x000007c0) | (((u32)(src) << 0x6) & 0x000007c0)) +#define CH0_RXTX_REG0_CTLE_EQ_FR_SET(dst, src) \ + (((dst) & ~0x0000003e) | (((u32)(src) << 0x1) & 0x0000003e)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG1_ADDR 0x402 +#define CH0_RXTX_REG1_RXACVCM_SET(dst, src) \ + (((dst) & ~0x0000f000) | (((u32)(src) << 0xc) & 0x0000f000)) +#define CH0_RXTX_REG1_CTLE_EQ_SET(dst, src) \ + (((dst) & ~0x00000f80) | (((u32)(src) << 0x7) & 0x00000f80)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG2_ADDR 0x404 +#define CH0_RXTX_REG2_VTT_ENA_SET(dst, src) \ + (((dst) & ~0x00000100) | (((u32)(src) << 0x8) & 0x00000100)) +#define CH0_RXTX_REG2_TX_FIFO_ENA_SET(dst, src) \ + (((dst) & ~0x00000020) | (((u32)(src) << 0x5) & 0x00000020)) +#define CH0_RXTX_REG2_VTT_SEL_SET(dst, src) \ + (((dst) & ~0x000000c0) | (((u32)(src) << 0x6) & 0x000000c0)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG4_ADDR 0x408 +#define CH0_RXTX_REG4_TX_LOOPBACK_BUF_EN_MASK 0x00000040 +#define CH0_RXTX_REG4_TX_DATA_RATE_SET(dst, src) \ + (((dst) & ~0x0000c000) | (((u32)(src) << 0xe) & 0x0000c000)) +#define CH0_RXTX_REG4_TX_WORD_MODE_SET(dst, src) \ + (((dst) & ~0x00003800) | (((u32)(src) << 0xb) & 0x00003800)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG5_ADDR 0x40a +#define CH0_RXTX_REG5_TX_CN1_SET(dst, src) \ + (((dst) & ~0x0000f800) | (((u32)(src) << 0xb) & 0x0000f800)) +#define CH0_RXTX_REG5_TX_CP1_SET(dst, src) \ + (((dst) & ~0x000007e0) | (((u32)(src) << 0x5) & 0x000007e0)) +#define CH0_RXTX_REG5_TX_CN2_SET(dst, src) \ + (((dst) & ~0x0000001f) | (((u32)(src) << 0x0) & 0x0000001f)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG6_ADDR 0x40c +#define CH0_RXTX_REG6_TXAMP_CNTL_SET(dst, src) \ + (((dst) & ~0x00000780) | (((u32)(src) << 0x7) & 0x00000780)) +#define CH0_RXTX_REG6_TXAMP_ENA_SET(dst, src) \ + (((dst) & ~0x00000040) | (((u32)(src) << 0x6) & 0x00000040)) +#define CH0_RXTX_REG6_RX_BIST_ERRCNT_RD_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src) << 0x0) & 0x00000001)) +#define CH0_RXTX_REG6_TX_IDLE_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define CH0_RXTX_REG6_RX_BIST_RESYNC_SET(dst, src) \ + (((dst) & ~0x00000002) | (((u32)(src) << 0x1) & 0x00000002)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR 0x40e +#define CH0_RXTX_REG7_RESETB_RXD_MASK 0x00000100 +#define CH0_RXTX_REG7_RESETB_RXA_MASK 0x00000080 +#define CH0_RXTX_REG7_BIST_ENA_RX_SET(dst, src) \ + (((dst) & ~0x00000040) | (((u32)(src) << 0x6) & 0x00000040)) +#define CH0_RXTX_REG7_RX_WORD_MODE_SET(dst, src) \ + (((dst) & ~0x00003800) | (((u32)(src) << 0xb) & 0x00003800)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG8_ADDR 0x410 +#define CH0_RXTX_REG8_CDR_LOOP_ENA_SET(dst, src) \ + (((dst) & ~0x00004000) | (((u32)(src) << 0xe) & 0x00004000)) +#define CH0_RXTX_REG8_CDR_BYPASS_RXLOS_SET(dst, src) \ + (((dst) & ~0x00000800) | (((u32)(src) << 0xb) & 0x00000800)) +#define CH0_RXTX_REG8_SSC_ENABLE_SET(dst, src) \ + (((dst) & ~0x00000200) | (((u32)(src) << 0x9) & 0x00000200)) +#define CH0_RXTX_REG8_SD_VREF_SET(dst, src) \ + (((dst) & ~0x000000f0) | (((u32)(src) << 0x4) & 0x000000f0)) +#define CH0_RXTX_REG8_SD_DISABLE_SET(dst, src) \ + (((dst) & ~0x00000100) | (((u32)(src) << 0x8) & 0x00000100)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR 0x40e +#define CH0_RXTX_REG7_RESETB_RXD_SET(dst, src) \ + (((dst) & ~0x00000100) | (((u32)(src) << 0x8) & 0x00000100)) +#define CH0_RXTX_REG7_RESETB_RXA_SET(dst, src) \ + (((dst) & ~0x00000080) | (((u32)(src) << 0x7) & 0x00000080)) +#define CH0_RXTX_REG7_LOOP_BACK_ENA_CTLE_MASK 0x00004000 +#define CH0_RXTX_REG7_LOOP_BACK_ENA_CTLE_SET(dst, src) \ + (((dst) & ~0x00004000) | (((u32)(src) << 0xe) & 0x00004000)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG11_ADDR 0x416 +#define CH0_RXTX_REG11_PHASE_ADJUST_LIMIT_SET(dst, src) \ + (((dst) & ~0x0000f800) | (((u32)(src) << 0xb) & 0x0000f800)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG12_ADDR 0x418 +#define CH0_RXTX_REG12_LATCH_OFF_ENA_SET(dst, src) \ + (((dst) & ~0x00002000) | (((u32)(src) << 0xd) & 0x00002000)) +#define CH0_RXTX_REG12_SUMOS_ENABLE_SET(dst, src) \ + (((dst) & ~0x00000004) | (((u32)(src) << 0x2) & 0x00000004)) +#define CH0_RXTX_REG12_RX_DET_TERM_ENABLE_MASK 0x00000002 +#define CH0_RXTX_REG12_RX_DET_TERM_ENABLE_SET(dst, src) \ + (((dst) & ~0x00000002) | (((u32)(src) << 0x1) & 0x00000002)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG13_ADDR 0x41a +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG14_ADDR 0x41c +#define CH0_RXTX_REG14_CLTE_LATCAL_MAN_PROG_SET(dst, src) \ + (((dst) & ~0x0000003f) | (((u32)(src) << 0x0) & 0x0000003f)) +#define CH0_RXTX_REG14_CTLE_LATCAL_MAN_ENA_SET(dst, src) \ + (((dst) & ~0x00000040) | (((u32)(src) << 0x6) & 0x00000040)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG26_ADDR 0x434 +#define CH0_RXTX_REG26_PERIOD_ERROR_LATCH_SET(dst, src) \ + (((dst) & ~0x00003800) | (((u32)(src) << 0xb) & 0x00003800)) +#define CH0_RXTX_REG26_BLWC_ENA_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG21_ADDR 0x42a +#define CH0_RXTX_REG21_DO_LATCH_CALOUT_RD(src) \ + ((0x0000fc00 & (u32)(src)) >> 0xa) +#define CH0_RXTX_REG21_XO_LATCH_CALOUT_RD(src) \ + ((0x000003f0 & (u32)(src)) >> 0x4) +#define CH0_RXTX_REG21_LATCH_CAL_FAIL_ODD_RD(src) \ + ((0x0000000f & (u32)(src))) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG22_ADDR 0x42c +#define CH0_RXTX_REG22_SO_LATCH_CALOUT_RD(src) \ + ((0x000003f0 & (u32)(src)) >> 0x4) +#define CH0_RXTX_REG22_EO_LATCH_CALOUT_RD(src) \ + ((0x0000fc00 & (u32)(src)) >> 0xa) +#define CH0_RXTX_REG22_LATCH_CAL_FAIL_EVEN_RD(src) \ + ((0x0000000f & (u32)(src))) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG23_ADDR 0x42e +#define CH0_RXTX_REG23_DE_LATCH_CALOUT_RD(src) \ + ((0x0000fc00 & (u32)(src)) >> 0xa) +#define CH0_RXTX_REG23_XE_LATCH_CALOUT_RD(src) \ + ((0x000003f0 & (u32)(src)) >> 0x4) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG24_ADDR 0x430 +#define CH0_RXTX_REG24_EE_LATCH_CALOUT_RD(src) \ + ((0x0000fc00 & (u32)(src)) >> 0xa) +#define CH0_RXTX_REG24_SE_LATCH_CALOUT_RD(src) \ + ((0x000003f0 & (u32)(src)) >> 0x4) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG28_ADDR 0x438 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG31_ADDR 0x43e +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG38_ADDR 0x44c +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG39_ADDR 0x44e +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG40_ADDR 0x450 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG41_ADDR 0x452 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG42_ADDR 0x454 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG43_ADDR 0x456 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG44_ADDR 0x458 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG45_ADDR 0x45a +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG46_ADDR 0x45c +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG47_ADDR 0x45e +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG48_ADDR 0x460 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG49_ADDR 0x462 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG50_ADDR 0x464 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG51_ADDR 0x466 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG52_ADDR 0x468 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG53_ADDR 0x46a +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG54_ADDR 0x46c +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG55_ADDR 0x46e +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG61_ADDR 0x47a +#define CH0_RXTX_REG61_ISCAN_INBERT_SET(dst, src) \ + (((dst) & ~0x00000010) | (((u32)(src) << 0x4) & 0x00000010)) +#define CH0_RXTX_REG61_LOADFREQ_SHIFT_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define CH0_RXTX_REG61_EYE_COUNT_WIDTH_SEL_SET(dst, src) \ + (((dst) & ~0x000000c0) | (((u32)(src) << 0x6) & 0x000000c0)) +#define CH0_RXTX_REG61_SPD_SEL_CDR_SET(dst, src) \ + (((dst) & ~0x00003c00) | (((u32)(src) << 0xa) & 0x00003c00)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG62_ADDR 0x47c +#define CH0_RXTX_REG62_PERIOD_H1_QLATCH_SET(dst, src) \ + (((dst) & ~0x00003800) | (((u32)(src) << 0xb) & 0x00003800)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG81_ADDR 0x4a2 + +#define CH0_RXTX_REG89_MU_TH7_SET(dst, src) \ + (((dst) & ~0x0000f800) | (((u32)(src) << 0xb) & 0x0000f800)) +#define CH0_RXTX_REG89_MU_TH8_SET(dst, src) \ + (((dst) & ~0x000007c0) | (((u32)(src) << 0x6) & 0x000007c0)) +#define CH0_RXTX_REG89_MU_TH9_SET(dst, src) \ + (((dst) & ~0x0000003e) | (((u32)(src) << 0x1) & 0x0000003e)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG96_ADDR 0x4c0 +#define CH0_RXTX_REG96_MU_FREQ1_SET(dst, src) \ + (((dst) & ~0x0000f800) | (((u32)(src) << 0xb) & 0x0000f800)) +#define CH0_RXTX_REG96_MU_FREQ2_SET(dst, src) \ + (((dst) & ~0x000007c0) | (((u32)(src) << 0x6) & 0x000007c0)) +#define CH0_RXTX_REG96_MU_FREQ3_SET(dst, src) \ + (((dst) & ~0x0000003e) | (((u32)(src) << 0x1) & 0x0000003e)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG99_ADDR 0x4c6 +#define CH0_RXTX_REG99_MU_PHASE1_SET(dst, src) \ + (((dst) & ~0x0000f800) | (((u32)(src) << 0xb) & 0x0000f800)) +#define CH0_RXTX_REG99_MU_PHASE2_SET(dst, src) \ + (((dst) & ~0x000007c0) | (((u32)(src) << 0x6) & 0x000007c0)) +#define CH0_RXTX_REG99_MU_PHASE3_SET(dst, src) \ + (((dst) & ~0x0000003e) | (((u32)(src) << 0x1) & 0x0000003e)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG102_ADDR 0x4cc +#define CH0_RXTX_REG102_FREQLOOP_LIMIT_SET(dst, src) \ + (((dst) & ~0x00000060) | (((u32)(src) << 0x5) & 0x00000060)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG114_ADDR 0x4e4 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG121_ADDR 0x4f2 +#define CH0_RXTX_REG121_SUMOS_CAL_CODE_RD(src) \ + ((0x0000003e & (u32)(src)) >> 0x1) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG125_ADDR 0x4fa +#define CH0_RXTX_REG125_PQ_REG_SET(dst, src) \ + (((dst) & ~0x0000fe00) | (((u32)(src) << 0x9) & 0x0000fe00)) +#define CH0_RXTX_REG125_SIGN_PQ_SET(dst, src) \ + (((dst) & ~0x00000100) | (((u32)(src) << 0x8) & 0x00000100)) +#define CH0_RXTX_REG125_SIGN_PQ_2C_SET(dst, src) \ + (((dst) & ~0x00000080) | (((u32)(src) << 0x7) & 0x00000080)) +#define CH0_RXTX_REG125_PHZ_MANUALCODE_SET(dst, src) \ + (((dst) & ~0x0000007c) | (((u32)(src) << 0x2) & 0x0000007c)) +#define CH0_RXTX_REG125_PHZ_MANUAL_SET(dst, src) \ + (((dst) & ~0x00000002) | (((u32)(src) << 0x1) & 0x00000002)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR 0x4fe +#define CH0_RXTX_REG127_FORCE_SUM_CAL_START_MASK 0x00000002 +#define CH0_RXTX_REG127_FORCE_LAT_CAL_START_MASK 0x00000004 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG127_ADDR 0x6fe +#define CH1_RXTX_REG127_FORCE_SUM_CAL_START_SET(dst, src) \ + (((dst) & ~0x00000002) | (((u32)(src) << 0x1) & 0x00000002)) +#define CH1_RXTX_REG127_FORCE_LAT_CAL_START_SET(dst, src) \ + (((dst) & ~0x00000004) | (((u32)(src) << 0x2) & 0x00000004)) +#define CH0_RXTX_REG127_LATCH_MAN_CAL_ENA_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define CH0_RXTX_REG127_DO_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x0000fc00) | (((u32)(src) << 0xa) & 0x0000fc00)) +#define CH0_RXTX_REG127_XO_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x000003f0) | (((u32)(src) << 0x4) & 0x000003f0)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG128_ADDR 0x500 +#define CH0_RXTX_REG128_LATCH_CAL_WAIT_SEL_SET(dst, src) \ + (((dst) & ~0x0000000c) | (((u32)(src) << 0x2) & 0x0000000c)) +#define CH0_RXTX_REG128_EO_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x0000fc00) | (((u32)(src) << 0xa) & 0x0000fc00)) +#define CH0_RXTX_REG128_SO_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x000003f0) | (((u32)(src) << 0x4) & 0x000003f0)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG129_ADDR 0x502 +#define CH0_RXTX_REG129_DE_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x0000fc00) | (((u32)(src) << 0xa) & 0x0000fc00)) +#define CH0_RXTX_REG129_XE_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x000003f0) | (((u32)(src) << 0x4) & 0x000003f0)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG130_ADDR 0x504 +#define CH0_RXTX_REG130_EE_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x0000fc00) | (((u32)(src) << 0xa) & 0x0000fc00)) +#define CH0_RXTX_REG130_SE_LATCH_MANCAL_SET(dst, src) \ + (((dst) & ~0x000003f0) | (((u32)(src) << 0x4) & 0x000003f0)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG145_ADDR 0x522 +#define CH0_RXTX_REG145_TX_IDLE_SATA_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src) << 0x0) & 0x00000001)) +#define CH0_RXTX_REG145_RXES_ENA_SET(dst, src) \ + (((dst) & ~0x00000002) | (((u32)(src) << 0x1) & 0x00000002)) +#define CH0_RXTX_REG145_RXDFE_CONFIG_SET(dst, src) \ + (((dst) & ~0x0000c000) | (((u32)(src) << 0xe) & 0x0000c000)) +#define CH0_RXTX_REG145_RXVWES_LATENA_SET(dst, src) \ + (((dst) & ~0x00000004) | (((u32)(src) << 0x2) & 0x00000004)) +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG147_ADDR 0x526 +#define KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG148_ADDR 0x528 + +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG4_ADDR 0x608 +#define CH1_RXTX_REG4_TX_LOOPBACK_BUF_EN_SET(dst, src) \ + (((dst) & ~0x00000040) | (((u32)(src) << 0x6) & 0x00000040)) +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG7_ADDR 0x60e +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG13_ADDR 0x61a +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG38_ADDR 0x64c +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG39_ADDR 0x64e +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG40_ADDR 0x650 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG41_ADDR 0x652 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG42_ADDR 0x654 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG43_ADDR 0x656 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG44_ADDR 0x658 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG45_ADDR 0x65a +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG46_ADDR 0x65c +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG47_ADDR 0x65e +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG48_ADDR 0x660 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG49_ADDR 0x662 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG50_ADDR 0x664 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG51_ADDR 0x666 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG52_ADDR 0x668 +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG53_ADDR 0x66a +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG54_ADDR 0x66c +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG55_ADDR 0x66e +#define KC_SERDES_X2_RXTX_REGS_CH1_RXTX_REG121_ADDR 0x6f2 + +/* SATA/ENET Shared CSR */ +#define SATA_ENET_CONFIG_REG_ADDR 0x00000000 +#define CFG_SATA_ENET_SELECT_MASK 0x00000001 + +/* SATA SERDES CMU CSR */ +#define KC_SERDES_CMU_REGS_CMU_REG0_ADDR 0x0 +#define CMU_REG0_PLL_REF_SEL_MASK 0x00002000 +#define CMU_REG0_PLL_REF_SEL_SHIFT_MASK 0xd +#define CMU_REG0_PLL_REF_SEL_SET(dst, src) \ + (((dst) & ~0x00002000) | (((u32)(src) << 0xd) & 0x00002000)) +#define KC_SERDES_CMU_REGS_CMU_REG1_ADDR 0x2 +#define CMU_REG1_REFCLK_CMOS_SEL_MASK 0x00000001 +#define CMU_REG1_REFCLK_CMOS_SEL_SHIFT_MASK 0x0 +#define CMU_REG1_REFCLK_CMOS_SEL_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src) << 0x0) & 0x00000001)) +#define KC_SERDES_CMU_REGS_CMU_REG2_ADDR 0x4 +#define CMU_REG2_PLL_REFDIV_SET(dst, src) \ + (((dst) & ~0x0000c000) | (((u32)(src) << 0xe) & 0x0000c000)) +#define KC_SERDES_CMU_REGS_CMU_REG3_ADDR 0x6 +#define CMU_REG3_VCO_MANMOMSEL_SET(dst, src) \ + (((dst) & ~0x0000fc00) | (((u32)(src) << 0xa) & 0x0000fc00)) +#define KC_SERDES_CMU_REGS_CMU_REG5_ADDR 0xa +#define CMU_REG5_PLL_RESETB_MASK 0x00000001 +#define KC_SERDES_CMU_REGS_CMU_REG6_ADDR 0xc +#define KC_SERDES_CMU_REGS_CMU_REG7_ADDR 0xe +#define KC_SERDES_CMU_REGS_CMU_REG9_ADDR 0x12 +#define CMU_REG9_TX_WORD_MODE_CH1_SET(dst, src) \ + (((dst) & ~0x00000380) | (((u32)(src) << 0x7) & 0x00000380)) +#define CMU_REG9_TX_WORD_MODE_CH0_SET(dst, src) \ + (((dst) & ~0x00000070) | (((u32)(src) << 0x4) & 0x00000070)) +#define CMU_REG9_PLL_POST_DIVBY2_SET(dst, src) \ + (((dst) & ~0x00000008) | (((u32)(src) << 0x3) & 0x00000008)) +#define KC_SERDES_CMU_REGS_CMU_REG12_ADDR 0x18 +#define CMU_REG12_STATE_DELAY9_SET(dst, src) \ + (((dst) & ~0x000000f0) | (((u32)(src) << 0x4) & 0x000000f0)) +#define KC_SERDES_CMU_REGS_CMU_REG13_ADDR 0x1a +#define KC_SERDES_CMU_REGS_CMU_REG14_ADDR 0x1c +#define KC_SERDES_CMU_REGS_CMU_REG15_ADDR 0x1e +#define KC_SERDES_CMU_REGS_CMU_REG16_ADDR 0x20 +#define KC_SERDES_CMU_REGS_CMU_REG17_ADDR 0x22 +#define KC_SERDES_CMU_REGS_CMU_REG26_ADDR 0x34 +#define KC_SERDES_CMU_REGS_CMU_REG30_ADDR 0x3c +#define KC_SERDES_CMU_REGS_CMU_REG31_ADDR 0x3e +#define KC_SERDES_CMU_REGS_CMU_REG32_ADDR 0x40 +#define CMU_REG32_FORCE_VCOCAL_START_MASK 0x00004000 +#define KC_SERDES_CMU_REGS_CMU_REG34_ADDR 0x44 +#define KC_SERDES_CMU_REGS_CMU_REG37_ADDR 0x4a + +/* PCIE SATA Serdes CSR (CSR shared with the PCIe) */ +#define SM_PCIE_CLKRST_CSR_PCIE_SRST_ADDR 0xc000 +#define SM_PCIE_CLKRST_CSR_PCIE_CLKEN_ADDR 0xc008 +#define SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_WDATA_REG_ADDR 0xa01c +#define SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_CMD_REG_ADDR 0xa014 +#define PCIE_SDS_IND_CMD_REG_CFG_IND_ADDR_SET(dst, src) \ + (((dst) & ~0x003ffff0) | (((u32)(src) << 0x4) & 0x003ffff0)) +#define PCIE_SDS_IND_CMD_REG_CFG_IND_WR_CMD_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src) << 0x0) & 0x00000001)) +#define SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_RDATA_REG_ADDR 0xa018 +#define SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR 0xa094 +#define PCIE_SDS_IND_CMD_REG_CFG_IND_CMD_DONE_RD(src) \ + ((0x00000004 & (uint32_t)(src)) >> 0x2) +#define PCIE_SDS_IND_CMD_REG_CFG_IND_CMD_DONE_SET(dst, src) \ + (((dst) & ~0x00000004) | (((u32)(src) << 0x2) & 0x00000004)) +#define PCIE_SDS_IND_CMD_REG_CFG_IND_RD_CMD_SET(dst, src) \ + (((dst) & ~0x00000002) | (((u32)(src) << 0x1) & 0x00000002)) +#define PCIE_CLK_MACRO_REG_I_RESET_B_SET(dst, src) \ + (((dst) & ~0x00000001) | (((u32)(src) << 0x0) & 0x00000001)) +#define PCIE_CLK_MACRO_REG_I_CUSTOMEROV_SET(dst, src) \ + (((dst) & ~0x00000f80) | (((u32)(src) << 0x7) & 0x00000f80)) +#define PCIE_CLK_MACRO_REG_O_PLL_READY_RD(src) \ + ((0x80000000 & (u32)(src)) >> 0x1f) +#define PCIE_CLK_MACRO_REG_I_PLL_FBDIV_SET(dst, src) \ + (((dst) & ~0x001ff000) | (((u32)(src) << 0xc) & 0x001ff000)) +#define PCIE_CLK_MACRO_REG_O_PLL_LOCK_RD(src) \ + ((0x40000000 & (u32)(src)) >> 0x1e) + +struct xgene_ahci_phy_ctx { + struct device *dev; + struct phy *phy; + u32 id; + u64 csr_phys; /* Physical address of PHY CSR base address */ + void *csr_base; /* PHY CSR base address */ + void *pcie_base; /* Shared PHY CSR in PCIe 4/5 domain */ + u32 speed[MAX_CHANNEL]; + + /* Override Serdes parameters */ + u32 ctle_eq[MAX_CHANNEL][3]; /* Serdes Reg 1 RX/TX ctle_eq value */ + u32 pq[MAX_CHANNEL][3]; /* Serdes Reg 125 pq value */ + u32 pq_sign[MAX_CHANNEL][3]; /* Serdes Reg 125 pq sign */ + u32 spd_sel_cdr[MAX_CHANNEL][3]; /* Serdes Reg 61 spd sel cdr value */ +}; + +/* Manual calibration is required for chip that is earlier than A3. + To enable, pass boot argument sata_xgene_phy.manual=1 */ +static int enable_manual_cal = 1; +MODULE_PARM_DESC(manual, "Enable manual calibration (0=enable 1=enable)"); +module_param_named(manual, enable_manual_cal, int, 0444); + +static void phy_rd(void *addr, u32 *val) +{ + *val = readl(addr); +#if defined(XGENE_DBG_CSR) + printk(KERN_DEBUG "SATAPHY CSR RD: 0x%p value: 0x%08x\n", addr, *val); +#endif +} + +static void phy_wr(void *addr, u32 val) +{ + writel(val, addr); +#if defined(XGENE_DBG_CSR) + printk(KERN_DEBUG "SATAPHY CSR WR: 0x%p value: 0x%08x\n", addr, val); +#endif +} + +static void phy_wr_flush(void *addr, u32 val) +{ + writel(val, addr); +#if defined(XGENE_DBG_CSR) + printk(KERN_DEBUG "SATAPHY CSR WR: 0x%p value: 0x%08x\n", addr, val); +#endif + val = readl(addr); /* Force an barrier */ +} + +static void serdes_wr(void *csr_base, u32 indirect_cmd_reg, + u32 indirect_data_reg, u32 addr, u32 data) +{ + u32 val; + u32 cmd; + + cmd = CFG_IND_WR_CMD_MASK | CFG_IND_CMD_DONE_MASK; + cmd = (addr << 4) | cmd; + phy_wr(csr_base + indirect_data_reg, data); + phy_rd(csr_base + indirect_data_reg, &val); /* Force a barrier */ + phy_wr(csr_base + indirect_cmd_reg, cmd); + phy_rd(csr_base + indirect_cmd_reg, &val); /* Force a barrier */ + /* Add an barrier - very important please don't remove */ + mb(); + /* Ignore first read */ + phy_rd(csr_base + indirect_cmd_reg, &val); + /* Allow Serdes to get reflected. This is required! */ + udelay(1000); + do { + phy_rd(csr_base + indirect_cmd_reg, &val); + } while (!(val & CFG_IND_CMD_DONE_MASK)); +} + +static void serdes_rd(void *csr_base, u32 indirect_cmd_reg, + u32 indirect_data_reg, u32 addr, u32 *data) +{ + u32 val; + u32 cmd; + + cmd = CFG_IND_RD_CMD_MASK | CFG_IND_CMD_DONE_MASK; + cmd = (addr << 4) | cmd; + phy_wr(csr_base + indirect_cmd_reg, cmd); + phy_rd(csr_base + indirect_cmd_reg, &val); /* Force a barrier */ + /* Add an barrier - very important please don't remove */ + mb(); + /* Ignore one read */ + phy_rd(csr_base + indirect_cmd_reg, &val); + do { + phy_rd(csr_base + indirect_cmd_reg, &val); + } while (!(val & CFG_IND_CMD_DONE_MASK)); + phy_rd(csr_base + indirect_data_reg, data); +} + +/* X-Gene Serdes write helper for SATA port 0, 1, 2, and 3 */ +static void sds_wr(void *csr_base, u32 addr, u32 data) +{ + u32 val; + serdes_wr(csr_base, SATA_ENET_SDS_IND_CMD_REG_ADDR, + SATA_ENET_SDS_IND_WDATA_REG_ADDR, addr, data); + serdes_rd(csr_base, SATA_ENET_SDS_IND_CMD_REG_ADDR, + SATA_ENET_SDS_IND_RDATA_REG_ADDR, addr, &val); +#if defined(XGENE_DBG2_CSR) + printk(KERN_DEBUG "SDS WR addr 0x%X value 0x%08X <-> 0x%08X\n", + addr, data, val); +#endif +} + +/* X-Gene Serdes read helper for SATA port 0, 1, 2, and 3 */ +static void sds_rd(void *csr_base, u32 addr, u32 *data) +{ + serdes_rd(csr_base, SATA_ENET_SDS_IND_CMD_REG_ADDR, + SATA_ENET_SDS_IND_RDATA_REG_ADDR, addr, data); +#if defined(XGENE_DBG2_CSR) + printk(KERN_DEBUG "SDS RD addr 0x%X value 0x%08X\n", addr, *data); +#endif +} + +/* X-Gene Serdes toggle helper for SATA port 0, 1, 2, and 3 */ +static void sds_toggle1to0(void *csr_base, u32 addr, u32 bits) +{ + u32 val; + sds_rd(csr_base, addr, &val); + val |= bits; + sds_wr(csr_base, addr, val); + sds_rd(csr_base, addr, &val); + val &= ~bits; + sds_wr(csr_base, addr, val); +} + +/* X-Gene Serdes clear bits helper for SATA port 0, 1, 2, and 3 */ +static void sds_clrbits(void *csr_base, u32 addr, u32 bits) +{ + u32 val; + sds_rd(csr_base, addr, &val); + val &= ~bits; + sds_wr(csr_base, addr, val); +} + +/* X-Gene Serdes set bits helper for SATA port 0, 1, 2, and 3 */ +static void sds_setbits(void *csr_base, u32 addr, u32 bits) +{ + u32 val; + sds_rd(csr_base, addr, &val); + val |= bits; + sds_wr(csr_base, addr, val); +} + +/* X-Gene Serdes write helper for SATA port 4 and 5 */ +static void sds_pcie_wr(void *csr_base, u32 addr, u32 data) +{ + u32 val; + serdes_wr(csr_base, SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_CMD_REG_ADDR, + SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_WDATA_REG_ADDR, addr, + data); + serdes_rd(csr_base, SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_CMD_REG_ADDR, + SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_RDATA_REG_ADDR, + addr, &val); +#if defined(XGENE_DBG2_CSR) + printk(KERN_DEBUG "PCIE SDS WR addr 0x%X value 0x%08X <-> 0x%08X\n", + addr, data, val); +#endif +} + +/* X-Gene Serdes read helper for SATA port 4 and 5 */ +static void sds_pcie_rd(void *csr_base, u32 addr, u32 *data) +{ + serdes_rd(csr_base, SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_CMD_REG_ADDR, + SM_PCIE_X8_SDS_CSR_REGS_PCIE_SDS_IND_RDATA_REG_ADDR, + addr, data); +#if defined(XGENE_DBG2_CSR) + printk(KERN_DEBUG "PCIE SDS RD addr 0x%X value 0x%08X\n", addr, *data); +#endif +} + +static void sds_pcie_toggle1to0(void *csr_base, u32 addr, u32 bits) +{ + u32 val; + sds_pcie_rd(csr_base, addr, &val); + val |= bits; + sds_pcie_wr(csr_base, addr, val); + sds_pcie_rd(csr_base, addr, &val); + val &= ~bits; + sds_pcie_wr(csr_base, addr, val); +} + +static int xgene_phy_cal_rdy_check(void *csr_serdes, + void (*serdes_rd) (void *, u32, u32 *), + void (*serdes_wr) (void *, u32, u32), + void (*serdes_toggle1to0) (void *, u32, u32)) +{ + int loopcount; + u32 val; + + if (!enable_manual_cal) + goto skip_manual_cal; + + /* TERM CALIBRATION CH0 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, &val); + val = CMU_REG17_PVT_CODE_R2A_SET(val, 0x12); + val = CMU_REG17_RESERVED_7_SET(val, 0x0); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, val); + serdes_toggle1to0(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, + CMU_REG17_PVT_TERM_MAN_ENA_MASK); + /* DOWN CALIBRATION CH0 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, &val); + val = CMU_REG17_PVT_CODE_R2A_SET(val, 0x26); + val = CMU_REG17_RESERVED_7_SET(val, 0x0); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, val); + serdes_toggle1to0(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG16_ADDR, + CMU_REG16_PVT_DN_MAN_ENA_MASK); + /* UP CALIBRATION CH0 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, &val); + val = CMU_REG17_PVT_CODE_R2A_SET(val, 0x28); + val = CMU_REG17_RESERVED_7_SET(val, 0x0); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG17_ADDR, val); + serdes_toggle1to0(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG16_ADDR, + CMU_REG16_PVT_UP_MAN_ENA_MASK); + +skip_manual_cal: + /* Check PLL calibration for 1ms */ + loopcount = 10; + do { + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG7_ADDR, &val); + if (CMU_REG7_PLL_CALIB_DONE_RD(val)) + return 0; + udelay(100); /* No need to poll faster than 100 us */ + } while (!CMU_REG7_PLL_CALIB_DONE_RD(val) && --loopcount > 0); + + return -1; +} + +/* SATA port 0 - 3 PLL initialization */ +static int xgene_phy_macro_cal_rdy_chk(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_serdes = ctx->csr_base + SATA_SERDES_OFFSET; + u32 val; + + xgene_phy_cal_rdy_check(csr_serdes, sds_rd, sds_wr, sds_toggle1to0); + + /* Check if PLL calibration complete sucessfully */ + sds_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG7_ADDR, &val); + if (CMU_REG7_PLL_CALIB_DONE_RD(val) == 0x1) + dev_dbg(ctx->dev, "CLKMACRO PLL calibration done\n"); + /* Check for VCO FAIL */ + if (CMU_REG7_VCO_CAL_FAIL_RD(val) == 0x0) { + dev_dbg(ctx->dev, "CLKMACRO VCO calibration successful\n"); + return 0; + } + /* Assert SDS reset for recall calibration if required */ + phy_rd(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, &val); + phy_wr(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, val); + dev_err(ctx->dev, "CLKMACRO calibration failed due to VCO failure\n"); + return -1; +} + +/* SATA port 0 - 3 force power down VCO */ +static void xgene_phy_macro_pdwn_force_vco(struct xgene_ahci_phy_ctx *ctx) +{ + sds_toggle1to0(ctx->csr_base + SATA_SERDES_OFFSET, + KC_CLKMACRO_CMU_REGS_CMU_REG0_ADDR, CMU_REG0_PDOWN_MASK); + sds_toggle1to0(ctx->csr_base + SATA_SERDES_OFFSET, + KC_CLKMACRO_CMU_REGS_CMU_REG32_ADDR, + CMU_REG32_FORCE_VCOCAL_START_MASK); +} + +/* SATA port 4 - 5 PLL initialization */ +static int xgene_phy_sata45_macro_cal_rdy_chk(struct xgene_ahci_phy_ctx *ctx) +{ + void *pcie_base = ctx->pcie_base; + u32 val; + + xgene_phy_cal_rdy_check(pcie_base, sds_pcie_rd, sds_pcie_wr, + sds_pcie_toggle1to0); + + /* PLL Calibration DONE */ + sds_pcie_rd(pcie_base, KC_CLKMACRO_CMU_REGS_CMU_REG7_ADDR, &val); + if (CMU_REG7_PLL_CALIB_DONE_RD(val) == 0x1) + dev_dbg(ctx->dev, "CLKMACRO PLL CALIB done\n"); + /* Check for VCO FAIL */ + if (CMU_REG7_VCO_CAL_FAIL_RD(val) == 0x0) { + dev_dbg(ctx->dev, "CLKMACRO CALIB successful\n"); + return 0; + } + dev_err(ctx->dev, "CLKMACRO CALIB failed due to VCO failure\n"); + return -1; +} + +static int xgene_phy_macro_cfg(void *csr_serdes, + void (*serdes_rd) (void *, u32, u32 *), + void (*serdes_wr) (void *, u32, u32)) +{ + u32 val; + + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG34_ADDR, &val); + val = CMU_REG34_VCO_CAL_VTH_LO_MAX_SET(val, 0x7); + val = CMU_REG34_VCO_CAL_VTH_HI_MAX_SET(val, 0xd); + val = CMU_REG34_VCO_CAL_VTH_LO_MIN_SET(val, 0x2); + val = CMU_REG34_VCO_CAL_VTH_HI_MIN_SET(val, 0x8); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG34_ADDR, val); + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG0_ADDR, &val); + val = CMU_REG0_CAL_COUNT_RESOL_SET(val, 0x4); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG0_ADDR, val); + /* CMU_REG1 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG1_ADDR, &val); + val = CMU_REG1_PLL_CP_SET(val, 0x1); + val = CMU_REG1_PLL_CP_SEL_SET(val, 0x5); + val = CMU_REG1_PLL_MANUALCAL_SET(val, 0x0); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG1_ADDR, val); + /* CMU_REG2 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG2_ADDR, &val); + val = CMU_REG2_PLL_LFRES_SET(val, 0xa); + val = CMU_REG2_PLL_FBDIV_SET(val, 0x27); /* 100Mhz refclk */ + val = CMU_REG2_PLL_FBDIV_SET(val, 0x4f); /* 50Mhz refclk */ + val = CMU_REG2_PLL_REFDIV_SET(val, 0x1); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG2_ADDR, val); + /* CMU_REG3 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG3_ADDR, &val); + val = CMU_REG3_VCOVARSEL_SET(val, 0xf); + val = CMU_REG3_VCO_MOMSEL_INIT_SET(val, 0x10); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG3_ADDR, val); + /* CMU_REG26 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG26_ADDR, &val); + val = CMU_REG26_FORCE_PLL_LOCK_SET(val, 0x0); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG26_ADDR, val); + /* CMU_REG5 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG5_ADDR, &val); + val = CMU_REG5_PLL_LFSMCAP_SET(val, 0x3); + val = CMU_REG5_PLL_LFCAP_SET(val, 0x3); + val = CMU_REG5_PLL_LOCK_RESOLUTION_SET(val, 0x7); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG5_ADDR, val); + /* CMU_reg6 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG6_ADDR, &val); + val = CMU_REG6_PLL_VREGTRIM_SET(val, 0x0); + if (enable_manual_cal) + val = CMU_REG6_MAN_PVT_CAL_SET(val, 0x1); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG6_ADDR, val); + /* CMU_reg16 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG16_ADDR, &val); + val = CMU_REG16_CALIBRATION_DONE_OVERRIDE_SET(val, 0x1); + val = CMU_REG16_BYPASS_PLL_LOCK_SET(val, 0x1); + val = CMU_REG16_VCOCAL_WAIT_BTW_CODE_SET(val, 0x4); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG16_ADDR, val); + /* CMU_reg30 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG30_ADDR, &val); + val = CMU_REG30_PCIE_MODE_SET(val, 0x0); + val = CMU_REG30_LOCK_COUNT_SET(val, 0x3); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG30_ADDR, val); + /* CMU reg31 */ + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG31_ADDR, 0xF); + /* CMU_reg32 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG32_ADDR, &val); + val = CMU_REG32_PVT_CAL_WAIT_SEL_SET(val, 0x3); + val = CMU_REG32_IREF_ADJ_SET(val, 0x3); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG32_ADDR, val); + /* CMU_reg34 */ + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG34_ADDR, 0x8d27); + /* CMU_reg37 */ + serdes_rd(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG37_ADDR, &val); + serdes_wr(csr_serdes, KC_CLKMACRO_CMU_REGS_CMU_REG37_ADDR, 0xF00F); + + return 0; +} + +/* SATA port 0 - 3 macro configuration */ +static int xgene_phy_sata_macro_cfg(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_serdes = ctx->csr_base + SATA_SERDES_OFFSET; + int calib_loop_count = 0; + u32 val; + + phy_rd(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, &val); + val = I_RESET_B_SET(val, 0x0); + val = I_PLL_FBDIV_SET(val, 0x27); + val = I_CUSTOMEROV_SET(val, 0x0); + phy_wr(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, val); + + xgene_phy_macro_cfg(csr_serdes, sds_rd, sds_wr); + + phy_rd(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, &val); + val = I_RESET_B_SET(val, 0x1); + val = I_CUSTOMEROV_SET(val, 0x0); + phy_wr(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, val); + + mb(); + + while (++calib_loop_count <= 5) { + if (xgene_phy_macro_cal_rdy_chk(ctx) == 0) + break; + xgene_phy_macro_pdwn_force_vco(ctx); + } + if (calib_loop_count > 5) { + dev_err(ctx->dev, "PLL CLKMACRO NOT READY...\n"); + return -1; + } + phy_rd(csr_serdes + SATA_ENET_CLK_MACRO_REG_ADDR, &val); + dev_dbg(ctx->dev, "PLL CLKMACRO %sLOOKED...\n", + O_PLL_LOCK_RD(val) ? "" : "UN"); + dev_dbg(ctx->dev, "PLL CLKMACRO %sREADY...\n", + O_PLL_READY_RD(val) ? "" : "NOT"); + + return 0; +} + +/* SATA port 4 - 5 force power down VCO */ +static void xgene_phy_sata45_macro_pdwn_force_vco(struct xgene_ahci_phy_ctx + *ctx) +{ + sds_pcie_toggle1to0(ctx->pcie_base, KC_CLKMACRO_CMU_REGS_CMU_REG0_ADDR, + CMU_REG0_PDOWN_MASK); + sds_pcie_toggle1to0(ctx->pcie_base, + KC_CLKMACRO_CMU_REGS_CMU_REG32_ADDR, + CMU_REG32_FORCE_VCOCAL_START_MASK); +} + +static void xgene_phy_sata45_cfg_internal_clk(struct xgene_ahci_phy_ctx *ctx) +{ + void *pcie_base = ctx->pcie_base; + + phy_wr_flush(pcie_base + SM_PCIE_CLKRST_CSR_PCIE_CLKEN_ADDR, 0xff); + phy_wr_flush(pcie_base + SM_PCIE_CLKRST_CSR_PCIE_SRST_ADDR, 0x00); +} + +void xgene_phy_sata45_reset_cmos(struct xgene_ahci_phy_ctx *ctx) +{ + void *pcie_base = ctx->pcie_base; + + phy_wr_flush(pcie_base + SM_PCIE_CLKRST_CSR_PCIE_CLKEN_ADDR, 0x00); + phy_wr_flush(pcie_base + SM_PCIE_CLKRST_CSR_PCIE_SRST_ADDR, 0xff); +} + +/* SATA port 4 - 5 macro configuration */ +static int xgene_phy_sata45_macro_cfg(struct xgene_ahci_phy_ctx *ctx) +{ + void *pcie_base = ctx->pcie_base; + int calib_loop_count; + u32 val; + + xgene_phy_sata45_cfg_internal_clk(ctx); + + phy_rd(pcie_base + SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR, + &val); + val = PCIE_CLK_MACRO_REG_I_RESET_B_SET(val, 0x0); + val = PCIE_CLK_MACRO_REG_I_CUSTOMEROV_SET(val, 0x0); + phy_wr(pcie_base + SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR, + val); + phy_rd(pcie_base + SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR, + &val); + + xgene_phy_macro_cfg(pcie_base, sds_pcie_rd, sds_pcie_wr); + + phy_rd(pcie_base + SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR, + &val); + val = PCIE_CLK_MACRO_REG_I_RESET_B_SET(val, 0x1); + val = PCIE_CLK_MACRO_REG_I_CUSTOMEROV_SET(val, 0x0); + phy_wr(pcie_base + SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR, + val); + + mb(); + + calib_loop_count = 5; + do { + if (xgene_phy_sata45_macro_cal_rdy_chk(ctx) == 0) + break; + xgene_phy_sata45_macro_pdwn_force_vco(ctx); + } while (--calib_loop_count > 0); + if (calib_loop_count <= 0) + return -1; + phy_rd(pcie_base + SM_PCIE_X8_SDS_CSR_REGS_PCIE_CLK_MACRO_REG_ADDR, + &val); + dev_dbg(ctx->dev, "PLL CLKMACRO %sLOOKED...\n", + PCIE_CLK_MACRO_REG_O_PLL_LOCK_RD(val) ? "" : "UN"); + dev_dbg(ctx->dev, "PLL CLKMACRO %sREADY...\n", + PCIE_CLK_MACRO_REG_O_PLL_READY_RD(val) ? "" : "NOT "); + + return 0; +} + +static void xgene_phy_clk_rst_pre(struct xgene_ahci_phy_ctx *ctx) +{ + void *clkcsr_base = ctx->csr_base + SATA_CLK_OFFSET; + u32 val; + + dev_dbg(ctx->dev, "SATA%d controller clock enable\n", ctx->id); + /* disable all reset */ + phy_wr_flush(clkcsr_base + SATASRESETREG_ADDR, 0x00); + + /* Enable all resets */ + phy_wr_flush(clkcsr_base + SATASRESETREG_ADDR, 0xff); + + /* Disable all clks */ + phy_wr_flush(clkcsr_base + SATACLKENREG_ADDR, 0x00); + + /* Enable all clks */ + phy_wr_flush(clkcsr_base + SATACLKENREG_ADDR, 0xf9); + + /* Get out of reset for: + * SDS, CSR + * CORE & MEM are still reset + */ + phy_rd(clkcsr_base + SATASRESETREG_ADDR, &val); + if (SATA_MEM_RESET_RD(val) == 1) { + val &= ~(SATA_CSR_RESET_MASK | SATA_SDS_RESET_MASK); + val |= SATA_CORE_RESET_MASK | SATA_PCLK_RESET_MASK | + SATA_PMCLK_RESET_MASK | SATA_MEM_RESET_MASK; + } + phy_wr_flush(clkcsr_base + SATASRESETREG_ADDR, val); +} + +void xgene_ahci_serdes_reset_rxa_rxd(struct xgene_ahci_phy_ctx *ctx, int chan) +{ + void *csr_base = ctx->csr_base + SATA_SERDES_OFFSET; + + sds_clrbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + + chan * 0x200, CH0_RXTX_REG7_RESETB_RXD_MASK); + sds_clrbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + + chan * 0x200, CH0_RXTX_REG7_RESETB_RXA_MASK); + sds_setbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + + chan * 0x200, CH0_RXTX_REG7_RESETB_RXA_MASK); + sds_setbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + + chan * 0x200, CH0_RXTX_REG7_RESETB_RXD_MASK); +} + +static void xgene_phy_reset_pclk(struct xgene_ahci_phy_ctx *ctx) +{ + void *clkcsr_base = ctx->csr_base + SATA_CLK_OFFSET; + u32 val; + + phy_rd(clkcsr_base + SATASRESETREG_ADDR, &val); + val &= ~SATA_PCLK_RESET_MASK; + phy_wr_flush(clkcsr_base + SATASRESETREG_ADDR, val); +} + +static void xgene_phy_reset_sds_pmclk_core(struct xgene_ahci_phy_ctx *ctx) +{ + void *clkcsr_base = ctx->csr_base + SATA_CLK_OFFSET; + u32 val; + + phy_rd(clkcsr_base + SATASRESETREG_ADDR, &val); + val &= ~(SATA_CORE_RESET_MASK | + SATA_PMCLK_RESET_MASK | SATA_SDS_RESET_MASK); + phy_wr_flush(clkcsr_base + SATASRESETREG_ADDR, val); +} + +void xgene_ahci_serdes_force_lat_summer_cal(struct xgene_ahci_phy_ctx *ctx, + int channel) +{ + void *csr_base = ctx->csr_base + SATA_SERDES_OFFSET; + u32 os = channel * 0x200; + int i; + struct { + u32 reg; + u32 val; + } serdes_reg[] = { + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG38_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG39_ADDR, 0xff00}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG40_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG41_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG42_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG43_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG44_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG45_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG46_ADDR, 0xffff}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG47_ADDR, 0xfffc}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG48_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG49_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG50_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG51_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG52_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG53_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG54_ADDR, 0x0}, + {KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG55_ADDR, 0x0}, + {0, 0x0}, + }; + + /* SUMMER CALIBRATION CH0/CH1 */ + /* SUMMER calib toggle CHX */ + sds_toggle1to0(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, + CH0_RXTX_REG127_FORCE_SUM_CAL_START_MASK); + /* latch calib toggle CHX */ + sds_toggle1to0(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, + CH0_RXTX_REG127_FORCE_LAT_CAL_START_MASK); + /* CHX */ + sds_wr(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG28_ADDR + os, 0x7); + sds_wr(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG31_ADDR + os, + 0x7e00); + + sds_clrbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG4_ADDR + os, + CH0_RXTX_REG4_TX_LOOPBACK_BUF_EN_MASK); + sds_clrbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + os, + CH0_RXTX_REG7_LOOP_BACK_ENA_CTLE_MASK); + + /* RXTX_REG38-55 */ + for (i = 0; serdes_reg[i].reg != 0; i++) + sds_wr(csr_base, serdes_reg[i].reg + os, serdes_reg[i].val); +} + +void xgene_phy_force_lat_summer_cal_get_avg(struct xgene_ahci_phy_ctx *ctx, + int chan) +{ + void *csr_serdes_base = ctx->csr_base + SATA_SERDES_OFFSET; + u32 os = chan * 0x200; + + /* SUMMer calib toggle */ + sds_toggle1to0(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, + CH0_RXTX_REG127_FORCE_SUM_CAL_START_MASK); + sds_toggle1to0(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, + CH0_RXTX_REG127_FORCE_LAT_CAL_START_MASK); + sds_clrbits(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG4_ADDR + os, + CH0_RXTX_REG4_TX_LOOPBACK_BUF_EN_MASK); + sds_clrbits(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + os, + CH0_RXTX_REG7_LOOP_BACK_ENA_CTLE_MASK); + + /* removing loopback after calibration cycle */ + sds_clrbits(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG4_ADDR + os, + CH0_RXTX_REG4_TX_LOOPBACK_BUF_EN_MASK); + sds_clrbits(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + os, + CH0_RXTX_REG7_LOOP_BACK_ENA_CTLE_MASK); + /* RXTX_REG38 */ + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG38_ADDR + os, 0x0); +} + +int xgene_phy_get_avg(int accum, int samples) +{ + return (accum + (samples / 2)) / samples; +} + +static void xgene_phy_reset_rxd(struct xgene_ahci_phy_ctx *ctx, int channel) +{ + void *csr_base = ctx->csr_base + SATA_SERDES_OFFSET; + + sds_clrbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + + channel * 0x200, CH0_RXTX_REG7_RESETB_RXD_MASK); + sds_setbits(csr_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + + channel * 0x200, CH0_RXTX_REG7_RESETB_RXD_MASK); +} + +void xgene_ahci_serdes_gen_avg_val(struct xgene_ahci_phy_ctx *ctx, int channel) +{ + void *csr_serdes_base = ctx->csr_base + SATA_SERDES_OFFSET; + int avg_loop = 10; + int MAX_LOOP = 10; + int lat_do = 0, lat_xo = 0, lat_eo = 0, lat_so = 0; + int lat_de = 0, lat_xe = 0, lat_ee = 0, lat_se = 0; + int sum_cal = 0; + int lat_do_itr = 0, lat_xo_itr = 0, lat_eo_itr = 0, lat_so_itr = 0; + int lat_de_itr = 0, lat_xe_itr = 0, lat_ee_itr = 0, lat_se_itr = 0; + int sum_cal_itr = 0; + int fail_even = 0; + int fail_odd = 0; + u32 val; + u32 os; + + dev_dbg(ctx->dev, "Generating average calibration value for port %d\n", + channel); + + os = channel * 0x200; + + /* Enable RX Hi-Z termination enable */ + sds_setbits(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG12_ADDR + os, + CH0_RXTX_REG12_RX_DET_TERM_ENABLE_MASK); + /* Turn off DFE */ + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG28_ADDR + os, 0x0000); + /* DFE Presets to zero */ + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG31_ADDR + os, 0x0000); + + while (avg_loop > 0) { + xgene_ahci_serdes_force_lat_summer_cal(ctx, channel); + + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG21_ADDR + os, &val); + lat_do_itr = CH0_RXTX_REG21_DO_LATCH_CALOUT_RD(val); + lat_xo_itr = CH0_RXTX_REG21_XO_LATCH_CALOUT_RD(val); + fail_odd = CH0_RXTX_REG21_LATCH_CAL_FAIL_ODD_RD(val); + + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG22_ADDR + os, &val); + lat_eo_itr = CH0_RXTX_REG22_EO_LATCH_CALOUT_RD(val); + lat_so_itr = CH0_RXTX_REG22_SO_LATCH_CALOUT_RD(val); + fail_even = CH0_RXTX_REG22_LATCH_CAL_FAIL_EVEN_RD(val); + + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG23_ADDR + os, &val); + lat_de_itr = CH0_RXTX_REG23_DE_LATCH_CALOUT_RD(val); + lat_xe_itr = CH0_RXTX_REG23_XE_LATCH_CALOUT_RD(val); + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG24_ADDR + os, &val); + lat_ee_itr = CH0_RXTX_REG24_EE_LATCH_CALOUT_RD(val); + lat_se_itr = CH0_RXTX_REG24_SE_LATCH_CALOUT_RD(val); + + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG121_ADDR + os, &val); + sum_cal_itr = CH0_RXTX_REG121_SUMOS_CAL_CODE_RD(val); + + if ((fail_even == 0 || fail_even == 1) && + (fail_odd == 0 || fail_odd == 1)) { + lat_do += lat_do_itr; + lat_xo += lat_xo_itr; + lat_eo += lat_eo_itr; + lat_so += lat_so_itr; + lat_de += lat_de_itr; + lat_xe += lat_xe_itr; + lat_ee += lat_ee_itr; + lat_se += lat_se_itr; + sum_cal += sum_cal_itr; + + dev_dbg(ctx->dev, "Interation Value: %d\n", avg_loop); + dev_dbg(ctx->dev, "DO 0x%x XO 0x%x EO 0x%x SO 0x%x\n", + lat_do_itr, lat_xo_itr, lat_eo_itr, + lat_so_itr); + dev_dbg(ctx->dev, "DE 0x%x XE 0x%x EE 0x%x SE 0x%x\n", + lat_de_itr, lat_xe_itr, lat_ee_itr, + lat_se_itr); + dev_dbg(ctx->dev, "sum_cal 0x%x", sum_cal_itr); + avg_loop--; + } else { + dev_err(ctx->dev, "Interation Failed %d\n", avg_loop); + } + xgene_phy_reset_rxd(ctx, channel); + } + + /* Update with Average Value */ + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, &val); + val = CH0_RXTX_REG127_DO_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_do, MAX_LOOP)); + val = CH0_RXTX_REG127_XO_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_xo, MAX_LOOP)); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, val); + + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG128_ADDR + os, &val); + val = CH0_RXTX_REG128_EO_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_eo, MAX_LOOP)); + val = CH0_RXTX_REG128_SO_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_so, MAX_LOOP)); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG128_ADDR + os, val); + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG129_ADDR + os, &val); + val = CH0_RXTX_REG129_DE_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_de, MAX_LOOP)); + val = CH0_RXTX_REG129_XE_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_xe, MAX_LOOP)); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG129_ADDR + os, val); + + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG130_ADDR + os, &val); + val = CH0_RXTX_REG130_EE_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_ee, MAX_LOOP)); + val = CH0_RXTX_REG130_SE_LATCH_MANCAL_SET(val, + xgene_phy_get_avg(lat_se, MAX_LOOP)); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG130_ADDR + os, val); + /* Summer Calibration Value */ + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG14_ADDR + os, &val); + val = CH0_RXTX_REG14_CLTE_LATCAL_MAN_PROG_SET(val, + xgene_phy_get_avg(sum_cal, MAX_LOOP)); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG14_ADDR + os, val); + + dev_dbg(ctx->dev, "Average Value:\n"); + dev_dbg(ctx->dev, "DO 0x%x XO 0x%x EO 0x%x SO 0x%x\n", + xgene_phy_get_avg(lat_do, MAX_LOOP), + xgene_phy_get_avg(lat_xo, MAX_LOOP), + xgene_phy_get_avg(lat_eo, MAX_LOOP), + xgene_phy_get_avg(lat_so, MAX_LOOP)); + dev_dbg(ctx->dev, "DE 0x%x XE 0x%x EE 0x%x SE 0x%x\n", + xgene_phy_get_avg(lat_de, MAX_LOOP), + xgene_phy_get_avg(lat_xe, MAX_LOOP), + xgene_phy_get_avg(lat_ee, MAX_LOOP), + xgene_phy_get_avg(lat_se, MAX_LOOP)); + dev_dbg(ctx->dev, "sum_cal 0x%x\n", + xgene_phy_get_avg(sum_cal, MAX_LOOP)); + + /* Manual Summer Calibration */ + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG14_ADDR + os, &val); + val = CH0_RXTX_REG14_CTLE_LATCAL_MAN_ENA_SET(val, 0x1); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG14_ADDR + os, val); + + dev_dbg(ctx->dev, "Manual Summer calibration enabled\n"); + + /* Manual Latch Calibration */ + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, &val); + val = CH0_RXTX_REG127_LATCH_MAN_CAL_ENA_SET(val, 0x1); + dev_dbg(ctx->dev, "Manual Latch Calibration Enabled\n"); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, val); + + /* Disable RX Hi-Z termination enable */ + sds_rd(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG12_ADDR + os, &val); + val = CH0_RXTX_REG12_RX_DET_TERM_ENABLE_SET(val, 0); + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG12_ADDR + os, val); + + /* Turn on DFE */ + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG28_ADDR + os, 0x0007); + + /* DFE Presets to 0 */ + sds_wr(csr_serdes_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG31_ADDR + os, 0x7e00); +} + +static int xgene_phy_host_sata_select(struct xgene_ahci_phy_ctx *ctx) +{ + void *muxcsr_base = ctx->csr_base + SATA_ETH_MUX_OFFSET; + u32 val; + + dev_dbg(ctx->dev, "SATA%d select SATA MUX\n", ctx->id); + phy_rd(muxcsr_base + SATA_ENET_CONFIG_REG_ADDR, &val); + val &= ~CFG_SATA_ENET_SELECT_MASK; + phy_wr_flush(muxcsr_base + SATA_ENET_CONFIG_REG_ADDR, val); + return val & CFG_SATA_ENET_SELECT_MASK ? -1 : 0; +} + +static void xgene_phy_validation_CMU_cfg(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_base = ctx->csr_base + SATA_SERDES_OFFSET; + u32 val; + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, &val); + val = CMU_REG0_CAL_COUNT_RESOL_SET(val, 0x4); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, &val); + val = CMU_REG1_PLL_CP_SET(val, 0x1); + val = CMU_REG1_PLL_CP_SEL_SET(val, 0x5); + val = CMU_REG1_PLL_MANUALCAL_SET(val, 0x0); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG2_ADDR, &val); + val = CMU_REG2_PLL_LFRES_SET(val, 0xa); + val = CMU_REG2_PLL_FBDIV_SET(val, FBDIV_VAL); + val = CMU_REG2_PLL_REFDIV_SET(val, REFDIV_VAL); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG2_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG3_ADDR, &val); + val = CMU_REG3_VCOVARSEL_SET(val, 0xF); + val = CMU_REG3_VCO_MOMSEL_INIT_SET(val, 0x15); + val = CMU_REG3_VCO_MANMOMSEL_SET(val, 0x15); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG3_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG26_ADDR, &val); + val = CMU_REG26_FORCE_PLL_LOCK_SET(val, 0x0); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG26_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG5_ADDR, &val); + val = CMU_REG5_PLL_LFSMCAP_SET(val, 0x3); + val = CMU_REG5_PLL_LFCAP_SET(val, 0x3); + val = CMU_REG5_PLL_LOCK_RESOLUTION_SET(val, 0x4); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG5_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG6_ADDR, &val); + val = CMU_REG6_PLL_VREGTRIM_SET(val, 0x0); + if (enable_manual_cal) + val = CMU_REG6_MAN_PVT_CAL_SET(val, 0x1); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG6_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG9_ADDR, &val); + val = CMU_REG9_TX_WORD_MODE_CH1_SET(val, 0x3); + val = CMU_REG9_TX_WORD_MODE_CH0_SET(val, 0x3); + val = CMU_REG9_PLL_POST_DIVBY2_SET(val, 0x1); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG9_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG16_ADDR, &val); + val = CMU_REG16_CALIBRATION_DONE_OVERRIDE_SET(val, 0x1); + val = CMU_REG16_BYPASS_PLL_LOCK_SET(val, 0x1); + val = CMU_REG16_VCOCAL_WAIT_BTW_CODE_SET(val, 0x4); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG16_ADDR, val); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG30_ADDR, &val); + val = CMU_REG30_PCIE_MODE_SET(val, 0x0); + val = CMU_REG30_LOCK_COUNT_SET(val, 0x3); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG30_ADDR, val); + + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG31_ADDR, 0xF); + + sds_rd(csr_base, KC_SERDES_CMU_REGS_CMU_REG32_ADDR, &val); + val = CMU_REG32_PVT_CAL_WAIT_SEL_SET(val, 0x3); + val = CMU_REG32_IREF_ADJ_SET(val, 0x3); + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG32_ADDR, val); + + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG34_ADDR, 0x8d27); + + sds_wr(csr_base, KC_SERDES_CMU_REGS_CMU_REG37_ADDR, 0xF00F); +} + +static void xgene_phy_validation_rxtx_cfg(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_base = ctx->csr_base + SATA_SERDES_OFFSET; + u32 val; + u32 reg; + int i; + int chan; + + for (chan = 0; chan < 2; chan++) { + u32 os = chan * 0x200; + + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG147_ADDR + os, 0x6); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG0_ADDR + os, &val); + val = CH0_RXTX_REG0_CTLE_EQ_HR_SET(val, 0x10); + val = CH0_RXTX_REG0_CTLE_EQ_QR_SET(val, 0x10); + val = CH0_RXTX_REG0_CTLE_EQ_FR_SET(val, 0x10); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG0_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG1_ADDR + os, &val); + val = CH0_RXTX_REG1_RXACVCM_SET(val, 0x7); + val = CH0_RXTX_REG1_CTLE_EQ_SET(val, + ctx->ctle_eq[chan][ctx->speed[chan]]); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG1_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG2_ADDR + os, &val); + val = CH0_RXTX_REG2_VTT_ENA_SET(val, 0x1); + val = CH0_RXTX_REG2_VTT_SEL_SET(val, 0x1); + val = CH0_RXTX_REG2_TX_FIFO_ENA_SET(val, 0x1); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG2_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG4_ADDR + os, &val); + val = CH0_RXTX_REG4_TX_WORD_MODE_SET(val, 0x3); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG4_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG5_ADDR + os, &val); + val = CH0_RXTX_REG5_TX_CN1_SET(val, 0x0); + val = CH0_RXTX_REG5_TX_CP1_SET(val, 0xF); + val = CH0_RXTX_REG5_TX_CN2_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG5_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG6_ADDR + os, &val); + val = CH0_RXTX_REG6_TXAMP_CNTL_SET(val, 0xf); + val = CH0_RXTX_REG6_TXAMP_ENA_SET(val, 0x1); + val = CH0_RXTX_REG6_TX_IDLE_SET(val, 0x0); + val = CH0_RXTX_REG6_RX_BIST_RESYNC_SET(val, 0x0); + val = CH0_RXTX_REG6_RX_BIST_ERRCNT_RD_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG6_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + os, &val); + val = CH0_RXTX_REG7_BIST_ENA_RX_SET(val, 0x0); + val = CH0_RXTX_REG7_RX_WORD_MODE_SET(val, 0x3); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG7_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG8_ADDR + os, &val); + val = CH0_RXTX_REG8_CDR_LOOP_ENA_SET(val, 0x1); + val = CH0_RXTX_REG8_CDR_BYPASS_RXLOS_SET(val, 0x0); + val = CH0_RXTX_REG8_SSC_ENABLE_SET(val, 0x1); + val = CH0_RXTX_REG8_SD_DISABLE_SET(val, 0x0); + val = CH0_RXTX_REG8_SD_VREF_SET(val, 0x4); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG8_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG11_ADDR + os, &val); + val = CH0_RXTX_REG11_PHASE_ADJUST_LIMIT_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG11_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG12_ADDR + os, &val); + val = CH0_RXTX_REG12_LATCH_OFF_ENA_SET(val, 0x1); + val = CH0_RXTX_REG12_SUMOS_ENABLE_SET(val, 0x0); + val = CH0_RXTX_REG12_RX_DET_TERM_ENABLE_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG12_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG26_ADDR + os, &val); + val = CH0_RXTX_REG26_PERIOD_ERROR_LATCH_SET(val, 0x0); + val = CH0_RXTX_REG26_BLWC_ENA_SET(val, 0x1); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG26_ADDR + os, val); + + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG28_ADDR + os, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG31_ADDR + os, 0x0); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG61_ADDR + os, &val); + val = CH0_RXTX_REG61_SPD_SEL_CDR_SET(val, + ctx->spd_sel_cdr[chan][ctx->speed[chan]]); + val = CH0_RXTX_REG61_ISCAN_INBERT_SET(val, 0x1); + val = CH0_RXTX_REG61_LOADFREQ_SHIFT_SET(val, 0x0); + val = CH0_RXTX_REG61_EYE_COUNT_WIDTH_SEL_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG61_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG62_ADDR + os, &val); + val = CH0_RXTX_REG62_PERIOD_H1_QLATCH_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG62_ADDR + os, val); + + for (i = 0; i < 9; i++) { + reg = KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG81_ADDR + + os + i * 2; + sds_rd(csr_base, reg, &val); + val = CH0_RXTX_REG89_MU_TH7_SET(val, 0xe); + val = CH0_RXTX_REG89_MU_TH8_SET(val, 0xe); + val = CH0_RXTX_REG89_MU_TH9_SET(val, 0xe); + sds_wr(csr_base, reg, val); + } + + for (i = 0; i < 3; i++) { + reg = KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG96_ADDR + + os + i * 2; + sds_rd(csr_base, reg, &val); + val = CH0_RXTX_REG96_MU_FREQ1_SET(val, 0x10); + val = CH0_RXTX_REG96_MU_FREQ2_SET(val, 0x10); + val = CH0_RXTX_REG96_MU_FREQ3_SET(val, 0x10); + sds_wr(csr_base, reg, val); + } + + for (i = 0; i < 3; i++) { + reg = KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG99_ADDR + + os + i * 2; + sds_rd(csr_base, reg, &val); + val = CH0_RXTX_REG99_MU_PHASE1_SET(val, 0x7); + val = CH0_RXTX_REG99_MU_PHASE2_SET(val, 0x7); + val = CH0_RXTX_REG99_MU_PHASE3_SET(val, 0x7); + sds_wr(csr_base, reg, val); + } + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG102_ADDR + os, &val); + val = CH0_RXTX_REG102_FREQLOOP_LIMIT_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG102_ADDR + os, val); + + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG114_ADDR + os, + 0xffe0); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG125_ADDR + os, &val); + val = CH0_RXTX_REG125_SIGN_PQ_SET(val, + ctx->pq_sign[chan][ctx->speed[chan]]); + val = CH0_RXTX_REG125_PQ_REG_SET(val, + ctx->pq[chan][ctx->speed[chan]]); + val = CH0_RXTX_REG125_PHZ_MANUAL_SET(val, 0x1); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG125_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, &val); + val = CH0_RXTX_REG127_LATCH_MAN_CAL_ENA_SET(val, 0x0); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG127_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG128_ADDR + os, &val); + val = CH0_RXTX_REG128_LATCH_CAL_WAIT_SEL_SET(val, 0x3); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG128_ADDR + os, val); + + sds_rd(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG145_ADDR + os, &val); + val = CH0_RXTX_REG145_RXDFE_CONFIG_SET(val, 0x3); + val = CH0_RXTX_REG145_TX_IDLE_SATA_SET(val, 0x0); + val = CH0_RXTX_REG145_RXES_ENA_SET(val, 0x1); + val = CH0_RXTX_REG145_RXVWES_LATENA_SET(val, 0x1); + sds_wr(csr_base, + KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG145_ADDR + os, val); + + for (i = 0; i < 4; i++) { + reg = KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG148_ADDR + + os + i * 2; + sds_wr(csr_base, reg, 0xFFFF); + } + } +} + +static int xgene_phy_cal_rdy_chk(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_serdes = ctx->csr_base + SATA_SERDES_OFFSET; + int loopcount; + u32 val; + + /* 4. relasase serdes main reset */ + phy_wr_flush(csr_serdes + SATA_ENET_SDS_RST_CTL_ADDR, 0x000000DF); + + if (!enable_manual_cal) + goto skip_manual_cal; + + /* TERM CALIBRATION KC_SERDES_CMU_REGS_CMU_REG17__ADDR */ + /* TERM calibration for channel 0 */ + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, &val); + val = CMU_REG17_PVT_CODE_R2A_SET(val, 0x12); + val = CMU_REG17_RESERVED_7_SET(val, 0x0); + sds_wr(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, val); + sds_toggle1to0(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, + CMU_REG17_PVT_TERM_MAN_ENA_MASK); + /* DOWN CALIBRATION for channel zero */ + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, &val); + val = CMU_REG17_PVT_CODE_R2A_SET(val, 0x29); + val = CMU_REG17_RESERVED_7_SET(val, 0x0); + sds_wr(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, val); + sds_toggle1to0(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG16_ADDR, + CMU_REG16_PVT_DN_MAN_ENA_MASK); + /* UP CALIBRATION for channel 0 */ + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, &val); + val = CMU_REG17_PVT_CODE_R2A_SET(val, 0x28); + val = CMU_REG17_RESERVED_7_SET(val, 0x0); + sds_wr(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG17_ADDR, val); + sds_toggle1to0(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG16_ADDR, + CMU_REG16_PVT_UP_MAN_ENA_MASK); + +skip_manual_cal: + /* Check for 1 ms */ + loopcount = 10; + do { + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG7_ADDR, &val); + if (CMU_REG7_PLL_CALIB_DONE_RD(val)) + break; + udelay(100); /* No need to poll more than 100 us */ + } while (--loopcount > 0); + + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG7_ADDR, &val); + if (CMU_REG7_PLL_CALIB_DONE_RD(val) == 1) + dev_dbg(ctx->dev, "SATA%d SERDES PLL calibration done\n", + ctx->id); + if (CMU_REG7_VCO_CAL_FAIL_RD(val) == 0x0) { + dev_dbg(ctx->dev, "SERDES CALIB successful\n"); + } else { + /* Assert SDS reset and recall calib function */ + dev_err(ctx->dev, "SERDES CALIB FAILED due to VCO FAIL\n"); + return -1; + } + + dev_dbg(ctx->dev, "SATA%d Checking TX ready\n", ctx->id); + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG15_ADDR, &val); + dev_dbg(ctx->dev, "SERDES TX is %sready\n", val & 0x0300 ? "" : "NOT "); + return 0; +} + +static void xgene_phy_pdwn_force_vco(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_serdes = ctx->csr_base + SATA_SERDES_OFFSET; + u32 val; + + dev_dbg(ctx->dev, "serdes power down VCO\n"); + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG16_ADDR, &val); + val = CMU_REG16_VCOCAL_WAIT_BTW_CODE_SET(val, 0x5); + sds_wr(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG16_ADDR, val); + + sds_toggle1to0(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, + CMU_REG0_PDOWN_MASK); + sds_toggle1to0(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG32_ADDR, + CMU_REG32_FORCE_VCOCAL_START_MASK); +} + +static void xgene_phy_tx_ssc_enable(struct xgene_ahci_phy_ctx *ctx) +{ + void *csr_serdes = ctx->csr_base + SATA_SERDES_OFFSET; + u32 val; + + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG35_ADDR, &val); + val = CMU_REG35_PLL_SSC_MOD_SET(val, 0x5f); + sds_wr(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG35_ADDR, val); + + sds_rd(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG36_ADDR, &val); + val = CMU_REG36_PLL_SSC_VSTEP_SET(val, 33); /* Gen3 == 33 */ + val = CMU_REG36_PLL_SSC_EN_SET(val, 1); + val = CMU_REG36_PLL_SSC_DSMSEL_SET(val, 1); + sds_wr(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG36_ADDR, val); + + sds_clrbits(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG5_ADDR, + CMU_REG5_PLL_RESETB_MASK); + sds_setbits(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG5_ADDR, + CMU_REG5_PLL_RESETB_MASK); + sds_toggle1to0(csr_serdes, KC_SERDES_CMU_REGS_CMU_REG32_ADDR, + CMU_REG32_FORCE_VCOCAL_START_MASK); +} + +static int xgene_phy_init(struct xgene_ahci_phy_ctx *ctx, int clk_type, + int ssc_enable) +{ + void *csr_base = ctx->csr_base; + void *csr_serdes_base = csr_base + SATA_SERDES_OFFSET; + void *clkcsr_base = ctx->csr_base + SATA_CLK_OFFSET; + u32 val; + int calib_loop_count; + int rc; + + dev_dbg(ctx->dev, "SATA%d PHY init clk type %d\n", + ctx->id, clk_type); + + if (ctx->id == 2 && (clk_type == SATA_CLK_INT_DIFF || + clk_type == SATA_CLK_INT_SING)) + xgene_phy_sata45_macro_cfg(ctx); + + /* Select SATA mux for SATA port 0 - 3 which shared with SGMII ETH */ + if (ctx->id < 2) { + if (xgene_phy_host_sata_select(ctx) != 0) { + dev_err(ctx->dev, "SATA%d can not select SATA MUX\n", + ctx->id); + return -1; + } + } + + /* Clock reset must before after select the MUX */ + dev_dbg(ctx->dev, "SATA%d enable clock\n", ctx->id); + xgene_phy_clk_rst_pre(ctx); + + if (ctx->id != 2 && (clk_type == SATA_CLK_INT_DIFF || + clk_type == SATA_CLK_INT_SING)) + xgene_phy_sata_macro_cfg(ctx); + + phy_wr(csr_serdes_base + SATA_ENET_SDS_RST_CTL_ADDR, 0x00); + dev_dbg(ctx->dev, "SATA%d reset Serdes\n", ctx->id); + /* 1. Serdes main reset and Controller also under reset */ + phy_wr(csr_serdes_base + SATA_ENET_SDS_RST_CTL_ADDR, 0x00000020); + + /* Release all resets except main reset */ + phy_wr(csr_serdes_base + SATA_ENET_SDS_RST_CTL_ADDR, 0x000000DE); + + phy_rd(csr_serdes_base + SATA_ENET_SDS_CTL1_ADDR, &val); + val = CFG_I_SPD_SEL_CDR_OVR1_SET(val, DEFAULT_SPD_SEL); + phy_wr(csr_serdes_base + SATA_ENET_SDS_CTL1_ADDR, val); + + dev_dbg(ctx->dev, "SATA%d Setting the customer pin mode\n", ctx->id); + /* + * Clear customer pins mode[13:0] = 0 + * Set customer pins mode[14] = 1 + */ + phy_rd(csr_serdes_base + SATA_ENET_SDS_CTL0_ADDR, &val); + val = REGSPEC_CFG_I_CUSTOMER_PIN_MODE0_SET(val, 0x4421); + phy_wr(csr_serdes_base + SATA_ENET_SDS_CTL0_ADDR, val); + + /* CMU_REG12 tx ready delay 0x2 */ + sds_rd(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG12_ADDR, &val); + val = CMU_REG12_STATE_DELAY9_SET(val, 0x1); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG12_ADDR, val); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG13_ADDR, 0xF222); + sds_wr(csr_serdes_base, + KC_SERDES_CMU_REGS_CMU_REG14_ADDR, 0x2225); + if (clk_type == SATA_CLK_EXT_DIFF) { + sds_rd(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, &val); + val = CMU_REG0_PLL_REF_SEL_SET(val, 0x0); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, val); + sds_rd(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, &val); + val = CMU_REG1_REFCLK_CMOS_SEL_SET(val, 0x0); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, val); + dev_dbg(ctx->dev, "SATA%d Setting REFCLK EXTERNAL DIFF CML0\n", + ctx->id); + } else if (clk_type == SATA_CLK_INT_DIFF) { + sds_rd(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, &val); + val = CMU_REG0_PLL_REF_SEL_SET(val, 0x1); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG0_ADDR, val); + sds_rd(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, &val); + val = CMU_REG1_REFCLK_CMOS_SEL_SET(val, 0x1); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, val); + + dev_dbg(ctx->dev, "SATA%d Setting REFCLK INTERNAL DIFF CML1\n", + ctx->id); + } else if (clk_type == SATA_CLK_INT_SING) { + sds_rd(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, &val); + val = CMU_REG1_REFCLK_CMOS_SEL_SET(val, 0x1); + sds_wr(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, val); + dev_dbg(ctx->dev, "SATA%d Setting REFCLK INTERNAL CMOS\n", + ctx->id); + } + /* SATA4/5 no support for CML1 */ + if (ctx->id == 2 && clk_type == SATA_CLK_INT_DIFF) + sds_setbits(csr_serdes_base, KC_SERDES_CMU_REGS_CMU_REG1_ADDR, + CMU_REG1_REFCLK_CMOS_SEL_MASK); + + /* 2. Program serdes registers */ + xgene_phy_validation_CMU_cfg(ctx); + if (ssc_enable) + xgene_phy_tx_ssc_enable(ctx); + xgene_phy_validation_rxtx_cfg(ctx); + + phy_rd(csr_serdes_base + SATA_ENET_SDS_PCS_CTL0_ADDR, &val); + val = REGSPEC_CFG_I_RX_WORDMODE0_SET(val, 0x3); + val = REGSPEC_CFG_I_TX_WORDMODE0_SET(val, 0x3); + phy_wr(csr_serdes_base + SATA_ENET_SDS_PCS_CTL0_ADDR, val); + + mb(); + + calib_loop_count = 10; + do { + rc = xgene_phy_cal_rdy_chk(ctx); + if (rc == 0) + break; + xgene_phy_pdwn_force_vco(ctx); + } while (++calib_loop_count > 0); + if (calib_loop_count <= 0) + return -1; + + phy_wr_flush(clkcsr_base + SATACLKENREG_ADDR, 0xff); + + xgene_phy_reset_sds_pmclk_core(ctx); + xgene_phy_reset_pclk(ctx); + + dev_dbg(ctx->dev, "SATA%d initialized PHY\n", ctx->id); + return 0; +} + +void xgene_ahci_serdes_force_gen(struct xgene_ahci_phy_ctx *ctx, int chan, + int gen) +{ + void *csr_base = ctx->csr_base; + void *csr_serdes = csr_base + SATA_SERDES_OFFSET; + u32 val; + + phy_rd(csr_serdes + SATA_ENET_SDS_CTL1_ADDR, &val); + val = CFG_I_SPD_SEL_CDR_OVR1_SET(val, gen); + phy_wr(csr_serdes + SATA_ENET_SDS_CTL1_ADDR, val); + + sds_rd(csr_serdes, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG0_ADDR + + chan * 0x200, &val); + val = CH0_RXTX_REG0_CTLE_EQ_HR_SET(val, 0x1c); + val = CH0_RXTX_REG0_CTLE_EQ_QR_SET(val, 0x1c); + val = CH0_RXTX_REG0_CTLE_EQ_FR_SET(val, 0x1c); + sds_wr(csr_serdes, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG0_ADDR + + chan * 0x200, val); +} + +void xgene_ahci_phy_set_spd(struct phy *phy, int chan, int gen) +{ + struct xgene_ahci_phy_ctx *ctx = phy_get_drvdata(phy); + + if (gen == 2) { + ctx->speed[chan] = 1; + xgene_ahci_serdes_force_gen(ctx, chan, SPD_SEL_GEN2); + } else if (gen == 1) { + ctx->speed[chan] = 0; + xgene_ahci_serdes_force_gen(ctx, chan, SPD_SEL_GEN1); + } else { + ctx->speed[chan] = 2; + xgene_ahci_serdes_force_gen(ctx, chan, SPD_SEL_GEN3); + } +} +EXPORT_SYMBOL_GPL(xgene_ahci_phy_set_spd); + +void xgene_ahci_serdes_set_pq(struct xgene_ahci_phy_ctx *ctx, int chan, + int data) +{ + void *csr_base = ctx->csr_base; + void *csr_serdes_base = csr_base + SATA_SERDES_OFFSET; + u32 val; + + sds_rd(csr_serdes_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG125_ADDR + + chan * 0x200, &val); + val = CH0_RXTX_REG125_SIGN_PQ_SET(val, data); + if (data) + val = CH0_RXTX_REG125_PQ_REG_SET(val, 3); + else + val = CH0_RXTX_REG125_PQ_REG_SET(val, + ctx->pq[chan][ctx->speed[chan]]); + sds_wr(csr_serdes_base, KC_SERDES_X2_RXTX_REGS_CH0_RXTX_REG125_ADDR + + chan * 0x200, val); +} + +void xgene_ahci_phy_set_pq(struct phy *phy, int chan, int data) +{ + struct xgene_ahci_phy_ctx *ctx = phy_get_drvdata(phy); + + xgene_ahci_serdes_set_pq(ctx, chan, data); +} +EXPORT_SYMBOL_GPL(xgene_ahci_phy_set_pq); + +static int xgene_ahci_phy_hw_init(struct phy *phy) +{ + struct xgene_ahci_phy_ctx *ctx = phy_get_drvdata(phy); + int rc; + + rc = xgene_phy_init(ctx, SATA_CLK_EXT_DIFF, 0 /* SSC */); + if (rc != 0) { + dev_err(ctx->dev, "PHY%d initialize failed %d\n", ctx->id, rc); + return rc; + } + + xgene_ahci_serdes_gen_avg_val(ctx, 1); + xgene_ahci_serdes_gen_avg_val(ctx, 0); + + return 0; +} + +static int xgene_ahci_phy_power_on(struct phy *phy) +{ + return 0; +} + +static int xgene_ahci_phy_power_off(struct phy *phy) +{ + return 0; +} + +static const struct phy_ops xgene_phy_ops = { + .init = xgene_ahci_phy_hw_init, + .power_on = xgene_ahci_phy_power_on, + .power_off = xgene_ahci_phy_power_off, + .owner = THIS_MODULE, +}; + +static struct phy *xgene_ahci_phy_xlate(struct device *dev, + struct of_phandle_args *args) +{ + struct xgene_ahci_phy_ctx *ctx = dev_get_drvdata(dev); + + return ctx->phy; +} + +static void xgene_ahci_phy_get_param(struct platform_device *pdev, + const char *name, u32 *buffer, u32 default_val) +{ + int rc; + rc = of_property_read_u32_array(pdev->dev.of_node, name, buffer, 3); + if (rc) { + buffer[0] = default_val; + buffer[1] = default_val; + buffer[2] = default_val; + } +} + +static int xgene_ahci_phy_probe(struct platform_device *pdev) +{ + struct phy_provider *phy_provider; + struct xgene_ahci_phy_ctx *ctx; + struct resource *res; + char name[80]; + int rc; + + if (!of_device_is_available(pdev->dev.of_node)) + return -ENODEV; + + ctx = devm_kzalloc(&pdev->dev, sizeof(*ctx), GFP_KERNEL); + if (!ctx) { + dev_err(&pdev->dev, "can't allocate PHY context\n"); + return -ENOMEM; + } + ctx->dev = &pdev->dev; + + rc = of_property_read_u32(pdev->dev.of_node, "id", &ctx->id); + if (rc) { + dev_err(&pdev->dev, "no PHY ID resource\n"); + goto error; + } + + res = platform_get_resource(pdev, IORESOURCE_MEM, 0); + if (!res) { + dev_err(&pdev->dev, "no PHY resource address\n"); + goto error; + } + ctx->csr_phys = res->start; + ctx->csr_base = devm_ioremap(&pdev->dev, res->start, + resource_size(res)); + if (!ctx->csr_base) { + dev_err(&pdev->dev, "can't map PHY resource\n"); + rc = -ENOMEM; + goto error; + } + + if (ctx->id == 2) { + /* For 3rd controller, we must also program another resource */ + res = platform_get_resource(pdev, IORESOURCE_MEM, 1); + if (!res) { + dev_err(&pdev->dev, + "no SATA/PCIE PHY resource address\n"); + goto error; + } + ctx->pcie_base = devm_ioremap(&pdev->dev, res->start, + resource_size(res)); + if (!ctx->pcie_base) { + dev_err(&pdev->dev, + "can't map SATA/PCIe PHY resource\n"); + rc = -ENOMEM; + goto error; + } + } + + /* Load override paramaters */ + xgene_ahci_phy_get_param(pdev, "CTLE0", ctx->ctle_eq[0], + DEFAULT_CTLE_EQ); + xgene_ahci_phy_get_param(pdev, "CTLE1", ctx->ctle_eq[1], + DEFAULT_CTLE_EQ); + xgene_ahci_phy_get_param(pdev, "PQ0", ctx->pq[0], DEFAULT_PQ); + xgene_ahci_phy_get_param(pdev, "PQ1", ctx->pq[1], DEFAULT_PQ); + xgene_ahci_phy_get_param(pdev, "PQS0", ctx->pq_sign[0], + DEFAULT_PQ_SIGN); + xgene_ahci_phy_get_param(pdev, "PQS1", ctx->pq_sign[1], + DEFAULT_PQ_SIGN); + xgene_ahci_phy_get_param(pdev, "SPD0", ctx->spd_sel_cdr[0], + DEFAULT_SPD_SEL); + xgene_ahci_phy_get_param(pdev, "SPD1", ctx->spd_sel_cdr[1], + DEFAULT_SPD_SEL); + ctx->speed[0] = 2; /* Default to Gen3 */ + ctx->speed[1] = 2; /* Default to Gen3 */ + + ctx->dev = &pdev->dev; + platform_set_drvdata(pdev, ctx); + + phy_provider = devm_of_phy_provider_register(ctx->dev, + xgene_ahci_phy_xlate); + if (IS_ERR(phy_provider)) { + rc = PTR_ERR(phy_provider); + goto error; + } + + sprintf(name, "xgene-ahci-phy%d", ctx->id); + ctx->phy = devm_phy_create(ctx->dev, ctx->id, &xgene_phy_ops, name); + if (IS_ERR(ctx->phy)) { + dev_dbg(&pdev->dev, "Failed to create PHY\n"); + return PTR_ERR(ctx->phy); + } + + phy_set_drvdata(ctx->phy, ctx); + + dev_info(&pdev->dev, "X-Gene PHY @0x%llX registered\n", ctx->csr_phys); + return 0; + +error: + return rc; +} + +static int xgene_ahci_phy_remove(struct platform_device *pdev) +{ + return 0; +} + +static const struct of_device_id xgene_ahci_phy_of_match[] = { + {.compatible = "apm,xgene-ahci-phy",}, + {}, +}; +MODULE_DEVICE_TABLE(of, xgene_ahci_phy_of_match); + +static struct platform_driver xgene_ahci_phy_driver = { + .probe = xgene_ahci_phy_probe, + .remove = xgene_ahci_phy_remove, + .driver = { + .name = "xgene-ahci-phy", + .owner = THIS_MODULE, + .of_match_table = xgene_ahci_phy_of_match, + }, +}; + +static int __init xgene_ahci_phy_init(void) +{ + return platform_driver_register(&xgene_ahci_phy_driver); +} +subsys_initcall(xgene_ahci_phy_init); + +static void __exit xgene_ahci_phy_exit(void) +{ + platform_driver_unregister(&xgene_ahci_phy_driver); +} +module_exit(xgene_ahci_phy_exit); + +MODULE_DESCRIPTION("APM X-Gene AHCI PHY driver"); +MODULE_AUTHOR("Loc Ho "); +MODULE_LICENSE("GPL"); +MODULE_VERSION("0.1");