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Thu, 15 Feb 2024 13:49:08 GMT Received: from pps.reinject (localhost [127.0.0.1]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 3w627mb928-1 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:08 +0000 Received: from APBLRPPMTA01.qualcomm.com (APBLRPPMTA01.qualcomm.com [127.0.0.1]) by pps.reinject (8.17.1.5/8.17.1.5) with ESMTP id 41FDn8qS009928; Thu, 15 Feb 2024 13:49:08 GMT Received: from hu-devc-blr-u22-a.qualcomm.com (hu-mdalam-blr.qualcomm.com [10.131.36.157]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 41FDn8Oi009924 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:08 +0000 Received: by hu-devc-blr-u22-a.qualcomm.com (Postfix, from userid 466583) id 5FE9841355; Thu, 15 Feb 2024 19:19:07 +0530 (+0530) From: Md Sadre Alam To: andersson@kernel.org, konrad.dybcio@linaro.org, broonie@kernel.org, robh@kernel.org, krzysztof.kozlowski+dt@linaro.org, conor+dt@kernel.org, miquel.raynal@bootlin.com, richard@nod.at, vigneshr@ti.com, manivannan.sadhasivam@linaro.org, linux-arm-msm@vger.kernel.org, linux-spi@vger.kernel.org, devicetree@vger.kernel.org, linux-kernel@vger.kernel.org, linux-mtd@lists.infradead.org Cc: quic_srichara@quicinc.com, quic_varada@quicinc.com, quic_mdalam@quicinc.com Subject: [PATCH 1/5] spi: dt-bindings: add binding doc for spi-qpic-snand Date: Thu, 15 Feb 2024 19:18:52 +0530 Message-Id: <20240215134856.1313239-2-quic_mdalam@quicinc.com> X-Mailer: git-send-email 2.34.1 In-Reply-To: <20240215134856.1313239-1-quic_mdalam@quicinc.com> References: <20240215134856.1313239-1-quic_mdalam@quicinc.com> Precedence: bulk X-Mailing-List: linux-spi@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 X-QCInternal: smtphost X-QCInternal: smtphost X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-GUID: Ti_jmLABzhtVbA11tSudFgP-MT9nZNGV X-Proofpoint-ORIG-GUID: Ti_jmLABzhtVbA11tSudFgP-MT9nZNGV X-Proofpoint-Virus-Version: vendor=baseguard engine=ICAP:2.0.272,Aquarius:18.0.1011,Hydra:6.0.619,FMLib:17.11.176.26 definitions=2024-02-15_12,2024-02-14_01,2023-05-22_02 X-Proofpoint-Spam-Details: rule=outbound_notspam policy=outbound score=0 impostorscore=0 lowpriorityscore=0 mlxscore=0 suspectscore=0 spamscore=0 priorityscore=1501 malwarescore=0 adultscore=0 bulkscore=0 mlxlogscore=999 clxscore=1011 phishscore=0 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.19.0-2401310000 definitions=main-2402150111 Add device-tree binding documentation for QCOM QPIC-SNAND-NAND Flash Interface. Co-developed-by: Sricharan Ramabadhran Signed-off-by: Sricharan Ramabadhran Co-developed-by: Varadarajan Narayanan Signed-off-by: Varadarajan Narayanan Signed-off-by: Md Sadre Alam --- .../bindings/spi/qcom,spi-qpic-snand.yaml | 82 +++++++++++++++++++ 1 file changed, 82 insertions(+) create mode 100644 Documentation/devicetree/bindings/spi/qcom,spi-qpic-snand.yaml diff --git a/Documentation/devicetree/bindings/spi/qcom,spi-qpic-snand.yaml b/Documentation/devicetree/bindings/spi/qcom,spi-qpic-snand.yaml new file mode 100644 index 000000000000..fa7484ce1319 --- /dev/null +++ b/Documentation/devicetree/bindings/spi/qcom,spi-qpic-snand.yaml @@ -0,0 +1,82 @@ +# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) +%YAML 1.2 +--- +$id: http://devicetree.org/schemas/spi/qcom,spi-qpic-snand.yaml# +$schema: http://devicetree.org/meta-schemas/core.yaml# + +title: Qualcomm QPIC NAND controller + +maintainers: + - Md sadre Alam + +properties: + compatible: + enum: + - qcom,ipq9574-snand + + reg: + maxItems: 1 + + clocks: + minItems: 2 + maxItems: 3 + + clock-names: + minItems: 2 + maxItems: 3 + +allOf: + - $ref: /schemas/spi/spi-controller.yaml# + - if: + properties: + compatible: + contains: + enum: + - qcom,ipq9574-snand + + then: + properties: + dmas: + items: + - description: tx DMA channel + - description: rx DMA channel + - description: cmd DMA channel + + dma-names: + items: + - const: tx + - const: rx + - const: cmd +required: + - compatible + - reg + - clocks + - clock-names + +unevaluatedProperties: false + +examples: + - | + #include + qpic_nand: spi@79b0000 { + compatible = "qcom,ipq9574-snand"; + reg = <0x1ac00000 0x800>; + + clocks = <&gcc GCC_QPIC_CLK>, + <&gcc GCC_QPIC_AHB_CLK>, + <&gcc GCC_QPIC_IO_MACRO_CLK>; + clock-names = "core", "aon", "iom"; + + #address-cells = <1>; + #size-cells = <0>; + + flash@0 { + compatible = "spi-nand"; + reg = <0>; + #address-cells = <1>; + #size-cells = <1>; + nand-ecc-engine = <&qpic_nand>; + nand-ecc-strength = <4>; + nand-ecc-step-size = <512>; + }; + }; From patchwork Thu Feb 15 13:48:53 2024 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Md Sadre Alam X-Patchwork-Id: 773280 Received: from mx0a-0031df01.pphosted.com (mx0a-0031df01.pphosted.com [205.220.168.131]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.subspace.kernel.org (Postfix) with ESMTPS id AFA77131751; Thu, 15 Feb 2024 13:49:35 +0000 (UTC) Authentication-Results: smtp.subspace.kernel.org; arc=none smtp.client-ip=205.220.168.131 ARC-Seal: i=1; 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Thu, 15 Feb 2024 13:49:12 +0000 (GMT) Received: from pps.filterd (APBLRPPMTA01.qualcomm.com [127.0.0.1]) by APBLRPPMTA01.qualcomm.com (8.17.1.5/8.17.1.5) with ESMTP id 41FDmhAN009617; Thu, 15 Feb 2024 13:49:08 GMT Received: from pps.reinject (localhost [127.0.0.1]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 3w627mb92c-1 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:08 +0000 Received: from APBLRPPMTA01.qualcomm.com (APBLRPPMTA01.qualcomm.com [127.0.0.1]) by pps.reinject (8.17.1.5/8.17.1.5) with ESMTP id 41FDn8pH009932; Thu, 15 Feb 2024 13:49:08 GMT Received: from hu-devc-blr-u22-a.qualcomm.com (hu-mdalam-blr.qualcomm.com [10.131.36.157]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 41FDn82I009923 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:08 +0000 Received: by hu-devc-blr-u22-a.qualcomm.com (Postfix, from userid 466583) id 653C641385; Thu, 15 Feb 2024 19:19:07 +0530 (+0530) From: Md Sadre Alam To: andersson@kernel.org, konrad.dybcio@linaro.org, broonie@kernel.org, robh@kernel.org, krzysztof.kozlowski+dt@linaro.org, conor+dt@kernel.org, miquel.raynal@bootlin.com, richard@nod.at, vigneshr@ti.com, manivannan.sadhasivam@linaro.org, linux-arm-msm@vger.kernel.org, linux-spi@vger.kernel.org, devicetree@vger.kernel.org, linux-kernel@vger.kernel.org, linux-mtd@lists.infradead.org Cc: quic_srichara@quicinc.com, quic_varada@quicinc.com, quic_mdalam@quicinc.com Subject: [PATCH 2/5] drivers: mtd: nand: Add qpic_common API file Date: Thu, 15 Feb 2024 19:18:53 +0530 Message-Id: <20240215134856.1313239-3-quic_mdalam@quicinc.com> X-Mailer: git-send-email 2.34.1 In-Reply-To: <20240215134856.1313239-1-quic_mdalam@quicinc.com> References: <20240215134856.1313239-1-quic_mdalam@quicinc.com> Precedence: bulk X-Mailing-List: linux-spi@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 X-QCInternal: smtphost X-QCInternal: smtphost X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-GUID: GVvtTGvRCqVxJkymvFNssdKmFQtqdndt X-Proofpoint-ORIG-GUID: GVvtTGvRCqVxJkymvFNssdKmFQtqdndt X-Proofpoint-Virus-Version: vendor=baseguard engine=ICAP:2.0.272,Aquarius:18.0.1011,Hydra:6.0.619,FMLib:17.11.176.26 definitions=2024-02-15_12,2024-02-14_01,2023-05-22_02 X-Proofpoint-Spam-Details: rule=outbound_notspam policy=outbound score=0 phishscore=0 mlxscore=0 mlxlogscore=999 lowpriorityscore=0 impostorscore=0 malwarescore=0 bulkscore=0 clxscore=1015 spamscore=0 suspectscore=0 adultscore=0 priorityscore=1501 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.19.0-2401310000 definitions=main-2402150111 Add qpic_common.c file which hold all the common qpic APIs which will be used by both qpic raw nand driver and qpic spi nand driver. Co-developed-by: Sricharan Ramabadhran Signed-off-by: Sricharan Ramabadhran Co-developed-by: Varadarajan Narayanan Signed-off-by: Varadarajan Narayanan Signed-off-by: Md Sadre Alam --- drivers/mtd/nand/Makefile | 1 + drivers/mtd/nand/qpic_common.c | 786 +++++++++++++++++ drivers/mtd/nand/raw/qcom_nandc.c | 1226 +------------------------- include/linux/mtd/nand-qpic-common.h | 488 ++++++++++ 4 files changed, 1291 insertions(+), 1210 deletions(-) create mode 100644 drivers/mtd/nand/qpic_common.c create mode 100644 include/linux/mtd/nand-qpic-common.h diff --git a/drivers/mtd/nand/Makefile b/drivers/mtd/nand/Makefile index 19e1291ac4d5..131707a41293 100644 --- a/drivers/mtd/nand/Makefile +++ b/drivers/mtd/nand/Makefile @@ -12,3 +12,4 @@ nandcore-$(CONFIG_MTD_NAND_ECC) += ecc.o nandcore-$(CONFIG_MTD_NAND_ECC_SW_HAMMING) += ecc-sw-hamming.o nandcore-$(CONFIG_MTD_NAND_ECC_SW_BCH) += ecc-sw-bch.o nandcore-$(CONFIG_MTD_NAND_ECC_MXIC) += ecc-mxic.o +obj-y += qpic_common.o diff --git a/drivers/mtd/nand/qpic_common.c b/drivers/mtd/nand/qpic_common.c new file mode 100644 index 000000000000..4d74ba888028 --- /dev/null +++ b/drivers/mtd/nand/qpic_common.c @@ -0,0 +1,786 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * QPIC Controller common API file. + * Copyright (C) 2023 Qualcomm Inc. + * Authors: Md sadre Alam + * Sricharan R + * Varadarajan Narayanan + * + */ + +#include + +struct qcom_nand_controller * +get_qcom_nand_controller(struct nand_chip *chip) +{ + return container_of(chip->controller, struct qcom_nand_controller, + controller); +} +EXPORT_SYMBOL(get_qcom_nand_controller); + +/* + * Helper to prepare DMA descriptors for configuring registers + * before reading a NAND page. + */ +void config_nand_page_read(struct nand_chip *chip) +{ + struct qcom_nand_controller *nandc = get_qcom_nand_controller(chip); + + write_reg_dma(nandc, NAND_ADDR0, 2, 0); + write_reg_dma(nandc, NAND_DEV0_CFG0, 3, 0); + if (!nandc->props->qpic_v2) + write_reg_dma(nandc, NAND_EBI2_ECC_BUF_CFG, 1, 0); + write_reg_dma(nandc, NAND_ERASED_CW_DETECT_CFG, 1, 0); + write_reg_dma(nandc, NAND_ERASED_CW_DETECT_CFG, 1, + NAND_ERASED_CW_SET | NAND_BAM_NEXT_SGL); +} +EXPORT_SYMBOL(config_nand_page_read); + +/* Frees the BAM transaction memory */ +void free_bam_transaction(struct qcom_nand_controller *nandc) +{ + struct bam_transaction *bam_txn = nandc->bam_txn; + + devm_kfree(nandc->dev, bam_txn); +} +EXPORT_SYMBOL(free_bam_transaction); + +/* Callback for DMA descriptor completion */ +void qpic_bam_dma_done(void *data) +{ + struct bam_transaction *bam_txn = data; + + /* + * In case of data transfer with NAND, 2 callbacks will be generated. + * One for command channel and another one for data channel. + * If current transaction has data descriptors + * (i.e. wait_second_completion is true), then set this to false + * and wait for second DMA descriptor completion. + */ + if (bam_txn->wait_second_completion) + bam_txn->wait_second_completion = false; + else + complete(&bam_txn->txn_done); +} +EXPORT_SYMBOL(qpic_bam_dma_done); + +void nandc_read_buffer_sync(struct qcom_nand_controller *nandc, + bool is_cpu) +{ + if (!nandc->props->is_bam) + return; + + if (is_cpu) + dma_sync_single_for_cpu(nandc->dev, nandc->reg_read_dma, + MAX_REG_RD * + sizeof(*nandc->reg_read_buf), + DMA_FROM_DEVICE); + else + dma_sync_single_for_device(nandc->dev, nandc->reg_read_dma, + MAX_REG_RD * + sizeof(*nandc->reg_read_buf), + DMA_FROM_DEVICE); +} +EXPORT_SYMBOL(nandc_read_buffer_sync); + +__le32 *offset_to_nandc_reg(struct nandc_regs *regs, int offset) +{ + switch (offset) { + case NAND_FLASH_CMD: + return ®s->cmd; + case NAND_ADDR0: + return ®s->addr0; + case NAND_ADDR1: + return ®s->addr1; + case NAND_FLASH_CHIP_SELECT: + return ®s->chip_sel; + case NAND_EXEC_CMD: + return ®s->exec; + case NAND_FLASH_STATUS: + return ®s->clrflashstatus; + case NAND_DEV0_CFG0: + return ®s->cfg0; + case NAND_DEV0_CFG1: + return ®s->cfg1; + case NAND_DEV0_ECC_CFG: + return ®s->ecc_bch_cfg; + case NAND_READ_STATUS: + return ®s->clrreadstatus; + case NAND_DEV_CMD1: + return ®s->cmd1; + case NAND_DEV_CMD1_RESTORE: + return ®s->orig_cmd1; + case NAND_DEV_CMD_VLD: + return ®s->vld; + case NAND_DEV_CMD_VLD_RESTORE: + return ®s->orig_vld; + case NAND_EBI2_ECC_BUF_CFG: + return ®s->ecc_buf_cfg; + case NAND_READ_LOCATION_0: + return ®s->read_location0; + case NAND_READ_LOCATION_1: + return ®s->read_location1; + case NAND_READ_LOCATION_2: + return ®s->read_location2; + case NAND_READ_LOCATION_3: + return ®s->read_location3; + case NAND_READ_LOCATION_LAST_CW_0: + return ®s->read_location_last0; + case NAND_READ_LOCATION_LAST_CW_1: + return ®s->read_location_last1; + case NAND_READ_LOCATION_LAST_CW_2: + return ®s->read_location_last2; + case NAND_READ_LOCATION_LAST_CW_3: + return ®s->read_location_last3; + default: + return NULL; + } +} +EXPORT_SYMBOL(offset_to_nandc_reg); + +/* reset the register read buffer for next NAND operation */ +void clear_read_regs(struct qcom_nand_controller *nandc) +{ + nandc->reg_read_pos = 0; + nandc_read_buffer_sync(nandc, false); +} +EXPORT_SYMBOL(clear_read_regs); + +int prep_adm_dma_desc(struct qcom_nand_controller *nandc, bool read, + int reg_off, const void *vaddr, int size, + bool flow_control) +{ + struct desc_info *desc; + struct dma_async_tx_descriptor *dma_desc; + struct scatterlist *sgl; + struct dma_slave_config slave_conf; + struct qcom_adm_peripheral_config periph_conf = {}; + enum dma_transfer_direction dir_eng; + int ret; + + desc = kzalloc(sizeof(*desc), GFP_KERNEL); + if (!desc) + return -ENOMEM; + + sgl = &desc->adm_sgl; + + sg_init_one(sgl, vaddr, size); + + if (read) { + dir_eng = DMA_DEV_TO_MEM; + desc->dir = DMA_FROM_DEVICE; + } else { + dir_eng = DMA_MEM_TO_DEV; + desc->dir = DMA_TO_DEVICE; + } + + ret = dma_map_sg(nandc->dev, sgl, 1, desc->dir); + if (ret == 0) { + ret = -ENOMEM; + goto err; + } + + memset(&slave_conf, 0x00, sizeof(slave_conf)); + + slave_conf.device_fc = flow_control; + if (read) { + slave_conf.src_maxburst = 16; + slave_conf.src_addr = nandc->base_dma + reg_off; + if (nandc->data_crci) { + periph_conf.crci = nandc->data_crci; + slave_conf.peripheral_config = &periph_conf; + slave_conf.peripheral_size = sizeof(periph_conf); + } + } else { + slave_conf.dst_maxburst = 16; + slave_conf.dst_addr = nandc->base_dma + reg_off; + if (nandc->cmd_crci) { + periph_conf.crci = nandc->cmd_crci; + slave_conf.peripheral_config = &periph_conf; + slave_conf.peripheral_size = sizeof(periph_conf); + } + } + + ret = dmaengine_slave_config(nandc->chan, &slave_conf); + if (ret) { + dev_err(nandc->dev, "failed to configure dma channel\n"); + goto err; + } + + dma_desc = dmaengine_prep_slave_sg(nandc->chan, sgl, 1, dir_eng, 0); + if (!dma_desc) { + dev_err(nandc->dev, "failed to prepare desc\n"); + ret = -EINVAL; + goto err; + } + + desc->dma_desc = dma_desc; + + list_add_tail(&desc->node, &nandc->desc_list); + + return 0; +err: + kfree(desc); + + return ret; +} +EXPORT_SYMBOL(prep_adm_dma_desc); + +/* helpers to submit/free our list of dma descriptors */ +int submit_descs(struct qcom_nand_controller *nandc) +{ + struct desc_info *desc, *n; + dma_cookie_t cookie = 0; + struct bam_transaction *bam_txn = nandc->bam_txn; + int ret = 0; + + if (nandc->props->is_bam) { + if (bam_txn->rx_sgl_pos > bam_txn->rx_sgl_start) { + ret = prepare_bam_async_desc(nandc, nandc->rx_chan, 0); + if (ret) + goto err_unmap_free_desc; + } + + if (bam_txn->tx_sgl_pos > bam_txn->tx_sgl_start) { + ret = prepare_bam_async_desc(nandc, nandc->tx_chan, + DMA_PREP_INTERRUPT); + if (ret) + goto err_unmap_free_desc; + } + + if (bam_txn->cmd_sgl_pos > bam_txn->cmd_sgl_start) { + ret = prepare_bam_async_desc(nandc, nandc->cmd_chan, + DMA_PREP_CMD); + if (ret) + goto err_unmap_free_desc; + } + } + + list_for_each_entry(desc, &nandc->desc_list, node) + cookie = dmaengine_submit(desc->dma_desc); + + if (nandc->props->is_bam) { + bam_txn->last_cmd_desc->callback = qpic_bam_dma_done; + bam_txn->last_cmd_desc->callback_param = bam_txn; + if (bam_txn->last_data_desc) { + bam_txn->last_data_desc->callback = qpic_bam_dma_done; + bam_txn->last_data_desc->callback_param = bam_txn; + bam_txn->wait_second_completion = true; + } + + dma_async_issue_pending(nandc->tx_chan); + dma_async_issue_pending(nandc->rx_chan); + dma_async_issue_pending(nandc->cmd_chan); + + if (!wait_for_completion_timeout(&bam_txn->txn_done, + QPIC_NAND_COMPLETION_TIMEOUT)) + ret = -ETIMEDOUT; + } else { + if (dma_sync_wait(nandc->chan, cookie) != DMA_COMPLETE) + ret = -ETIMEDOUT; + } + +err_unmap_free_desc: + /* + * Unmap the dma sg_list and free the desc allocated by both + * prepare_bam_async_desc() and prep_adm_dma_desc() functions. + */ + list_for_each_entry_safe(desc, n, &nandc->desc_list, node) { + list_del(&desc->node); + + if (nandc->props->is_bam) + dma_unmap_sg(nandc->dev, desc->bam_sgl, + desc->sgl_cnt, desc->dir); + else + dma_unmap_sg(nandc->dev, &desc->adm_sgl, 1, + desc->dir); + + kfree(desc); + } + + return ret; +} +EXPORT_SYMBOL(submit_descs); + +/* + * Maps the scatter gather list for DMA transfer and forms the DMA descriptor + * for BAM. This descriptor will be added in the NAND DMA descriptor queue + * which will be submitted to DMA engine. + */ +int prepare_bam_async_desc(struct qcom_nand_controller *nandc, + struct dma_chan *chan, + unsigned long flags) +{ + struct desc_info *desc; + struct scatterlist *sgl; + unsigned int sgl_cnt; + int ret; + struct bam_transaction *bam_txn = nandc->bam_txn; + enum dma_transfer_direction dir_eng; + struct dma_async_tx_descriptor *dma_desc; + + desc = kzalloc(sizeof(*desc), GFP_KERNEL); + if (!desc) + return -ENOMEM; + + if (chan == nandc->cmd_chan) { + sgl = &bam_txn->cmd_sgl[bam_txn->cmd_sgl_start]; + sgl_cnt = bam_txn->cmd_sgl_pos - bam_txn->cmd_sgl_start; + bam_txn->cmd_sgl_start = bam_txn->cmd_sgl_pos; + dir_eng = DMA_MEM_TO_DEV; + desc->dir = DMA_TO_DEVICE; + } else if (chan == nandc->tx_chan) { + sgl = &bam_txn->data_sgl[bam_txn->tx_sgl_start]; + sgl_cnt = bam_txn->tx_sgl_pos - bam_txn->tx_sgl_start; + bam_txn->tx_sgl_start = bam_txn->tx_sgl_pos; + dir_eng = DMA_MEM_TO_DEV; + desc->dir = DMA_TO_DEVICE; + } else { + sgl = &bam_txn->data_sgl[bam_txn->rx_sgl_start]; + sgl_cnt = bam_txn->rx_sgl_pos - bam_txn->rx_sgl_start; + bam_txn->rx_sgl_start = bam_txn->rx_sgl_pos; + dir_eng = DMA_DEV_TO_MEM; + desc->dir = DMA_FROM_DEVICE; + } + + sg_mark_end(sgl + sgl_cnt - 1); + ret = dma_map_sg(nandc->dev, sgl, sgl_cnt, desc->dir); + if (ret == 0) { + dev_err(nandc->dev, "failure in mapping desc\n"); + kfree(desc); + return -ENOMEM; + } + + desc->sgl_cnt = sgl_cnt; + desc->bam_sgl = sgl; + + dma_desc = dmaengine_prep_slave_sg(chan, sgl, sgl_cnt, dir_eng, + flags); + + if (!dma_desc) { + dev_err(nandc->dev, "failure in prep desc\n"); + dma_unmap_sg(nandc->dev, sgl, sgl_cnt, desc->dir); + kfree(desc); + return -EINVAL; + } + + desc->dma_desc = dma_desc; + + /* update last data/command descriptor */ + if (chan == nandc->cmd_chan) + bam_txn->last_cmd_desc = dma_desc; + else + bam_txn->last_data_desc = dma_desc; + + list_add_tail(&desc->node, &nandc->desc_list); + + return 0; +} +EXPORT_SYMBOL(prepare_bam_async_desc); + +/* + * Prepares the command descriptor for BAM DMA which will be used for NAND + * register reads and writes. The command descriptor requires the command + * to be formed in command element type so this function uses the command + * element from bam transaction ce array and fills the same with required + * data. A single SGL can contain multiple command elements so + * NAND_BAM_NEXT_SGL will be used for starting the separate SGL + * after the current command element. + */ +int prep_bam_dma_desc_cmd(struct qcom_nand_controller *nandc, bool read, + int reg_off, const void *vaddr, + int size, unsigned int flags) +{ + int bam_ce_size; + int i, ret; + struct bam_cmd_element *bam_ce_buffer; + struct bam_transaction *bam_txn = nandc->bam_txn; + + bam_ce_buffer = &bam_txn->bam_ce[bam_txn->bam_ce_pos]; + + /* fill the command desc */ + for (i = 0; i < size; i++) { + if (read) + bam_prep_ce(&bam_ce_buffer[i], + nandc_reg_phys(nandc, reg_off + 4 * i), + BAM_READ_COMMAND, + reg_buf_dma_addr(nandc, + (__le32 *)vaddr + i)); + else + bam_prep_ce_le32(&bam_ce_buffer[i], + nandc_reg_phys(nandc, reg_off + 4 * i), + BAM_WRITE_COMMAND, + *((__le32 *)vaddr + i)); + } + + bam_txn->bam_ce_pos += size; + + /* use the separate sgl after this command */ + if (flags & NAND_BAM_NEXT_SGL) { + bam_ce_buffer = &bam_txn->bam_ce[bam_txn->bam_ce_start]; + bam_ce_size = (bam_txn->bam_ce_pos - + bam_txn->bam_ce_start) * + sizeof(struct bam_cmd_element); + sg_set_buf(&bam_txn->cmd_sgl[bam_txn->cmd_sgl_pos], + bam_ce_buffer, bam_ce_size); + bam_txn->cmd_sgl_pos++; + bam_txn->bam_ce_start = bam_txn->bam_ce_pos; + + if (flags & NAND_BAM_NWD) { + ret = prepare_bam_async_desc(nandc, nandc->cmd_chan, + DMA_PREP_FENCE | + DMA_PREP_CMD); + if (ret) + return ret; + } + } + + return 0; +} +EXPORT_SYMBOL(prep_bam_dma_desc_cmd); + +/* + * Prepares the data descriptor for BAM DMA which will be used for NAND + * data reads and writes. + */ +int prep_bam_dma_desc_data(struct qcom_nand_controller *nandc, bool read, + const void *vaddr, + int size, unsigned int flags) +{ + int ret; + struct bam_transaction *bam_txn = nandc->bam_txn; + + if (read) { + sg_set_buf(&bam_txn->data_sgl[bam_txn->rx_sgl_pos], + vaddr, size); + bam_txn->rx_sgl_pos++; + } else { + sg_set_buf(&bam_txn->data_sgl[bam_txn->tx_sgl_pos], + vaddr, size); + bam_txn->tx_sgl_pos++; + + /* + * BAM will only set EOT for DMA_PREP_INTERRUPT so if this flag + * is not set, form the DMA descriptor + */ + if (!(flags & NAND_BAM_NO_EOT)) { + ret = prepare_bam_async_desc(nandc, nandc->tx_chan, + DMA_PREP_INTERRUPT); + if (ret) + return ret; + } + } + + return 0; +} +EXPORT_SYMBOL(prep_bam_dma_desc_data); + +/* + * read_reg_dma: prepares a descriptor to read a given number of + * contiguous registers to the reg_read_buf pointer + * + * @first: offset of the first register in the contiguous block + * @num_regs: number of registers to read + * @flags: flags to control DMA descriptor preparation + */ +int read_reg_dma(struct qcom_nand_controller *nandc, int first, + int num_regs, unsigned int flags) +{ + bool flow_control = false; + void *vaddr; + + vaddr = nandc->reg_read_buf + nandc->reg_read_pos; + nandc->reg_read_pos += num_regs; + + if (first == NAND_DEV_CMD_VLD || first == NAND_DEV_CMD1) + first = dev_cmd_reg_addr(nandc, first); + + if (nandc->props->is_bam) + return prep_bam_dma_desc_cmd(nandc, true, first, vaddr, + num_regs, flags); + + if (first == NAND_READ_ID || first == NAND_FLASH_STATUS) + flow_control = true; + + return prep_adm_dma_desc(nandc, true, first, vaddr, + num_regs * sizeof(u32), flow_control); +} +EXPORT_SYMBOL(read_reg_dma); + +/* + * write_reg_dma: prepares a descriptor to write a given number of + * contiguous registers + * + * @first: offset of the first register in the contiguous block + * @num_regs: number of registers to write + * @flags: flags to control DMA descriptor preparation + */ +int write_reg_dma(struct qcom_nand_controller *nandc, int first, + int num_regs, unsigned int flags) +{ + bool flow_control = false; + struct nandc_regs *regs = nandc->regs; + void *vaddr; + + vaddr = offset_to_nandc_reg(regs, first); + + if (first == NAND_ERASED_CW_DETECT_CFG) { + if (flags & NAND_ERASED_CW_SET) + vaddr = ®s->erased_cw_detect_cfg_set; + else + vaddr = ®s->erased_cw_detect_cfg_clr; + } + + if (first == NAND_EXEC_CMD) + flags |= NAND_BAM_NWD; + + if (first == NAND_DEV_CMD1_RESTORE || first == NAND_DEV_CMD1) + first = dev_cmd_reg_addr(nandc, NAND_DEV_CMD1); + + if (first == NAND_DEV_CMD_VLD_RESTORE || first == NAND_DEV_CMD_VLD) + first = dev_cmd_reg_addr(nandc, NAND_DEV_CMD_VLD); + + if (nandc->props->is_bam) + return prep_bam_dma_desc_cmd(nandc, false, first, vaddr, + num_regs, flags); + + if (first == NAND_FLASH_CMD) + flow_control = true; + + return prep_adm_dma_desc(nandc, false, first, vaddr, + num_regs * sizeof(u32), flow_control); +} +EXPORT_SYMBOL(write_reg_dma); + +/* + * read_data_dma: prepares a DMA descriptor to transfer data from the + * controller's internal buffer to the buffer 'vaddr' + * + * @reg_off: offset within the controller's data buffer + * @vaddr: virtual address of the buffer we want to write to + * @size: DMA transaction size in bytes + * @flags: flags to control DMA descriptor preparation + */ +int read_data_dma(struct qcom_nand_controller *nandc, int reg_off, + const u8 *vaddr, int size, unsigned int flags) +{ + if (nandc->props->is_bam) + return prep_bam_dma_desc_data(nandc, true, vaddr, size, flags); + + return prep_adm_dma_desc(nandc, true, reg_off, vaddr, size, false); +} +EXPORT_SYMBOL(read_data_dma); + +/* + * write_data_dma: prepares a DMA descriptor to transfer data from + * 'vaddr' to the controller's internal buffer + * + * @reg_off: offset within the controller's data buffer + * @vaddr: virtual address of the buffer we want to read from + * @size: DMA transaction size in bytes + * @flags: flags to control DMA descriptor preparation + */ +int write_data_dma(struct qcom_nand_controller *nandc, int reg_off, + const u8 *vaddr, int size, unsigned int flags) +{ + if (nandc->props->is_bam) + return prep_bam_dma_desc_data(nandc, false, vaddr, size, flags); + + return prep_adm_dma_desc(nandc, false, reg_off, vaddr, size, false); +} +EXPORT_SYMBOL(write_data_dma); + +/* Allocates and Initializes the BAM transaction */ +struct bam_transaction * +alloc_bam_transaction(struct qcom_nand_controller *nandc) +{ + struct bam_transaction *bam_txn; + size_t bam_txn_size; + unsigned int num_cw = nandc->max_cwperpage; + void *bam_txn_buf; + + bam_txn_size = + sizeof(*bam_txn) + num_cw * + ((sizeof(*bam_txn->bam_ce) * QPIC_PER_CW_CMD_ELEMENTS) + + (sizeof(*bam_txn->cmd_sgl) * QPIC_PER_CW_CMD_SGL) + + (sizeof(*bam_txn->data_sgl) * QPIC_PER_CW_DATA_SGL)); + + bam_txn_buf = devm_kzalloc(nandc->dev, bam_txn_size, GFP_KERNEL); + if (!bam_txn_buf) + return NULL; + + bam_txn = bam_txn_buf; + bam_txn_buf += sizeof(*bam_txn); + + bam_txn->bam_ce = bam_txn_buf; + bam_txn_buf += + sizeof(*bam_txn->bam_ce) * QPIC_PER_CW_CMD_ELEMENTS * num_cw; + + bam_txn->cmd_sgl = bam_txn_buf; + bam_txn_buf += + sizeof(*bam_txn->cmd_sgl) * QPIC_PER_CW_CMD_SGL * num_cw; + + bam_txn->data_sgl = bam_txn_buf; + + init_completion(&bam_txn->txn_done); + + return bam_txn; +} +EXPORT_SYMBOL(alloc_bam_transaction); + +/* Clears the BAM transaction indexes */ +void clear_bam_transaction(struct qcom_nand_controller *nandc) +{ + struct bam_transaction *bam_txn = nandc->bam_txn; + + if (!nandc->props->is_bam) + return; + + bam_txn->bam_ce_pos = 0; + bam_txn->bam_ce_start = 0; + bam_txn->cmd_sgl_pos = 0; + bam_txn->cmd_sgl_start = 0; + bam_txn->tx_sgl_pos = 0; + bam_txn->tx_sgl_start = 0; + bam_txn->rx_sgl_pos = 0; + bam_txn->rx_sgl_start = 0; + bam_txn->last_data_desc = NULL; + bam_txn->wait_second_completion = false; + + sg_init_table(bam_txn->cmd_sgl, nandc->max_cwperpage * + QPIC_PER_CW_CMD_SGL); + sg_init_table(bam_txn->data_sgl, nandc->max_cwperpage * + QPIC_PER_CW_DATA_SGL); + + reinit_completion(&bam_txn->txn_done); +} +EXPORT_SYMBOL(clear_bam_transaction); + +void qcom_nandc_unalloc(struct qcom_nand_controller *nandc) +{ + if (nandc->props->is_bam) { + if (!dma_mapping_error(nandc->dev, nandc->reg_read_dma)) + dma_unmap_single(nandc->dev, nandc->reg_read_dma, + MAX_REG_RD * + sizeof(*nandc->reg_read_buf), + DMA_FROM_DEVICE); + + if (nandc->tx_chan) + dma_release_channel(nandc->tx_chan); + + if (nandc->rx_chan) + dma_release_channel(nandc->rx_chan); + + if (nandc->cmd_chan) + dma_release_channel(nandc->cmd_chan); + } else { + if (nandc->chan) + dma_release_channel(nandc->chan); + } +} +EXPORT_SYMBOL(qcom_nandc_unalloc); + +int qcom_nandc_alloc(struct qcom_nand_controller *nandc) +{ + int ret; + + ret = dma_set_coherent_mask(nandc->dev, DMA_BIT_MASK(32)); + if (ret) { + dev_err(nandc->dev, "failed to set DMA mask\n"); + return ret; + } + + /* + * we use the internal buffer for reading ONFI params, reading small + * data like ID and status, and preforming read-copy-write operations + * when writing to a codeword partially. 532 is the maximum possible + * size of a codeword for our nand controller + */ + nandc->buf_size = 532; + + nandc->data_buffer = devm_kzalloc(nandc->dev, nandc->buf_size, GFP_KERNEL); + if (!nandc->data_buffer) + return -ENOMEM; + + nandc->regs = devm_kzalloc(nandc->dev, sizeof(*nandc->regs), GFP_KERNEL); + if (!nandc->regs) + return -ENOMEM; + + nandc->reg_read_buf = devm_kcalloc(nandc->dev, MAX_REG_RD, + sizeof(*nandc->reg_read_buf), + GFP_KERNEL); + if (!nandc->reg_read_buf) + return -ENOMEM; + + if (nandc->props->is_bam) { + nandc->reg_read_dma = + dma_map_single(nandc->dev, nandc->reg_read_buf, + MAX_REG_RD * + sizeof(*nandc->reg_read_buf), + DMA_FROM_DEVICE); + if (dma_mapping_error(nandc->dev, nandc->reg_read_dma)) { + dev_err(nandc->dev, "failed to DMA MAP reg buffer\n"); + return -EIO; + } + + nandc->tx_chan = dma_request_chan(nandc->dev, "tx"); + if (IS_ERR(nandc->tx_chan)) { + ret = PTR_ERR(nandc->tx_chan); + nandc->tx_chan = NULL; + dev_err_probe(nandc->dev, ret, + "tx DMA channel request failed\n"); + goto unalloc; + } + + nandc->rx_chan = dma_request_chan(nandc->dev, "rx"); + if (IS_ERR(nandc->rx_chan)) { + ret = PTR_ERR(nandc->rx_chan); + nandc->rx_chan = NULL; + dev_err_probe(nandc->dev, ret, + "rx DMA channel request failed\n"); + goto unalloc; + } + + nandc->cmd_chan = dma_request_chan(nandc->dev, "cmd"); + if (IS_ERR(nandc->cmd_chan)) { + ret = PTR_ERR(nandc->cmd_chan); + nandc->cmd_chan = NULL; + dev_err_probe(nandc->dev, ret, + "cmd DMA channel request failed\n"); + goto unalloc; + } + + /* + * Initially allocate BAM transaction to read ONFI param page. + * After detecting all the devices, this BAM transaction will + * be freed and the next BAM transaction will be allocated with + * maximum codeword size + */ + nandc->max_cwperpage = 1; + nandc->bam_txn = alloc_bam_transaction(nandc); + if (!nandc->bam_txn) { + dev_err(nandc->dev, + "failed to allocate bam transaction\n"); + ret = -ENOMEM; + goto unalloc; + } + } else { + nandc->chan = dma_request_chan(nandc->dev, "rxtx"); + if (IS_ERR(nandc->chan)) { + ret = PTR_ERR(nandc->chan); + nandc->chan = NULL; + dev_err_probe(nandc->dev, ret, + "rxtx DMA channel request failed\n"); + return ret; + } + } + + INIT_LIST_HEAD(&nandc->desc_list); + INIT_LIST_HEAD(&nandc->host_list); + + return 0; +unalloc: + qcom_nandc_unalloc(nandc); + return ret; +} +EXPORT_SYMBOL(qcom_nandc_alloc); diff --git a/drivers/mtd/nand/raw/qcom_nandc.c b/drivers/mtd/nand/raw/qcom_nandc.c index b079605c84d3..75c6ca698c85 100644 --- a/drivers/mtd/nand/raw/qcom_nandc.c +++ b/drivers/mtd/nand/raw/qcom_nandc.c @@ -2,186 +2,7 @@ /* * Copyright (c) 2016, The Linux Foundation. All rights reserved. */ -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - -/* NANDc reg offsets */ -#define NAND_FLASH_CMD 0x00 -#define NAND_ADDR0 0x04 -#define NAND_ADDR1 0x08 -#define NAND_FLASH_CHIP_SELECT 0x0c -#define NAND_EXEC_CMD 0x10 -#define NAND_FLASH_STATUS 0x14 -#define NAND_BUFFER_STATUS 0x18 -#define NAND_DEV0_CFG0 0x20 -#define NAND_DEV0_CFG1 0x24 -#define NAND_DEV0_ECC_CFG 0x28 -#define NAND_AUTO_STATUS_EN 0x2c -#define NAND_DEV1_CFG0 0x30 -#define NAND_DEV1_CFG1 0x34 -#define NAND_READ_ID 0x40 -#define NAND_READ_STATUS 0x44 -#define NAND_DEV_CMD0 0xa0 -#define NAND_DEV_CMD1 0xa4 -#define NAND_DEV_CMD2 0xa8 -#define NAND_DEV_CMD_VLD 0xac -#define SFLASHC_BURST_CFG 0xe0 -#define NAND_ERASED_CW_DETECT_CFG 0xe8 -#define NAND_ERASED_CW_DETECT_STATUS 0xec -#define NAND_EBI2_ECC_BUF_CFG 0xf0 -#define FLASH_BUF_ACC 0x100 - -#define NAND_CTRL 0xf00 -#define NAND_VERSION 0xf08 -#define NAND_READ_LOCATION_0 0xf20 -#define NAND_READ_LOCATION_1 0xf24 -#define NAND_READ_LOCATION_2 0xf28 -#define NAND_READ_LOCATION_3 0xf2c -#define NAND_READ_LOCATION_LAST_CW_0 0xf40 -#define NAND_READ_LOCATION_LAST_CW_1 0xf44 -#define NAND_READ_LOCATION_LAST_CW_2 0xf48 -#define NAND_READ_LOCATION_LAST_CW_3 0xf4c - -/* dummy register offsets, used by write_reg_dma */ -#define NAND_DEV_CMD1_RESTORE 0xdead -#define NAND_DEV_CMD_VLD_RESTORE 0xbeef - -/* NAND_FLASH_CMD bits */ -#define PAGE_ACC BIT(4) -#define LAST_PAGE BIT(5) - -/* NAND_FLASH_CHIP_SELECT bits */ -#define NAND_DEV_SEL 0 -#define DM_EN BIT(2) - -/* NAND_FLASH_STATUS bits */ -#define FS_OP_ERR BIT(4) -#define FS_READY_BSY_N BIT(5) -#define FS_MPU_ERR BIT(8) -#define FS_DEVICE_STS_ERR BIT(16) -#define FS_DEVICE_WP BIT(23) - -/* NAND_BUFFER_STATUS bits */ -#define BS_UNCORRECTABLE_BIT BIT(8) -#define BS_CORRECTABLE_ERR_MSK 0x1f - -/* NAND_DEVn_CFG0 bits */ -#define DISABLE_STATUS_AFTER_WRITE 4 -#define CW_PER_PAGE 6 -#define UD_SIZE_BYTES 9 -#define UD_SIZE_BYTES_MASK GENMASK(18, 9) -#define ECC_PARITY_SIZE_BYTES_RS 19 -#define SPARE_SIZE_BYTES 23 -#define SPARE_SIZE_BYTES_MASK GENMASK(26, 23) -#define NUM_ADDR_CYCLES 27 -#define STATUS_BFR_READ 30 -#define SET_RD_MODE_AFTER_STATUS 31 - -/* NAND_DEVn_CFG0 bits */ -#define DEV0_CFG1_ECC_DISABLE 0 -#define WIDE_FLASH 1 -#define NAND_RECOVERY_CYCLES 2 -#define CS_ACTIVE_BSY 5 -#define BAD_BLOCK_BYTE_NUM 6 -#define BAD_BLOCK_IN_SPARE_AREA 16 -#define WR_RD_BSY_GAP 17 -#define ENABLE_BCH_ECC 27 - -/* NAND_DEV0_ECC_CFG bits */ -#define ECC_CFG_ECC_DISABLE 0 -#define ECC_SW_RESET 1 -#define ECC_MODE 4 -#define ECC_PARITY_SIZE_BYTES_BCH 8 -#define ECC_NUM_DATA_BYTES 16 -#define ECC_NUM_DATA_BYTES_MASK GENMASK(25, 16) -#define ECC_FORCE_CLK_OPEN 30 - -/* NAND_DEV_CMD1 bits */ -#define READ_ADDR 0 - -/* NAND_DEV_CMD_VLD bits */ -#define READ_START_VLD BIT(0) -#define READ_STOP_VLD BIT(1) -#define WRITE_START_VLD BIT(2) -#define ERASE_START_VLD BIT(3) -#define SEQ_READ_START_VLD BIT(4) - -/* NAND_EBI2_ECC_BUF_CFG bits */ -#define NUM_STEPS 0 - -/* NAND_ERASED_CW_DETECT_CFG bits */ -#define ERASED_CW_ECC_MASK 1 -#define AUTO_DETECT_RES 0 -#define MASK_ECC BIT(ERASED_CW_ECC_MASK) -#define RESET_ERASED_DET BIT(AUTO_DETECT_RES) -#define ACTIVE_ERASED_DET (0 << AUTO_DETECT_RES) -#define CLR_ERASED_PAGE_DET (RESET_ERASED_DET | MASK_ECC) -#define SET_ERASED_PAGE_DET (ACTIVE_ERASED_DET | MASK_ECC) - -/* NAND_ERASED_CW_DETECT_STATUS bits */ -#define PAGE_ALL_ERASED BIT(7) -#define CODEWORD_ALL_ERASED BIT(6) -#define PAGE_ERASED BIT(5) -#define CODEWORD_ERASED BIT(4) -#define ERASED_PAGE (PAGE_ALL_ERASED | PAGE_ERASED) -#define ERASED_CW (CODEWORD_ALL_ERASED | CODEWORD_ERASED) - -/* NAND_READ_LOCATION_n bits */ -#define READ_LOCATION_OFFSET 0 -#define READ_LOCATION_SIZE 16 -#define READ_LOCATION_LAST 31 - -/* Version Mask */ -#define NAND_VERSION_MAJOR_MASK 0xf0000000 -#define NAND_VERSION_MAJOR_SHIFT 28 -#define NAND_VERSION_MINOR_MASK 0x0fff0000 -#define NAND_VERSION_MINOR_SHIFT 16 - -/* NAND OP_CMDs */ -#define OP_PAGE_READ 0x2 -#define OP_PAGE_READ_WITH_ECC 0x3 -#define OP_PAGE_READ_WITH_ECC_SPARE 0x4 -#define OP_PAGE_READ_ONFI_READ 0x5 -#define OP_PROGRAM_PAGE 0x6 -#define OP_PAGE_PROGRAM_WITH_ECC 0x7 -#define OP_PROGRAM_PAGE_SPARE 0x9 -#define OP_BLOCK_ERASE 0xa -#define OP_CHECK_STATUS 0xc -#define OP_FETCH_ID 0xb -#define OP_RESET_DEVICE 0xd - -/* Default Value for NAND_DEV_CMD_VLD */ -#define NAND_DEV_CMD_VLD_VAL (READ_START_VLD | WRITE_START_VLD | \ - ERASE_START_VLD | SEQ_READ_START_VLD) - -/* NAND_CTRL bits */ -#define BAM_MODE_EN BIT(0) - -/* - * the NAND controller performs reads/writes with ECC in 516 byte chunks. - * the driver calls the chunks 'step' or 'codeword' interchangeably - */ -#define NANDC_STEP_SIZE 512 - -/* - * the largest page size we support is 8K, this will have 16 steps/codewords - * of 512 bytes each - */ -#define MAX_NUM_STEPS (SZ_8K / NANDC_STEP_SIZE) - -/* we read at most 3 registers per codeword scan */ -#define MAX_REG_RD (3 * MAX_NUM_STEPS) +#include /* ECC modes supported by the controller */ #define ECC_NONE BIT(0) @@ -200,247 +21,6 @@ nandc_set_reg(chip, reg, \ ((cw_offset) << READ_LOCATION_OFFSET) | \ ((read_size) << READ_LOCATION_SIZE) | \ ((is_last_read_loc) << READ_LOCATION_LAST)) -/* - * Returns the actual register address for all NAND_DEV_ registers - * (i.e. NAND_DEV_CMD0, NAND_DEV_CMD1, NAND_DEV_CMD2 and NAND_DEV_CMD_VLD) - */ -#define dev_cmd_reg_addr(nandc, reg) ((nandc)->props->dev_cmd_reg_start + (reg)) - -/* Returns the NAND register physical address */ -#define nandc_reg_phys(chip, offset) ((chip)->base_phys + (offset)) - -/* Returns the dma address for reg read buffer */ -#define reg_buf_dma_addr(chip, vaddr) \ - ((chip)->reg_read_dma + \ - ((u8 *)(vaddr) - (u8 *)(chip)->reg_read_buf)) - -#define QPIC_PER_CW_CMD_ELEMENTS 32 -#define QPIC_PER_CW_CMD_SGL 32 -#define QPIC_PER_CW_DATA_SGL 8 - -#define QPIC_NAND_COMPLETION_TIMEOUT msecs_to_jiffies(2000) - -/* - * Flags used in DMA descriptor preparation helper functions - * (i.e. read_reg_dma/write_reg_dma/read_data_dma/write_data_dma) - */ -/* Don't set the EOT in current tx BAM sgl */ -#define NAND_BAM_NO_EOT BIT(0) -/* Set the NWD flag in current BAM sgl */ -#define NAND_BAM_NWD BIT(1) -/* Finish writing in the current BAM sgl and start writing in another BAM sgl */ -#define NAND_BAM_NEXT_SGL BIT(2) -/* - * Erased codeword status is being used two times in single transfer so this - * flag will determine the current value of erased codeword status register - */ -#define NAND_ERASED_CW_SET BIT(4) - -#define MAX_ADDRESS_CYCLE 5 - -/* - * This data type corresponds to the BAM transaction which will be used for all - * NAND transfers. - * @bam_ce - the array of BAM command elements - * @cmd_sgl - sgl for NAND BAM command pipe - * @data_sgl - sgl for NAND BAM consumer/producer pipe - * @last_data_desc - last DMA desc in data channel (tx/rx). - * @last_cmd_desc - last DMA desc in command channel. - * @txn_done - completion for NAND transfer. - * @bam_ce_pos - the index in bam_ce which is available for next sgl - * @bam_ce_start - the index in bam_ce which marks the start position ce - * for current sgl. It will be used for size calculation - * for current sgl - * @cmd_sgl_pos - current index in command sgl. - * @cmd_sgl_start - start index in command sgl. - * @tx_sgl_pos - current index in data sgl for tx. - * @tx_sgl_start - start index in data sgl for tx. - * @rx_sgl_pos - current index in data sgl for rx. - * @rx_sgl_start - start index in data sgl for rx. - * @wait_second_completion - wait for second DMA desc completion before making - * the NAND transfer completion. - */ -struct bam_transaction { - struct bam_cmd_element *bam_ce; - struct scatterlist *cmd_sgl; - struct scatterlist *data_sgl; - struct dma_async_tx_descriptor *last_data_desc; - struct dma_async_tx_descriptor *last_cmd_desc; - struct completion txn_done; - u32 bam_ce_pos; - u32 bam_ce_start; - u32 cmd_sgl_pos; - u32 cmd_sgl_start; - u32 tx_sgl_pos; - u32 tx_sgl_start; - u32 rx_sgl_pos; - u32 rx_sgl_start; - bool wait_second_completion; -}; - -/* - * This data type corresponds to the nand dma descriptor - * @dma_desc - low level DMA engine descriptor - * @list - list for desc_info - * - * @adm_sgl - sgl which will be used for single sgl dma descriptor. Only used by - * ADM - * @bam_sgl - sgl which will be used for dma descriptor. Only used by BAM - * @sgl_cnt - number of SGL in bam_sgl. Only used by BAM - * @dir - DMA transfer direction - */ -struct desc_info { - struct dma_async_tx_descriptor *dma_desc; - struct list_head node; - - union { - struct scatterlist adm_sgl; - struct { - struct scatterlist *bam_sgl; - int sgl_cnt; - }; - }; - enum dma_data_direction dir; -}; - -/* - * holds the current register values that we want to write. acts as a contiguous - * chunk of memory which we use to write the controller registers through DMA. - */ -struct nandc_regs { - __le32 cmd; - __le32 addr0; - __le32 addr1; - __le32 chip_sel; - __le32 exec; - - __le32 cfg0; - __le32 cfg1; - __le32 ecc_bch_cfg; - - __le32 clrflashstatus; - __le32 clrreadstatus; - - __le32 cmd1; - __le32 vld; - - __le32 orig_cmd1; - __le32 orig_vld; - - __le32 ecc_buf_cfg; - __le32 read_location0; - __le32 read_location1; - __le32 read_location2; - __le32 read_location3; - __le32 read_location_last0; - __le32 read_location_last1; - __le32 read_location_last2; - __le32 read_location_last3; - - __le32 erased_cw_detect_cfg_clr; - __le32 erased_cw_detect_cfg_set; -}; - -/* - * NAND controller data struct - * - * @dev: parent device - * - * @base: MMIO base - * - * @core_clk: controller clock - * @aon_clk: another controller clock - * - * @regs: a contiguous chunk of memory for DMA register - * writes. contains the register values to be - * written to controller - * - * @props: properties of current NAND controller, - * initialized via DT match data - * - * @controller: base controller structure - * @host_list: list containing all the chips attached to the - * controller - * - * @chan: dma channel - * @cmd_crci: ADM DMA CRCI for command flow control - * @data_crci: ADM DMA CRCI for data flow control - * - * @desc_list: DMA descriptor list (list of desc_infos) - * - * @data_buffer: our local DMA buffer for page read/writes, - * used when we can't use the buffer provided - * by upper layers directly - * @reg_read_buf: local buffer for reading back registers via DMA - * - * @base_phys: physical base address of controller registers - * @base_dma: dma base address of controller registers - * @reg_read_dma: contains dma address for register read buffer - * - * @buf_size/count/start: markers for chip->legacy.read_buf/write_buf - * functions - * @max_cwperpage: maximum QPIC codewords required. calculated - * from all connected NAND devices pagesize - * - * @reg_read_pos: marker for data read in reg_read_buf - * - * @cmd1/vld: some fixed controller register values - * - * @exec_opwrite: flag to select correct number of code word - * while reading status - */ -struct qcom_nand_controller { - struct device *dev; - - void __iomem *base; - - struct clk *core_clk; - struct clk *aon_clk; - - struct nandc_regs *regs; - struct bam_transaction *bam_txn; - - const struct qcom_nandc_props *props; - - struct nand_controller controller; - struct list_head host_list; - - union { - /* will be used only by QPIC for BAM DMA */ - struct { - struct dma_chan *tx_chan; - struct dma_chan *rx_chan; - struct dma_chan *cmd_chan; - }; - - /* will be used only by EBI2 for ADM DMA */ - struct { - struct dma_chan *chan; - unsigned int cmd_crci; - unsigned int data_crci; - }; - }; - - struct list_head desc_list; - - u8 *data_buffer; - __le32 *reg_read_buf; - - phys_addr_t base_phys; - dma_addr_t base_dma; - dma_addr_t reg_read_dma; - - int buf_size; - int buf_count; - int buf_start; - unsigned int max_cwperpage; - - int reg_read_pos; - - u32 cmd1, vld; - bool exec_opwrite; -}; - /* * NAND special boot partitions * @@ -544,113 +124,17 @@ struct qcom_nand_host { bool bch_enabled; }; -/* - * This data type corresponds to the NAND controller properties which varies - * among different NAND controllers. - * @ecc_modes - ecc mode for NAND - * @dev_cmd_reg_start - NAND_DEV_CMD_* registers starting offset - * @is_bam - whether NAND controller is using BAM - * @is_qpic - whether NAND CTRL is part of qpic IP - * @qpic_v2 - flag to indicate QPIC IP version 2 - * @use_codeword_fixup - whether NAND has different layout for boot partitions - */ -struct qcom_nandc_props { - u32 ecc_modes; - u32 dev_cmd_reg_start; - bool is_bam; - bool is_qpic; - bool qpic_v2; - bool use_codeword_fixup; -}; - -/* Frees the BAM transaction memory */ -static void free_bam_transaction(struct qcom_nand_controller *nandc) -{ - struct bam_transaction *bam_txn = nandc->bam_txn; - - devm_kfree(nandc->dev, bam_txn); -} - -/* Allocates and Initializes the BAM transaction */ -static struct bam_transaction * -alloc_bam_transaction(struct qcom_nand_controller *nandc) -{ - struct bam_transaction *bam_txn; - size_t bam_txn_size; - unsigned int num_cw = nandc->max_cwperpage; - void *bam_txn_buf; - - bam_txn_size = - sizeof(*bam_txn) + num_cw * - ((sizeof(*bam_txn->bam_ce) * QPIC_PER_CW_CMD_ELEMENTS) + - (sizeof(*bam_txn->cmd_sgl) * QPIC_PER_CW_CMD_SGL) + - (sizeof(*bam_txn->data_sgl) * QPIC_PER_CW_DATA_SGL)); - - bam_txn_buf = devm_kzalloc(nandc->dev, bam_txn_size, GFP_KERNEL); - if (!bam_txn_buf) - return NULL; - - bam_txn = bam_txn_buf; - bam_txn_buf += sizeof(*bam_txn); - - bam_txn->bam_ce = bam_txn_buf; - bam_txn_buf += - sizeof(*bam_txn->bam_ce) * QPIC_PER_CW_CMD_ELEMENTS * num_cw; - - bam_txn->cmd_sgl = bam_txn_buf; - bam_txn_buf += - sizeof(*bam_txn->cmd_sgl) * QPIC_PER_CW_CMD_SGL * num_cw; - - bam_txn->data_sgl = bam_txn_buf; - - init_completion(&bam_txn->txn_done); - - return bam_txn; -} - -/* Clears the BAM transaction indexes */ -static void clear_bam_transaction(struct qcom_nand_controller *nandc) +static void nandc_set_reg(struct nand_chip *chip, int offset, + u32 val) { - struct bam_transaction *bam_txn = nandc->bam_txn; - - if (!nandc->props->is_bam) - return; - - bam_txn->bam_ce_pos = 0; - bam_txn->bam_ce_start = 0; - bam_txn->cmd_sgl_pos = 0; - bam_txn->cmd_sgl_start = 0; - bam_txn->tx_sgl_pos = 0; - bam_txn->tx_sgl_start = 0; - bam_txn->rx_sgl_pos = 0; - bam_txn->rx_sgl_start = 0; - bam_txn->last_data_desc = NULL; - bam_txn->wait_second_completion = false; - - sg_init_table(bam_txn->cmd_sgl, nandc->max_cwperpage * - QPIC_PER_CW_CMD_SGL); - sg_init_table(bam_txn->data_sgl, nandc->max_cwperpage * - QPIC_PER_CW_DATA_SGL); - - reinit_completion(&bam_txn->txn_done); -} + struct qcom_nand_controller *nandc = get_qcom_nand_controller(chip); + struct nandc_regs *regs = nandc->regs; + __le32 *reg; -/* Callback for DMA descriptor completion */ -static void qpic_bam_dma_done(void *data) -{ - struct bam_transaction *bam_txn = data; + reg = offset_to_nandc_reg(regs, offset); - /* - * In case of data transfer with NAND, 2 callbacks will be generated. - * One for command channel and another one for data channel. - * If current transaction has data descriptors - * (i.e. wait_second_completion is true), then set this to false - * and wait for second DMA descriptor completion. - */ - if (bam_txn->wait_second_completion) - bam_txn->wait_second_completion = false; - else - complete(&bam_txn->txn_done); + if (reg) + *reg = cpu_to_le32(val); } static inline struct qcom_nand_host *to_qcom_nand_host(struct nand_chip *chip) @@ -658,13 +142,6 @@ static inline struct qcom_nand_host *to_qcom_nand_host(struct nand_chip *chip) return container_of(chip, struct qcom_nand_host, chip); } -static inline struct qcom_nand_controller * -get_qcom_nand_controller(struct nand_chip *chip) -{ - return container_of(chip->controller, struct qcom_nand_controller, - controller); -} - static inline u32 nandc_read(struct qcom_nand_controller *nandc, int offset) { return ioread32(nandc->base + offset); @@ -676,91 +153,6 @@ static inline void nandc_write(struct qcom_nand_controller *nandc, int offset, iowrite32(val, nandc->base + offset); } -static inline void nandc_read_buffer_sync(struct qcom_nand_controller *nandc, - bool is_cpu) -{ - if (!nandc->props->is_bam) - return; - - if (is_cpu) - dma_sync_single_for_cpu(nandc->dev, nandc->reg_read_dma, - MAX_REG_RD * - sizeof(*nandc->reg_read_buf), - DMA_FROM_DEVICE); - else - dma_sync_single_for_device(nandc->dev, nandc->reg_read_dma, - MAX_REG_RD * - sizeof(*nandc->reg_read_buf), - DMA_FROM_DEVICE); -} - -static __le32 *offset_to_nandc_reg(struct nandc_regs *regs, int offset) -{ - switch (offset) { - case NAND_FLASH_CMD: - return ®s->cmd; - case NAND_ADDR0: - return ®s->addr0; - case NAND_ADDR1: - return ®s->addr1; - case NAND_FLASH_CHIP_SELECT: - return ®s->chip_sel; - case NAND_EXEC_CMD: - return ®s->exec; - case NAND_FLASH_STATUS: - return ®s->clrflashstatus; - case NAND_DEV0_CFG0: - return ®s->cfg0; - case NAND_DEV0_CFG1: - return ®s->cfg1; - case NAND_DEV0_ECC_CFG: - return ®s->ecc_bch_cfg; - case NAND_READ_STATUS: - return ®s->clrreadstatus; - case NAND_DEV_CMD1: - return ®s->cmd1; - case NAND_DEV_CMD1_RESTORE: - return ®s->orig_cmd1; - case NAND_DEV_CMD_VLD: - return ®s->vld; - case NAND_DEV_CMD_VLD_RESTORE: - return ®s->orig_vld; - case NAND_EBI2_ECC_BUF_CFG: - return ®s->ecc_buf_cfg; - case NAND_READ_LOCATION_0: - return ®s->read_location0; - case NAND_READ_LOCATION_1: - return ®s->read_location1; - case NAND_READ_LOCATION_2: - return ®s->read_location2; - case NAND_READ_LOCATION_3: - return ®s->read_location3; - case NAND_READ_LOCATION_LAST_CW_0: - return ®s->read_location_last0; - case NAND_READ_LOCATION_LAST_CW_1: - return ®s->read_location_last1; - case NAND_READ_LOCATION_LAST_CW_2: - return ®s->read_location_last2; - case NAND_READ_LOCATION_LAST_CW_3: - return ®s->read_location_last3; - default: - return NULL; - } -} - -static void nandc_set_reg(struct nand_chip *chip, int offset, - u32 val) -{ - struct qcom_nand_controller *nandc = get_qcom_nand_controller(chip); - struct nandc_regs *regs = nandc->regs; - __le32 *reg; - - reg = offset_to_nandc_reg(regs, offset); - - if (reg) - *reg = cpu_to_le32(val); -} - /* Helper to check the code word, whether it is last cw or not */ static bool qcom_nandc_is_last_cw(struct nand_ecc_ctrl *ecc, int cw) { @@ -852,383 +244,6 @@ static void update_rw_regs(struct qcom_nand_host *host, int num_cw, bool read, i host->cw_data : host->cw_size, 1); } -/* - * Maps the scatter gather list for DMA transfer and forms the DMA descriptor - * for BAM. This descriptor will be added in the NAND DMA descriptor queue - * which will be submitted to DMA engine. - */ -static int prepare_bam_async_desc(struct qcom_nand_controller *nandc, - struct dma_chan *chan, - unsigned long flags) -{ - struct desc_info *desc; - struct scatterlist *sgl; - unsigned int sgl_cnt; - int ret; - struct bam_transaction *bam_txn = nandc->bam_txn; - enum dma_transfer_direction dir_eng; - struct dma_async_tx_descriptor *dma_desc; - - desc = kzalloc(sizeof(*desc), GFP_KERNEL); - if (!desc) - return -ENOMEM; - - if (chan == nandc->cmd_chan) { - sgl = &bam_txn->cmd_sgl[bam_txn->cmd_sgl_start]; - sgl_cnt = bam_txn->cmd_sgl_pos - bam_txn->cmd_sgl_start; - bam_txn->cmd_sgl_start = bam_txn->cmd_sgl_pos; - dir_eng = DMA_MEM_TO_DEV; - desc->dir = DMA_TO_DEVICE; - } else if (chan == nandc->tx_chan) { - sgl = &bam_txn->data_sgl[bam_txn->tx_sgl_start]; - sgl_cnt = bam_txn->tx_sgl_pos - bam_txn->tx_sgl_start; - bam_txn->tx_sgl_start = bam_txn->tx_sgl_pos; - dir_eng = DMA_MEM_TO_DEV; - desc->dir = DMA_TO_DEVICE; - } else { - sgl = &bam_txn->data_sgl[bam_txn->rx_sgl_start]; - sgl_cnt = bam_txn->rx_sgl_pos - bam_txn->rx_sgl_start; - bam_txn->rx_sgl_start = bam_txn->rx_sgl_pos; - dir_eng = DMA_DEV_TO_MEM; - desc->dir = DMA_FROM_DEVICE; - } - - sg_mark_end(sgl + sgl_cnt - 1); - ret = dma_map_sg(nandc->dev, sgl, sgl_cnt, desc->dir); - if (ret == 0) { - dev_err(nandc->dev, "failure in mapping desc\n"); - kfree(desc); - return -ENOMEM; - } - - desc->sgl_cnt = sgl_cnt; - desc->bam_sgl = sgl; - - dma_desc = dmaengine_prep_slave_sg(chan, sgl, sgl_cnt, dir_eng, - flags); - - if (!dma_desc) { - dev_err(nandc->dev, "failure in prep desc\n"); - dma_unmap_sg(nandc->dev, sgl, sgl_cnt, desc->dir); - kfree(desc); - return -EINVAL; - } - - desc->dma_desc = dma_desc; - - /* update last data/command descriptor */ - if (chan == nandc->cmd_chan) - bam_txn->last_cmd_desc = dma_desc; - else - bam_txn->last_data_desc = dma_desc; - - list_add_tail(&desc->node, &nandc->desc_list); - - return 0; -} - -/* - * Prepares the command descriptor for BAM DMA which will be used for NAND - * register reads and writes. The command descriptor requires the command - * to be formed in command element type so this function uses the command - * element from bam transaction ce array and fills the same with required - * data. A single SGL can contain multiple command elements so - * NAND_BAM_NEXT_SGL will be used for starting the separate SGL - * after the current command element. - */ -static int prep_bam_dma_desc_cmd(struct qcom_nand_controller *nandc, bool read, - int reg_off, const void *vaddr, - int size, unsigned int flags) -{ - int bam_ce_size; - int i, ret; - struct bam_cmd_element *bam_ce_buffer; - struct bam_transaction *bam_txn = nandc->bam_txn; - - bam_ce_buffer = &bam_txn->bam_ce[bam_txn->bam_ce_pos]; - - /* fill the command desc */ - for (i = 0; i < size; i++) { - if (read) - bam_prep_ce(&bam_ce_buffer[i], - nandc_reg_phys(nandc, reg_off + 4 * i), - BAM_READ_COMMAND, - reg_buf_dma_addr(nandc, - (__le32 *)vaddr + i)); - else - bam_prep_ce_le32(&bam_ce_buffer[i], - nandc_reg_phys(nandc, reg_off + 4 * i), - BAM_WRITE_COMMAND, - *((__le32 *)vaddr + i)); - } - - bam_txn->bam_ce_pos += size; - - /* use the separate sgl after this command */ - if (flags & NAND_BAM_NEXT_SGL) { - bam_ce_buffer = &bam_txn->bam_ce[bam_txn->bam_ce_start]; - bam_ce_size = (bam_txn->bam_ce_pos - - bam_txn->bam_ce_start) * - sizeof(struct bam_cmd_element); - sg_set_buf(&bam_txn->cmd_sgl[bam_txn->cmd_sgl_pos], - bam_ce_buffer, bam_ce_size); - bam_txn->cmd_sgl_pos++; - bam_txn->bam_ce_start = bam_txn->bam_ce_pos; - - if (flags & NAND_BAM_NWD) { - ret = prepare_bam_async_desc(nandc, nandc->cmd_chan, - DMA_PREP_FENCE | - DMA_PREP_CMD); - if (ret) - return ret; - } - } - - return 0; -} - -/* - * Prepares the data descriptor for BAM DMA which will be used for NAND - * data reads and writes. - */ -static int prep_bam_dma_desc_data(struct qcom_nand_controller *nandc, bool read, - const void *vaddr, - int size, unsigned int flags) -{ - int ret; - struct bam_transaction *bam_txn = nandc->bam_txn; - - if (read) { - sg_set_buf(&bam_txn->data_sgl[bam_txn->rx_sgl_pos], - vaddr, size); - bam_txn->rx_sgl_pos++; - } else { - sg_set_buf(&bam_txn->data_sgl[bam_txn->tx_sgl_pos], - vaddr, size); - bam_txn->tx_sgl_pos++; - - /* - * BAM will only set EOT for DMA_PREP_INTERRUPT so if this flag - * is not set, form the DMA descriptor - */ - if (!(flags & NAND_BAM_NO_EOT)) { - ret = prepare_bam_async_desc(nandc, nandc->tx_chan, - DMA_PREP_INTERRUPT); - if (ret) - return ret; - } - } - - return 0; -} - -static int prep_adm_dma_desc(struct qcom_nand_controller *nandc, bool read, - int reg_off, const void *vaddr, int size, - bool flow_control) -{ - struct desc_info *desc; - struct dma_async_tx_descriptor *dma_desc; - struct scatterlist *sgl; - struct dma_slave_config slave_conf; - struct qcom_adm_peripheral_config periph_conf = {}; - enum dma_transfer_direction dir_eng; - int ret; - - desc = kzalloc(sizeof(*desc), GFP_KERNEL); - if (!desc) - return -ENOMEM; - - sgl = &desc->adm_sgl; - - sg_init_one(sgl, vaddr, size); - - if (read) { - dir_eng = DMA_DEV_TO_MEM; - desc->dir = DMA_FROM_DEVICE; - } else { - dir_eng = DMA_MEM_TO_DEV; - desc->dir = DMA_TO_DEVICE; - } - - ret = dma_map_sg(nandc->dev, sgl, 1, desc->dir); - if (ret == 0) { - ret = -ENOMEM; - goto err; - } - - memset(&slave_conf, 0x00, sizeof(slave_conf)); - - slave_conf.device_fc = flow_control; - if (read) { - slave_conf.src_maxburst = 16; - slave_conf.src_addr = nandc->base_dma + reg_off; - if (nandc->data_crci) { - periph_conf.crci = nandc->data_crci; - slave_conf.peripheral_config = &periph_conf; - slave_conf.peripheral_size = sizeof(periph_conf); - } - } else { - slave_conf.dst_maxburst = 16; - slave_conf.dst_addr = nandc->base_dma + reg_off; - if (nandc->cmd_crci) { - periph_conf.crci = nandc->cmd_crci; - slave_conf.peripheral_config = &periph_conf; - slave_conf.peripheral_size = sizeof(periph_conf); - } - } - - ret = dmaengine_slave_config(nandc->chan, &slave_conf); - if (ret) { - dev_err(nandc->dev, "failed to configure dma channel\n"); - goto err; - } - - dma_desc = dmaengine_prep_slave_sg(nandc->chan, sgl, 1, dir_eng, 0); - if (!dma_desc) { - dev_err(nandc->dev, "failed to prepare desc\n"); - ret = -EINVAL; - goto err; - } - - desc->dma_desc = dma_desc; - - list_add_tail(&desc->node, &nandc->desc_list); - - return 0; -err: - kfree(desc); - - return ret; -} - -/* - * read_reg_dma: prepares a descriptor to read a given number of - * contiguous registers to the reg_read_buf pointer - * - * @first: offset of the first register in the contiguous block - * @num_regs: number of registers to read - * @flags: flags to control DMA descriptor preparation - */ -static int read_reg_dma(struct qcom_nand_controller *nandc, int first, - int num_regs, unsigned int flags) -{ - bool flow_control = false; - void *vaddr; - - vaddr = nandc->reg_read_buf + nandc->reg_read_pos; - nandc->reg_read_pos += num_regs; - - if (first == NAND_DEV_CMD_VLD || first == NAND_DEV_CMD1) - first = dev_cmd_reg_addr(nandc, first); - - if (nandc->props->is_bam) - return prep_bam_dma_desc_cmd(nandc, true, first, vaddr, - num_regs, flags); - - if (first == NAND_READ_ID || first == NAND_FLASH_STATUS) - flow_control = true; - - return prep_adm_dma_desc(nandc, true, first, vaddr, - num_regs * sizeof(u32), flow_control); -} - -/* - * write_reg_dma: prepares a descriptor to write a given number of - * contiguous registers - * - * @first: offset of the first register in the contiguous block - * @num_regs: number of registers to write - * @flags: flags to control DMA descriptor preparation - */ -static int write_reg_dma(struct qcom_nand_controller *nandc, int first, - int num_regs, unsigned int flags) -{ - bool flow_control = false; - struct nandc_regs *regs = nandc->regs; - void *vaddr; - - vaddr = offset_to_nandc_reg(regs, first); - - if (first == NAND_ERASED_CW_DETECT_CFG) { - if (flags & NAND_ERASED_CW_SET) - vaddr = ®s->erased_cw_detect_cfg_set; - else - vaddr = ®s->erased_cw_detect_cfg_clr; - } - - if (first == NAND_EXEC_CMD) - flags |= NAND_BAM_NWD; - - if (first == NAND_DEV_CMD1_RESTORE || first == NAND_DEV_CMD1) - first = dev_cmd_reg_addr(nandc, NAND_DEV_CMD1); - - if (first == NAND_DEV_CMD_VLD_RESTORE || first == NAND_DEV_CMD_VLD) - first = dev_cmd_reg_addr(nandc, NAND_DEV_CMD_VLD); - - if (nandc->props->is_bam) - return prep_bam_dma_desc_cmd(nandc, false, first, vaddr, - num_regs, flags); - - if (first == NAND_FLASH_CMD) - flow_control = true; - - return prep_adm_dma_desc(nandc, false, first, vaddr, - num_regs * sizeof(u32), flow_control); -} - -/* - * read_data_dma: prepares a DMA descriptor to transfer data from the - * controller's internal buffer to the buffer 'vaddr' - * - * @reg_off: offset within the controller's data buffer - * @vaddr: virtual address of the buffer we want to write to - * @size: DMA transaction size in bytes - * @flags: flags to control DMA descriptor preparation - */ -static int read_data_dma(struct qcom_nand_controller *nandc, int reg_off, - const u8 *vaddr, int size, unsigned int flags) -{ - if (nandc->props->is_bam) - return prep_bam_dma_desc_data(nandc, true, vaddr, size, flags); - - return prep_adm_dma_desc(nandc, true, reg_off, vaddr, size, false); -} - -/* - * write_data_dma: prepares a DMA descriptor to transfer data from - * 'vaddr' to the controller's internal buffer - * - * @reg_off: offset within the controller's data buffer - * @vaddr: virtual address of the buffer we want to read from - * @size: DMA transaction size in bytes - * @flags: flags to control DMA descriptor preparation - */ -static int write_data_dma(struct qcom_nand_controller *nandc, int reg_off, - const u8 *vaddr, int size, unsigned int flags) -{ - if (nandc->props->is_bam) - return prep_bam_dma_desc_data(nandc, false, vaddr, size, flags); - - return prep_adm_dma_desc(nandc, false, reg_off, vaddr, size, false); -} - -/* - * Helper to prepare DMA descriptors for configuring registers - * before reading a NAND page. - */ -static void config_nand_page_read(struct nand_chip *chip) -{ - struct qcom_nand_controller *nandc = get_qcom_nand_controller(chip); - - write_reg_dma(nandc, NAND_ADDR0, 2, 0); - write_reg_dma(nandc, NAND_DEV0_CFG0, 3, 0); - if (!nandc->props->qpic_v2) - write_reg_dma(nandc, NAND_EBI2_ECC_BUF_CFG, 1, 0); - write_reg_dma(nandc, NAND_ERASED_CW_DETECT_CFG, 1, 0); - write_reg_dma(nandc, NAND_ERASED_CW_DETECT_CFG, 1, - NAND_ERASED_CW_SET | NAND_BAM_NEXT_SGL); -} - /* * Helper to prepare DMA descriptors for configuring registers * before reading each codeword in NAND page. @@ -1303,88 +318,6 @@ static void config_nand_cw_write(struct nand_chip *chip) write_reg_dma(nandc, NAND_READ_STATUS, 1, NAND_BAM_NEXT_SGL); } -/* helpers to submit/free our list of dma descriptors */ -static int submit_descs(struct qcom_nand_controller *nandc) -{ - struct desc_info *desc, *n; - dma_cookie_t cookie = 0; - struct bam_transaction *bam_txn = nandc->bam_txn; - int ret = 0; - - if (nandc->props->is_bam) { - if (bam_txn->rx_sgl_pos > bam_txn->rx_sgl_start) { - ret = prepare_bam_async_desc(nandc, nandc->rx_chan, 0); - if (ret) - goto err_unmap_free_desc; - } - - if (bam_txn->tx_sgl_pos > bam_txn->tx_sgl_start) { - ret = prepare_bam_async_desc(nandc, nandc->tx_chan, - DMA_PREP_INTERRUPT); - if (ret) - goto err_unmap_free_desc; - } - - if (bam_txn->cmd_sgl_pos > bam_txn->cmd_sgl_start) { - ret = prepare_bam_async_desc(nandc, nandc->cmd_chan, - DMA_PREP_CMD); - if (ret) - goto err_unmap_free_desc; - } - } - - list_for_each_entry(desc, &nandc->desc_list, node) - cookie = dmaengine_submit(desc->dma_desc); - - if (nandc->props->is_bam) { - bam_txn->last_cmd_desc->callback = qpic_bam_dma_done; - bam_txn->last_cmd_desc->callback_param = bam_txn; - if (bam_txn->last_data_desc) { - bam_txn->last_data_desc->callback = qpic_bam_dma_done; - bam_txn->last_data_desc->callback_param = bam_txn; - bam_txn->wait_second_completion = true; - } - - dma_async_issue_pending(nandc->tx_chan); - dma_async_issue_pending(nandc->rx_chan); - dma_async_issue_pending(nandc->cmd_chan); - - if (!wait_for_completion_timeout(&bam_txn->txn_done, - QPIC_NAND_COMPLETION_TIMEOUT)) - ret = -ETIMEDOUT; - } else { - if (dma_sync_wait(nandc->chan, cookie) != DMA_COMPLETE) - ret = -ETIMEDOUT; - } - -err_unmap_free_desc: - /* - * Unmap the dma sg_list and free the desc allocated by both - * prepare_bam_async_desc() and prep_adm_dma_desc() functions. - */ - list_for_each_entry_safe(desc, n, &nandc->desc_list, node) { - list_del(&desc->node); - - if (nandc->props->is_bam) - dma_unmap_sg(nandc->dev, desc->bam_sgl, - desc->sgl_cnt, desc->dir); - else - dma_unmap_sg(nandc->dev, &desc->adm_sgl, 1, - desc->dir); - - kfree(desc); - } - - return ret; -} - -/* reset the register read buffer for next NAND operation */ -static void clear_read_regs(struct qcom_nand_controller *nandc) -{ - nandc->reg_read_pos = 0; - nandc_read_buffer_sync(nandc, false); -} - /* * when using BCH ECC, the HW flags an error in NAND_FLASH_STATUS if it read * an erased CW, and reports an erased CW in NAND_ERASED_CW_DETECT_STATUS. @@ -3016,136 +1949,6 @@ static const struct nand_controller_ops qcom_nandc_ops = { .exec_op = qcom_nand_exec_op, }; -static void qcom_nandc_unalloc(struct qcom_nand_controller *nandc) -{ - if (nandc->props->is_bam) { - if (!dma_mapping_error(nandc->dev, nandc->reg_read_dma)) - dma_unmap_single(nandc->dev, nandc->reg_read_dma, - MAX_REG_RD * - sizeof(*nandc->reg_read_buf), - DMA_FROM_DEVICE); - - if (nandc->tx_chan) - dma_release_channel(nandc->tx_chan); - - if (nandc->rx_chan) - dma_release_channel(nandc->rx_chan); - - if (nandc->cmd_chan) - dma_release_channel(nandc->cmd_chan); - } else { - if (nandc->chan) - dma_release_channel(nandc->chan); - } -} - -static int qcom_nandc_alloc(struct qcom_nand_controller *nandc) -{ - int ret; - - ret = dma_set_coherent_mask(nandc->dev, DMA_BIT_MASK(32)); - if (ret) { - dev_err(nandc->dev, "failed to set DMA mask\n"); - return ret; - } - - /* - * we use the internal buffer for reading ONFI params, reading small - * data like ID and status, and preforming read-copy-write operations - * when writing to a codeword partially. 532 is the maximum possible - * size of a codeword for our nand controller - */ - nandc->buf_size = 532; - - nandc->data_buffer = devm_kzalloc(nandc->dev, nandc->buf_size, GFP_KERNEL); - if (!nandc->data_buffer) - return -ENOMEM; - - nandc->regs = devm_kzalloc(nandc->dev, sizeof(*nandc->regs), GFP_KERNEL); - if (!nandc->regs) - return -ENOMEM; - - nandc->reg_read_buf = devm_kcalloc(nandc->dev, MAX_REG_RD, - sizeof(*nandc->reg_read_buf), - GFP_KERNEL); - if (!nandc->reg_read_buf) - return -ENOMEM; - - if (nandc->props->is_bam) { - nandc->reg_read_dma = - dma_map_single(nandc->dev, nandc->reg_read_buf, - MAX_REG_RD * - sizeof(*nandc->reg_read_buf), - DMA_FROM_DEVICE); - if (dma_mapping_error(nandc->dev, nandc->reg_read_dma)) { - dev_err(nandc->dev, "failed to DMA MAP reg buffer\n"); - return -EIO; - } - - nandc->tx_chan = dma_request_chan(nandc->dev, "tx"); - if (IS_ERR(nandc->tx_chan)) { - ret = PTR_ERR(nandc->tx_chan); - nandc->tx_chan = NULL; - dev_err_probe(nandc->dev, ret, - "tx DMA channel request failed\n"); - goto unalloc; - } - - nandc->rx_chan = dma_request_chan(nandc->dev, "rx"); - if (IS_ERR(nandc->rx_chan)) { - ret = PTR_ERR(nandc->rx_chan); - nandc->rx_chan = NULL; - dev_err_probe(nandc->dev, ret, - "rx DMA channel request failed\n"); - goto unalloc; - } - - nandc->cmd_chan = dma_request_chan(nandc->dev, "cmd"); - if (IS_ERR(nandc->cmd_chan)) { - ret = PTR_ERR(nandc->cmd_chan); - nandc->cmd_chan = NULL; - dev_err_probe(nandc->dev, ret, - "cmd DMA channel request failed\n"); - goto unalloc; - } - - /* - * Initially allocate BAM transaction to read ONFI param page. - * After detecting all the devices, this BAM transaction will - * be freed and the next BAM transaction will be allocated with - * maximum codeword size - */ - nandc->max_cwperpage = 1; - nandc->bam_txn = alloc_bam_transaction(nandc); - if (!nandc->bam_txn) { - dev_err(nandc->dev, - "failed to allocate bam transaction\n"); - ret = -ENOMEM; - goto unalloc; - } - } else { - nandc->chan = dma_request_chan(nandc->dev, "rxtx"); - if (IS_ERR(nandc->chan)) { - ret = PTR_ERR(nandc->chan); - nandc->chan = NULL; - dev_err_probe(nandc->dev, ret, - "rxtx DMA channel request failed\n"); - return ret; - } - } - - INIT_LIST_HEAD(&nandc->desc_list); - INIT_LIST_HEAD(&nandc->host_list); - - nand_controller_init(&nandc->controller); - nandc->controller.ops = &qcom_nandc_ops; - - return 0; -unalloc: - qcom_nandc_unalloc(nandc); - return ret; -} - /* one time setup of a few nand controller registers */ static int qcom_nandc_setup(struct qcom_nand_controller *nandc) { @@ -3427,6 +2230,9 @@ static int qcom_nandc_probe(struct platform_device *pdev) if (ret) goto err_nandc_alloc; + nand_controller_init(&nandc->controller); + nandc->controller.ops = &qcom_nandc_ops; + ret = qcom_nandc_setup(nandc); if (ret) goto err_setup; @@ -3473,28 +2279,28 @@ static void qcom_nandc_remove(struct platform_device *pdev) DMA_BIDIRECTIONAL, 0); } -static const struct qcom_nandc_props ipq806x_nandc_props = { +static struct qcom_nandc_props ipq806x_nandc_props = { .ecc_modes = (ECC_RS_4BIT | ECC_BCH_8BIT), .is_bam = false, .use_codeword_fixup = true, .dev_cmd_reg_start = 0x0, }; -static const struct qcom_nandc_props ipq4019_nandc_props = { +static struct qcom_nandc_props ipq4019_nandc_props = { .ecc_modes = (ECC_BCH_4BIT | ECC_BCH_8BIT), .is_bam = true, .is_qpic = true, .dev_cmd_reg_start = 0x0, }; -static const struct qcom_nandc_props ipq8074_nandc_props = { +static struct qcom_nandc_props ipq8074_nandc_props = { .ecc_modes = (ECC_BCH_4BIT | ECC_BCH_8BIT), .is_bam = true, .is_qpic = true, .dev_cmd_reg_start = 0x7000, }; -static const struct qcom_nandc_props sdx55_nandc_props = { +static struct qcom_nandc_props sdx55_nandc_props = { .ecc_modes = (ECC_BCH_4BIT | ECC_BCH_8BIT), .is_bam = true, .is_qpic = true, diff --git a/include/linux/mtd/nand-qpic-common.h b/include/linux/mtd/nand-qpic-common.h new file mode 100644 index 000000000000..891f975ca173 --- /dev/null +++ b/include/linux/mtd/nand-qpic-common.h @@ -0,0 +1,488 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +/* + * QCOM QPIC common APIs header file + * + * Copyright (c) 2023 Qualcomm Inc. + * Authors: Md sadre Alam + * Sricharan R + * Varadarajan Narayanan + * + */ +#ifndef __MTD_NAND_QPIC_COMMON_H__ +#define __MTD_NAND_QPIC_COMMON_H__ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +/* NANDc reg offsets */ +#define NAND_FLASH_CMD 0x00 +#define NAND_ADDR0 0x04 +#define NAND_ADDR1 0x08 +#define NAND_FLASH_CHIP_SELECT 0x0c +#define NAND_EXEC_CMD 0x10 +#define NAND_FLASH_STATUS 0x14 +#define NAND_BUFFER_STATUS 0x18 +#define NAND_DEV0_CFG0 0x20 +#define NAND_DEV0_CFG1 0x24 +#define NAND_DEV0_ECC_CFG 0x28 +#define NAND_AUTO_STATUS_EN 0x2c +#define NAND_DEV1_CFG0 0x30 +#define NAND_DEV1_CFG1 0x34 +#define NAND_READ_ID 0x40 +#define NAND_READ_STATUS 0x44 +#define NAND_DEV_CMD0 0xa0 +#define NAND_DEV_CMD1 0xa4 +#define NAND_DEV_CMD2 0xa8 +#define NAND_DEV_CMD_VLD 0xac +#define SFLASHC_BURST_CFG 0xe0 +#define NAND_ERASED_CW_DETECT_CFG 0xe8 +#define NAND_ERASED_CW_DETECT_STATUS 0xec +#define NAND_EBI2_ECC_BUF_CFG 0xf0 +#define FLASH_BUF_ACC 0x100 + +#define NAND_CTRL 0xf00 +#define NAND_VERSION 0xf08 +#define NAND_READ_LOCATION_0 0xf20 +#define NAND_READ_LOCATION_1 0xf24 +#define NAND_READ_LOCATION_2 0xf28 +#define NAND_READ_LOCATION_3 0xf2c +#define NAND_READ_LOCATION_LAST_CW_0 0xf40 +#define NAND_READ_LOCATION_LAST_CW_1 0xf44 +#define NAND_READ_LOCATION_LAST_CW_2 0xf48 +#define NAND_READ_LOCATION_LAST_CW_3 0xf4c + +/* dummy register offsets, used by write_reg_dma */ +#define NAND_DEV_CMD1_RESTORE 0xdead +#define NAND_DEV_CMD_VLD_RESTORE 0xbeef + +/* NAND_FLASH_CMD bits */ +#define PAGE_ACC BIT(4) +#define LAST_PAGE BIT(5) + +/* NAND_FLASH_CHIP_SELECT bits */ +#define NAND_DEV_SEL 0 +#define DM_EN BIT(2) + +/* NAND_FLASH_STATUS bits */ +#define FS_OP_ERR BIT(4) +#define FS_READY_BSY_N BIT(5) +#define FS_MPU_ERR BIT(8) +#define FS_DEVICE_STS_ERR BIT(16) +#define FS_DEVICE_WP BIT(23) + +/* NAND_BUFFER_STATUS bits */ +#define BS_UNCORRECTABLE_BIT BIT(8) +#define BS_CORRECTABLE_ERR_MSK 0x1f + +/* NAND_DEVn_CFG0 bits */ +#define DISABLE_STATUS_AFTER_WRITE 4 +#define CW_PER_PAGE 6 +#define UD_SIZE_BYTES 9 +#define UD_SIZE_BYTES_MASK GENMASK(18, 9) +#define ECC_PARITY_SIZE_BYTES_RS 19 +#define SPARE_SIZE_BYTES 23 +#define SPARE_SIZE_BYTES_MASK GENMASK(26, 23) +#define NUM_ADDR_CYCLES 27 +#define STATUS_BFR_READ 30 +#define SET_RD_MODE_AFTER_STATUS 31 + +/* NAND_DEVn_CFG0 bits */ +#define DEV0_CFG1_ECC_DISABLE 0 +#define WIDE_FLASH 1 +#define NAND_RECOVERY_CYCLES 2 +#define CS_ACTIVE_BSY 5 +#define BAD_BLOCK_BYTE_NUM 6 +#define BAD_BLOCK_IN_SPARE_AREA 16 +#define WR_RD_BSY_GAP 17 +#define ENABLE_BCH_ECC 27 + +/* NAND_DEV0_ECC_CFG bits */ +#define ECC_CFG_ECC_DISABLE 0 +#define ECC_SW_RESET 1 +#define ECC_MODE 4 +#define ECC_PARITY_SIZE_BYTES_BCH 8 +#define ECC_NUM_DATA_BYTES 16 +#define ECC_NUM_DATA_BYTES_MASK GENMASK(25, 16) +#define ECC_FORCE_CLK_OPEN 30 + +/* NAND_DEV_CMD1 bits */ +#define READ_ADDR 0 + +/* NAND_DEV_CMD_VLD bits */ +#define READ_START_VLD BIT(0) +#define READ_STOP_VLD BIT(1) +#define WRITE_START_VLD BIT(2) +#define ERASE_START_VLD BIT(3) +#define SEQ_READ_START_VLD BIT(4) + +/* NAND_EBI2_ECC_BUF_CFG bits */ +#define NUM_STEPS 0 + +/* NAND_ERASED_CW_DETECT_CFG bits */ +#define ERASED_CW_ECC_MASK 1 +#define AUTO_DETECT_RES 0 +#define MASK_ECC BIT(ERASED_CW_ECC_MASK) +#define RESET_ERASED_DET BIT(AUTO_DETECT_RES) +#define ACTIVE_ERASED_DET (0 << AUTO_DETECT_RES) +#define CLR_ERASED_PAGE_DET (RESET_ERASED_DET | MASK_ECC) +#define SET_ERASED_PAGE_DET (ACTIVE_ERASED_DET | MASK_ECC) + +/* NAND_ERASED_CW_DETECT_STATUS bits */ +#define PAGE_ALL_ERASED BIT(7) +#define CODEWORD_ALL_ERASED BIT(6) +#define PAGE_ERASED BIT(5) +#define CODEWORD_ERASED BIT(4) +#define ERASED_PAGE (PAGE_ALL_ERASED | PAGE_ERASED) +#define ERASED_CW (CODEWORD_ALL_ERASED | CODEWORD_ERASED) + +/* NAND_READ_LOCATION_n bits */ +#define READ_LOCATION_OFFSET 0 +#define READ_LOCATION_SIZE 16 +#define READ_LOCATION_LAST 31 + +/* Version Mask */ +#define NAND_VERSION_MAJOR_MASK 0xf0000000 +#define NAND_VERSION_MAJOR_SHIFT 28 +#define NAND_VERSION_MINOR_MASK 0x0fff0000 +#define NAND_VERSION_MINOR_SHIFT 16 + +/* NAND OP_CMDs */ +#define OP_PAGE_READ 0x2 +#define OP_PAGE_READ_WITH_ECC 0x3 +#define OP_PAGE_READ_WITH_ECC_SPARE 0x4 +#define OP_PAGE_READ_ONFI_READ 0x5 +#define OP_PROGRAM_PAGE 0x6 +#define OP_PAGE_PROGRAM_WITH_ECC 0x7 +#define OP_PROGRAM_PAGE_SPARE 0x9 +#define OP_BLOCK_ERASE 0xa +#define OP_CHECK_STATUS 0xc +#define OP_FETCH_ID 0xb +#define OP_RESET_DEVICE 0xd + +/* Default Value for NAND_DEV_CMD_VLD */ +#define NAND_DEV_CMD_VLD_VAL (READ_START_VLD | WRITE_START_VLD | \ + ERASE_START_VLD | SEQ_READ_START_VLD) + +/* NAND_CTRL bits */ +#define BAM_MODE_EN BIT(0) + +/* + * the NAND controller performs reads/writes with ECC in 516 byte chunks. + * the driver calls the chunks 'step' or 'codeword' interchangeably + */ +#define NANDC_STEP_SIZE 512 + +/* + * the largest page size we support is 8K, this will have 16 steps/codewords + * of 512 bytes each + */ +#define MAX_NUM_STEPS (SZ_8K / NANDC_STEP_SIZE) + +/* we read at most 3 registers per codeword scan */ +#define MAX_REG_RD (3 * MAX_NUM_STEPS) + +#define QPIC_PER_CW_CMD_ELEMENTS 32 +#define QPIC_PER_CW_CMD_SGL 32 +#define QPIC_PER_CW_DATA_SGL 8 + +#define QPIC_NAND_COMPLETION_TIMEOUT msecs_to_jiffies(2000) + +/* + * Flags used in DMA descriptor preparation helper functions + * (i.e. read_reg_dma/write_reg_dma/read_data_dma/write_data_dma) + */ +/* Don't set the EOT in current tx BAM sgl */ +#define NAND_BAM_NO_EOT BIT(0) +/* Set the NWD flag in current BAM sgl */ +#define NAND_BAM_NWD BIT(1) +/* Finish writing in the current BAM sgl and start writing in another BAM sgl */ +#define NAND_BAM_NEXT_SGL BIT(2) + +/* + * Returns the actual register address for all NAND_DEV_ registers + * (i.e. NAND_DEV_CMD0, NAND_DEV_CMD1, NAND_DEV_CMD2 and NAND_DEV_CMD_VLD) + */ +#define dev_cmd_reg_addr(nandc, reg) ((nandc)->props->dev_cmd_reg_start + (reg)) + +/* Returns the NAND register physical address */ +#define nandc_reg_phys(chip, offset) ((chip)->base_phys + (offset)) + +/* Returns the dma address for reg read buffer */ +#define reg_buf_dma_addr(chip, vaddr) \ + ((chip)->reg_read_dma + \ + ((u8 *)(vaddr) - (u8 *)(chip)->reg_read_buf)) + +/* + * Erased codeword status is being used two times in single transfer so this + * flag will determine the current value of erased codeword status register + */ +#define NAND_ERASED_CW_SET BIT(4) + +#define MAX_ADDRESS_CYCLE 5 + +/* + * This data type corresponds to the BAM transaction which will be used for all + * NAND transfers. + * @bam_ce - the array of BAM command elements + * @cmd_sgl - sgl for NAND BAM command pipe + * @data_sgl - sgl for NAND BAM consumer/producer pipe + * @last_data_desc - last DMA desc in data channel (tx/rx). + * @last_cmd_desc - last DMA desc in command channel. + * @txn_done - completion for NAND transfer. + * @bam_ce_pos - the index in bam_ce which is available for next sgl + * @bam_ce_start - the index in bam_ce which marks the start position ce + * for current sgl. It will be used for size calculation + * for current sgl + * @cmd_sgl_pos - current index in command sgl. + * @cmd_sgl_start - start index in command sgl. + * @tx_sgl_pos - current index in data sgl for tx. + * @tx_sgl_start - start index in data sgl for tx. + * @rx_sgl_pos - current index in data sgl for rx. + * @rx_sgl_start - start index in data sgl for rx. + * @wait_second_completion - wait for second DMA desc completion before making + * the NAND transfer completion. + */ +struct bam_transaction { + struct bam_cmd_element *bam_ce; + struct scatterlist *cmd_sgl; + struct scatterlist *data_sgl; + struct dma_async_tx_descriptor *last_data_desc; + struct dma_async_tx_descriptor *last_cmd_desc; + struct completion txn_done; + u32 bam_ce_pos; + u32 bam_ce_start; + u32 cmd_sgl_pos; + u32 cmd_sgl_start; + u32 tx_sgl_pos; + u32 tx_sgl_start; + u32 rx_sgl_pos; + u32 rx_sgl_start; + bool wait_second_completion; +}; + +/* + * This data type corresponds to the nand dma descriptor + * @dma_desc - low level DMA engine descriptor + * @list - list for desc_info + * + * @adm_sgl - sgl which will be used for single sgl dma descriptor. Only used by + * ADM + * @bam_sgl - sgl which will be used for dma descriptor. Only used by BAM + * @sgl_cnt - number of SGL in bam_sgl. Only used by BAM + * @dir - DMA transfer direction + */ +struct desc_info { + struct dma_async_tx_descriptor *dma_desc; + struct list_head node; + + union { + struct scatterlist adm_sgl; + struct { + struct scatterlist *bam_sgl; + int sgl_cnt; + }; + }; + enum dma_data_direction dir; +}; + +/* + * holds the current register values that we want to write. acts as a contiguous + * chunk of memory which we use to write the controller registers through DMA. + */ +struct nandc_regs { + __le32 cmd; + __le32 addr0; + __le32 addr1; + __le32 chip_sel; + __le32 exec; + + __le32 cfg0; + __le32 cfg1; + __le32 ecc_bch_cfg; + + __le32 clrflashstatus; + __le32 clrreadstatus; + + __le32 cmd1; + __le32 vld; + + __le32 orig_cmd1; + __le32 orig_vld; + + __le32 ecc_buf_cfg; + __le32 read_location0; + __le32 read_location1; + __le32 read_location2; + __le32 read_location3; + __le32 read_location_last0; + __le32 read_location_last1; + __le32 read_location_last2; + __le32 read_location_last3; + + __le32 erased_cw_detect_cfg_clr; + __le32 erased_cw_detect_cfg_set; +}; + +/* + * NAND controller data struct + * + * @dev: parent device + * + * @base: MMIO base + * + * @core_clk: controller clock + * @aon_clk: another controller clock + * + * @regs: a contiguous chunk of memory for DMA register + * writes. contains the register values to be + * written to controller + * + * @props: properties of current NAND controller, + * initialized via DT match data + * + * @controller: base controller structure + * @host_list: list containing all the chips attached to the + * controller + * + * @chan: dma channel + * @cmd_crci: ADM DMA CRCI for command flow control + * @data_crci: ADM DMA CRCI for data flow control + * + * @desc_list: DMA descriptor list (list of desc_infos) + * + * @data_buffer: our local DMA buffer for page read/writes, + * used when we can't use the buffer provided + * by upper layers directly + * @reg_read_buf: local buffer for reading back registers via DMA + * + * @base_phys: physical base address of controller registers + * @base_dma: dma base address of controller registers + * @reg_read_dma: contains dma address for register read buffer + * + * @buf_size/count/start: markers for chip->legacy.read_buf/write_buf + * functions + * @max_cwperpage: maximum QPIC codewords required. calculated + * from all connected NAND devices pagesize + * + * @reg_read_pos: marker for data read in reg_read_buf + * + * @cmd1/vld: some fixed controller register values + * + * @exec_opwrite: flag to select correct number of code word + * while reading status + */ +struct qcom_nand_controller { + struct device *dev; + + void __iomem *base; + + struct clk *core_clk; + struct clk *aon_clk; + + struct nandc_regs *regs; + struct bam_transaction *bam_txn; + + const struct qcom_nandc_props *props; + + struct nand_controller controller; + struct list_head host_list; + + union { + /* will be used only by QPIC for BAM DMA */ + struct { + struct dma_chan *tx_chan; + struct dma_chan *rx_chan; + struct dma_chan *cmd_chan; + }; + + /* will be used only by EBI2 for ADM DMA */ + struct { + struct dma_chan *chan; + unsigned int cmd_crci; + unsigned int data_crci; + }; + }; + + struct list_head desc_list; + + u8 *data_buffer; + __le32 *reg_read_buf; + + phys_addr_t base_phys; + dma_addr_t base_dma; + dma_addr_t reg_read_dma; + + int buf_size; + int buf_count; + int buf_start; + unsigned int max_cwperpage; + + int reg_read_pos; + + u32 cmd1, vld; + bool exec_opwrite; +}; + +/* + * This data type corresponds to the NAND controller properties which varies + * among different NAND controllers. + * @ecc_modes - ecc mode for NAND + * @dev_cmd_reg_start - NAND_DEV_CMD_* registers starting offset + * @is_bam - whether NAND controller is using BAM + * @is_qpic - whether NAND CTRL is part of qpic IP + * @qpic_v2 - flag to indicate QPIC IP version 2 + * @use_codeword_fixup - whether NAND has different layout for boot partitions + */ +struct qcom_nandc_props { + u32 ecc_modes; + u32 dev_cmd_reg_start; + bool is_bam; + bool is_qpic; + bool qpic_v2; + bool use_codeword_fixup; +}; + +void config_nand_page_read(struct nand_chip *chip); +void free_bam_transaction(struct qcom_nand_controller *nandc); +void qpic_bam_dma_done(void *data); +void nandc_read_buffer_sync(struct qcom_nand_controller *nandc, bool is_cpu); +__le32 *offset_to_nandc_reg(struct nandc_regs *regs, int offset); +void clear_read_regs(struct qcom_nand_controller *nandc); +int prep_adm_dma_desc(struct qcom_nand_controller *nandc, bool read, + int reg_off, const void *vaddr, int size, + bool flow_control); +int submit_descs(struct qcom_nand_controller *nandc); +int prepare_bam_async_desc(struct qcom_nand_controller *nandc, + struct dma_chan *chan, unsigned long flags); +int prep_bam_dma_desc_cmd(struct qcom_nand_controller *nandc, bool read, + int reg_off, const void *vaddr, + int size, unsigned int flags); +int prep_bam_dma_desc_data(struct qcom_nand_controller *nandc, bool read, + const void *vaddr, + int size, unsigned int flags); +int read_reg_dma(struct qcom_nand_controller *nandc, int first, + int num_regs, unsigned int flags); +int write_reg_dma(struct qcom_nand_controller *nandc, int first, + int num_regs, unsigned int flags); +int read_data_dma(struct qcom_nand_controller *nandc, int reg_off, + const u8 *vaddr, int size, unsigned int flags); +int write_data_dma(struct qcom_nand_controller *nandc, int reg_off, + const u8 *vaddr, int size, unsigned int flags); +struct bam_transaction *alloc_bam_transaction(struct qcom_nand_controller *nandc); +void clear_bam_transaction(struct qcom_nand_controller *nandc); +void qcom_nandc_unalloc(struct qcom_nand_controller *nandc); +int qcom_nandc_alloc(struct qcom_nand_controller *nandc); +struct qcom_nand_controller *get_qcom_nand_controller(struct nand_chip *chip); + +#endif From patchwork Thu Feb 15 13:48:54 2024 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Md Sadre Alam X-Patchwork-Id: 773916 Received: from mx0a-0031df01.pphosted.com (mx0a-0031df01.pphosted.com [205.220.168.131]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.subspace.kernel.org (Postfix) with ESMTPS id 75A5358ABC; 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The spi nand driver currently supported the below commands. -- RESET -- READ ID -- SET FEATURE -- GET FEATURE -- READ PAGE -- WRITE PAGE -- ERASE PAGE Co-developed-by: Sricharan Ramabadhran Signed-off-by: Sricharan Ramabadhran Co-developed-by: Varadarajan Narayanan Signed-off-by: Varadarajan Narayanan Signed-off-by: Md Sadre Alam --- drivers/mtd/nand/qpic_common.c | 8 + drivers/spi/Kconfig | 9 + drivers/spi/Makefile | 1 + drivers/spi/spi-qpic-snand.c | 1025 ++++++++++++++++++++++++++ include/linux/mtd/nand-qpic-common.h | 62 +- 5 files changed, 1104 insertions(+), 1 deletion(-) create mode 100644 drivers/spi/spi-qpic-snand.c diff --git a/drivers/mtd/nand/qpic_common.c b/drivers/mtd/nand/qpic_common.c index 4d74ba888028..7aa3c56d210a 100644 --- a/drivers/mtd/nand/qpic_common.c +++ b/drivers/mtd/nand/qpic_common.c @@ -132,6 +132,14 @@ __le32 *offset_to_nandc_reg(struct nandc_regs *regs, int offset) return ®s->read_location_last2; case NAND_READ_LOCATION_LAST_CW_3: return ®s->read_location_last3; + case NAND_FLASH_SPI_CFG: + return ®s->spi_cfg; + case NAND_NUM_ADDR_CYCLES: + return ®s->num_addr_cycle; + case NAND_BUSY_CHECK_WAIT_CNT: + return ®s->busy_wait_cnt; + case NAND_FLASH_FEATURES: + return ®s->flash_feature; default: return NULL; } diff --git a/drivers/spi/Kconfig b/drivers/spi/Kconfig index bc7021da2fe9..536448700d7b 100644 --- a/drivers/spi/Kconfig +++ b/drivers/spi/Kconfig @@ -882,6 +882,15 @@ config SPI_QCOM_QSPI help QSPI(Quad SPI) driver for Qualcomm QSPI controller. +config SPI_QPIC_SNAND + tristate "QPIC SNAND controller" + default y + depends on ARCH_QCOM + help + QPIC_SNAND (QPIC SPI NAND) driver for Qualcomm QPIC controller. + QPIC controller supports both parallel nand and serial nand. + This config will enable serial nand driver for QPIC controller. + config SPI_QUP tristate "Qualcomm SPI controller with QUP interface" depends on ARCH_QCOM || COMPILE_TEST diff --git a/drivers/spi/Makefile b/drivers/spi/Makefile index 4ff8d725ba5e..1ac3bac35007 100644 --- a/drivers/spi/Makefile +++ b/drivers/spi/Makefile @@ -153,6 +153,7 @@ obj-$(CONFIG_SPI_XTENSA_XTFPGA) += spi-xtensa-xtfpga.o obj-$(CONFIG_SPI_ZYNQ_QSPI) += spi-zynq-qspi.o obj-$(CONFIG_SPI_ZYNQMP_GQSPI) += spi-zynqmp-gqspi.o obj-$(CONFIG_SPI_AMD) += spi-amd.o +obj-$(CONFIG_SPI_QPIC_SNAND) += spi-qpic-snand.o # SPI slave protocol handlers obj-$(CONFIG_SPI_SLAVE_TIME) += spi-slave-time.o diff --git a/drivers/spi/spi-qpic-snand.c b/drivers/spi/spi-qpic-snand.c new file mode 100644 index 000000000000..0fc529eed3e3 --- /dev/null +++ b/drivers/spi/spi-qpic-snand.c @@ -0,0 +1,1025 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * Copyright (c) 2023, Qualcomm Innovation Center, Inc. All rights reserved. + * + * Authors: + * Md Sadre Alam + * Sricharan R + * Varadarajan Narayanan + */ + +#include +#include + +/* QSPI NAND config reg bits */ +#define LOAD_CLK_CNTR_INIT_EN BIT(28) +#define CLK_CNTR_INIT_VAL_VEC 0x924 +#define FEA_STATUS_DEV_ADDR 0xc0 +#define SPI_CFG BIT(0) +#define SPI_NUM_ADDR 0xDA4DB +#define SPI_WAIT_CNT 0x10 +#define QPIC_QSPI_NUM_CS 1 +#define SPI_TRANSFER_MODE_x1 BIT(29) +#define SPI_TRANSFER_MODE_x4 (3 << 29) +#define SPI_WP BIT(28) +#define SPI_HOLD BIT(27) +#define QPIC_SET_FEATURE BIT(31) + +#define SPINAND_RESET 0xff +#define SPINAND_READID 0x9f +#define SPINAND_GET_FEATURE 0x0f +#define SPINAND_SET_FEATURE 0x1f +#define SPINAND_READ 0x13 +#define SPINAND_ERASE 0xd8 +#define SPINAND_WRITE_EN 0x06 +#define SPINAND_PROGRAM_EXECUTE 0x10 +#define SPINAND_PROGRAM_LOAD 0x84 + +#define snandc_set_read_loc_first(snandc, reg, cw_offset, read_size, is_last_read_loc) \ +snandc_set_reg(snandc, reg, \ + ((cw_offset) << READ_LOCATION_OFFSET) | \ + ((read_size) << READ_LOCATION_SIZE) | \ + ((is_last_read_loc) << READ_LOCATION_LAST)) + +#define snandc_set_read_loc_last(snandc, reg, cw_offset, read_size, is_last_read_loc) \ +snandc_set_reg(snandc, reg, \ + ((cw_offset) << READ_LOCATION_OFFSET) | \ + ((read_size) << READ_LOCATION_SIZE) | \ + ((is_last_read_loc) << READ_LOCATION_LAST)) + +struct qpic_snand_op { + u32 cmd_reg; + u32 addr1_reg; + u32 addr2_reg; +}; + +struct snandc_read_status { + __le32 snandc_flash; + __le32 snandc_buffer; + __le32 snandc_erased_cw; +}; + +void snandc_set_reg(struct qcom_nand_controller *snandc, int offset, u32 val) +{ + struct nandc_regs *regs = snandc->regs; + __le32 *reg; + + reg = offset_to_nandc_reg(regs, offset); + + if (reg) + *reg = cpu_to_le32(val); +} + +static struct qcom_nand_controller *nand_to_qcom_snand(struct nand_device *nand) +{ + struct nand_ecc_engine *eng = nand->ecc.engine; + + return container_of(eng, struct qcom_nand_controller, ecc_eng); +} + +static int qcom_snand_init(struct qcom_nand_controller *snandc) +{ + u32 snand_cfg_val = 0x0; + int ret; + + snand_cfg_val |= (LOAD_CLK_CNTR_INIT_EN | (CLK_CNTR_INIT_VAL_VEC << 16) + | (FEA_STATUS_DEV_ADDR << 8) | SPI_CFG); + + snandc_set_reg(snandc, NAND_FLASH_SPI_CFG, 0); + snandc_set_reg(snandc, NAND_FLASH_SPI_CFG, snand_cfg_val); + snandc_set_reg(snandc, NAND_NUM_ADDR_CYCLES, SPI_NUM_ADDR); + snandc_set_reg(snandc, NAND_BUSY_CHECK_WAIT_CNT, SPI_WAIT_CNT); + + write_reg_dma(snandc, NAND_FLASH_SPI_CFG, 1, 0); + write_reg_dma(snandc, NAND_FLASH_SPI_CFG, 1, 0); + + snand_cfg_val &= ~LOAD_CLK_CNTR_INIT_EN; + snandc_set_reg(snandc, NAND_FLASH_SPI_CFG, snand_cfg_val); + + write_reg_dma(snandc, NAND_FLASH_SPI_CFG, 1, 0); + + write_reg_dma(snandc, NAND_NUM_ADDR_CYCLES, 1, 0); + write_reg_dma(snandc, NAND_BUSY_CHECK_WAIT_CNT, 1, NAND_BAM_NEXT_SGL); + + ret = submit_descs(snandc); + if (ret) + dev_err(snandc->dev, "failure in sbumitting spiinit descriptor\n"); + + return 0; +} + +static int qcom_snand_ooblayout_ecc(struct mtd_info *mtd, int section, + struct mtd_oob_region *oobregion) +{ + struct nand_device *nand = mtd_to_nanddev(mtd); + struct qcom_nand_controller *snandc = nand_to_qcom_snand(nand); + struct qpic_ecc *qecc = snandc->ecc; + + if (section > 1) + return -ERANGE; + + if (!section) { + oobregion->length = (qecc->bytes * (qecc->steps - 1)) + qecc->bbm_size; + oobregion->offset = 0; + } else { + oobregion->length = qecc->ecc_bytes_hw + qecc->spare_bytes; + oobregion->offset = mtd->oobsize - oobregion->length; + } + + return 0; +} + +static int qcom_snand_ooblayout_free(struct mtd_info *mtd, int section, + struct mtd_oob_region *oobregion) +{ + struct nand_device *nand = mtd_to_nanddev(mtd); + struct qcom_nand_controller *snandc = nand_to_qcom_snand(nand); + struct qpic_ecc *qecc = snandc->ecc; + + if (section) + return -ERANGE; + + oobregion->length = qecc->steps * 4; + oobregion->offset = ((qecc->steps - 1) * qecc->bytes) + qecc->bbm_size; + + return 0; +} + +static const struct mtd_ooblayout_ops qcom_snand_ooblayout = { + .ecc = qcom_snand_ooblayout_ecc, + .free = qcom_snand_ooblayout_free, +}; + +static int qpic_snand_ecc_init_ctx_pipelined(struct nand_device *nand) +{ + struct qcom_nand_controller *snandc = nand_to_qcom_snand(nand); + struct nand_ecc_props *conf = &nand->ecc.ctx.conf; + struct nand_ecc_props *reqs = &nand->ecc.requirements; + struct nand_ecc_props *user = &nand->ecc.user_conf; + struct mtd_info *mtd = nanddev_to_mtd(nand); + int step_size = 0, strength = 0, desired_correction = 0, steps; + bool ecc_user = false; + int cwperpage, bad_block_byte; + struct qpic_ecc *ecc_cfg; + + cwperpage = mtd->writesize / NANDC_STEP_SIZE; + + ecc_cfg = kzalloc(sizeof(*ecc_cfg), GFP_KERNEL); + if (!ecc_cfg) + return -ENOMEM; + + nand->ecc.ctx.priv = ecc_cfg; + + if (user->step_size && user->strength) { + step_size = user->step_size; + strength = user->strength; + ecc_user = true; + } else if (reqs->step_size && reqs->strength) { + step_size = reqs->step_size; + strength = reqs->strength; + } + + if (step_size && strength) { + steps = mtd->writesize / step_size; + desired_correction = steps * strength; + } + + ecc_cfg->ecc_bytes_hw = 7; + ecc_cfg->spare_bytes = 4; + ecc_cfg->bbm_size = 1; + ecc_cfg->bch_enabled = true; + ecc_cfg->bytes = ecc_cfg->ecc_bytes_hw + ecc_cfg->spare_bytes + ecc_cfg->bbm_size; + + ecc_cfg->steps = 4; + ecc_cfg->strength = 4; + ecc_cfg->step_size = 512; + + mtd_set_ooblayout(mtd, &qcom_snand_ooblayout); + + ecc_cfg->cw_data = 516; + ecc_cfg->cw_size = ecc_cfg->cw_data + ecc_cfg->bytes; + bad_block_byte = mtd->writesize - ecc_cfg->cw_size * (cwperpage - 1) + 1; + + ecc_cfg->cfg0 = (cwperpage - 1) << CW_PER_PAGE + | ecc_cfg->cw_data << UD_SIZE_BYTES + | 1 << DISABLE_STATUS_AFTER_WRITE + | 3 << NUM_ADDR_CYCLES + | ecc_cfg->ecc_bytes_hw << ECC_PARITY_SIZE_BYTES_RS + | 0 << STATUS_BFR_READ + | 1 << SET_RD_MODE_AFTER_STATUS + | ecc_cfg->spare_bytes << SPARE_SIZE_BYTES; + + ecc_cfg->cfg1 = 0 << NAND_RECOVERY_CYCLES + | 0 << CS_ACTIVE_BSY + | bad_block_byte << BAD_BLOCK_BYTE_NUM + | 0 << BAD_BLOCK_IN_SPARE_AREA + | 20 << WR_RD_BSY_GAP + | 0 << WIDE_FLASH + | ecc_cfg->bch_enabled << ENABLE_BCH_ECC; + + ecc_cfg->cfg0_raw = (cwperpage - 1) << CW_PER_PAGE + | ecc_cfg->cw_size << UD_SIZE_BYTES + | 3 << NUM_ADDR_CYCLES + | 0 << SPARE_SIZE_BYTES; + + ecc_cfg->cfg1_raw = 0 << NAND_RECOVERY_CYCLES + | 0 << CS_ACTIVE_BSY + | 17 << BAD_BLOCK_BYTE_NUM + | 1 << BAD_BLOCK_IN_SPARE_AREA + | 20 << WR_RD_BSY_GAP + | 0 << WIDE_FLASH + | 1 << DEV0_CFG1_ECC_DISABLE; + + ecc_cfg->ecc_bch_cfg = !ecc_cfg->bch_enabled << ECC_CFG_ECC_DISABLE + | 0 << ECC_SW_RESET + | ecc_cfg->cw_data << ECC_NUM_DATA_BYTES + | 1 << ECC_FORCE_CLK_OPEN + | 0 << ECC_MODE + | ecc_cfg->ecc_bytes_hw << ECC_PARITY_SIZE_BYTES_BCH; + + ecc_cfg->ecc_buf_cfg = 0x203 << NUM_STEPS; + ecc_cfg->clrflashstatus = FS_READY_BSY_N; + ecc_cfg->clrreadstatus = 0xc0; + + conf->step_size = ecc_cfg->step_size; + conf->strength = ecc_cfg->strength; + + if (ecc_cfg->strength < strength) + dev_warn(snandc->dev, "Unable to fulfill ECC requirements of %u bits.\n", strength); + + dev_info(snandc->dev, "ECC strength: %u bits per %u bytes\n", + ecc_cfg->strength, ecc_cfg->step_size); + + return 0; +} + +static void qpic_snand_ecc_cleanup_ctx_pipelined(struct nand_device *nand) +{ + struct qpic_ecc *ecc_cfg = nand_to_ecc_ctx(nand); + + kfree(ecc_cfg); +} + +static int qpic_snand_ecc_prepare_io_req_pipelined(struct nand_device *nand, + struct nand_page_io_req *req) +{ + struct qcom_nand_controller *snandc = nand_to_qcom_snand(nand); + struct qpic_ecc *ecc_cfg = nand_to_ecc_ctx(nand); + + snandc->ecc = ecc_cfg; + snandc->raw = false; + snandc->oob_read = false; + + if (req->mode == MTD_OPS_RAW) { + if (req->ooblen) + snandc->oob_read = true; + snandc->raw = true; + } + + return 0; +} + +static int qpic_snand_ecc_finish_io_req_pipelined(struct nand_device *nand, + struct nand_page_io_req *req) +{ + struct qcom_nand_controller *snandc = nand_to_qcom_snand(nand); + struct mtd_info *mtd = nanddev_to_mtd(nand); + + if (req->mode == MTD_OPS_RAW || req->type != NAND_PAGE_READ) + return 0; + + if (snandc->ecc_stats.failed) + mtd->ecc_stats.failed += snandc->ecc_stats.failed; + mtd->ecc_stats.corrected += snandc->ecc_stats.corrected; + + return snandc->ecc_stats.failed ? -EBADMSG : snandc->ecc_stats.bitflips; +} + +static struct nand_ecc_engine_ops qcom_snand_ecc_engine_ops_pipelined = { + .init_ctx = qpic_snand_ecc_init_ctx_pipelined, + .cleanup_ctx = qpic_snand_ecc_cleanup_ctx_pipelined, + .prepare_io_req = qpic_snand_ecc_prepare_io_req_pipelined, + .finish_io_req = qpic_snand_ecc_finish_io_req_pipelined, +}; + +/* helper to configure location register values */ +static void snandc_set_read_loc(struct qcom_nand_controller *snandc, int cw, int reg, + int cw_offset, int read_size, int is_last_read_loc) +{ + int reg_base = NAND_READ_LOCATION_0; + + if (cw == 3) + reg_base = NAND_READ_LOCATION_LAST_CW_0; + + reg_base += reg * 4; + + if (cw == 3) + return snandc_set_read_loc_last(snandc, reg_base, cw_offset, + read_size, is_last_read_loc); + else + return snandc_set_read_loc_first(snandc, reg_base, cw_offset, + read_size, is_last_read_loc); +} + +static void +snandc_config_cw_read(struct qcom_nand_controller *snandc, bool use_ecc, int cw) +{ + int reg = NAND_READ_LOCATION_0; + + if (cw == 3) + reg = NAND_READ_LOCATION_LAST_CW_0; + + if (snandc->props->is_bam) + write_reg_dma(snandc, reg, 4, NAND_BAM_NEXT_SGL); + + write_reg_dma(snandc, NAND_FLASH_CMD, 1, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_EXEC_CMD, 1, NAND_BAM_NEXT_SGL); + + read_reg_dma(snandc, NAND_FLASH_STATUS, 2, 0); + read_reg_dma(snandc, NAND_ERASED_CW_DETECT_STATUS, 1, + NAND_BAM_NEXT_SGL); +} + +static int qpic_snand_block_erase(struct qcom_nand_controller *snandc) +{ + struct qpic_ecc *ecc_cfg = snandc->ecc; + int ret; + + snandc->buf_count = 0; + snandc->buf_start = 0; + clear_read_regs(snandc); + clear_bam_transaction(snandc); + + snandc_set_reg(snandc, NAND_FLASH_CMD, snandc->cmd); + snandc_set_reg(snandc, NAND_ADDR0, snandc->addr1); + snandc_set_reg(snandc, NAND_ADDR1, snandc->addr2); + snandc_set_reg(snandc, NAND_DEV0_CFG0, ecc_cfg->cfg0_raw & ~(7 << CW_PER_PAGE)); + snandc_set_reg(snandc, NAND_DEV0_CFG1, ecc_cfg->cfg1_raw); + snandc_set_reg(snandc, NAND_EXEC_CMD, 1); + + write_reg_dma(snandc, NAND_FLASH_CMD, 3, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_DEV0_CFG0, 2, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_EXEC_CMD, 1, NAND_BAM_NEXT_SGL); + + ret = submit_descs(snandc); + if (ret) { + dev_err(snandc->dev, "failure to erase block\n"); + return ret; + } + + return 0; +} + +static void config_snand_single_cw_page_read(struct qcom_nand_controller *snandc, + bool use_ecc, int cw) +{ + int reg; + + write_reg_dma(snandc, NAND_ADDR0, 2, 0); + write_reg_dma(snandc, NAND_DEV0_CFG0, 3, 0); + write_reg_dma(snandc, NAND_ERASED_CW_DETECT_CFG, 1, 0); + write_reg_dma(snandc, NAND_ERASED_CW_DETECT_CFG, 1, + NAND_ERASED_CW_SET | NAND_BAM_NEXT_SGL); + + reg = NAND_READ_LOCATION_0; + if (cw == 3) + reg = NAND_READ_LOCATION_LAST_CW_0; + write_reg_dma(snandc, reg, 4, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_FLASH_CMD, 1, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_EXEC_CMD, 1, NAND_BAM_NEXT_SGL); + + read_reg_dma(snandc, NAND_FLASH_STATUS, 2, 0); + read_reg_dma(snandc, NAND_ERASED_CW_DETECT_STATUS, 1, NAND_BAM_NEXT_SGL); +} + +static int qpic_snand_read_oob(struct qcom_nand_controller *snandc, + const struct spi_mem_op *op) +{ + struct qpic_ecc *ecc_cfg = snandc->ecc; + u8 *oob_buf; + int size, ret; + int col, num_cw = 4, bbpos; + u32 cfg0, cfg1, ecc_bch_cfg; + + oob_buf = op->data.buf.in; + + clear_bam_transaction(snandc); + clear_read_regs(snandc); + + size = ecc_cfg->cw_size; + col = ecc_cfg->cw_size * (num_cw - 1); + + /* prepare a clean read buffer */ + memset(snandc->data_buffer, 0xff, size); + snandc_set_reg(snandc, NAND_ADDR0, (snandc->addr1 | col)); + snandc_set_reg(snandc, NAND_ADDR1, snandc->addr2); + + cfg0 = (ecc_cfg->cfg0_raw & ~(7U << CW_PER_PAGE)) | + 0 << CW_PER_PAGE; + cfg1 = ecc_cfg->cfg1_raw; + ecc_bch_cfg = 1 << ECC_CFG_ECC_DISABLE; + + snandc_set_reg(snandc, NAND_FLASH_CMD, snandc->cmd); + snandc_set_reg(snandc, NAND_DEV0_CFG0, cfg0); + snandc_set_reg(snandc, NAND_DEV0_CFG1, cfg1); + snandc_set_reg(snandc, NAND_DEV0_ECC_CFG, ecc_bch_cfg); + snandc_set_reg(snandc, NAND_EXEC_CMD, 1); + + config_snand_single_cw_page_read(snandc, false, num_cw - 1); + + read_data_dma(snandc, FLASH_BUF_ACC, snandc->data_buffer, size, 0); + + ret = submit_descs(snandc); + if (ret) + dev_err(snandc->dev, "failed to read oob\n"); + + nandc_read_buffer_sync(snandc, true); + u32 flash = le32_to_cpu(snandc->reg_read_buf[0]); + + if (flash & (FS_OP_ERR | FS_MPU_ERR)) + return -EIO; + + bbpos = 2048 - ecc_cfg->cw_size * (num_cw - 1); + memcpy(op->data.buf.in, snandc->data_buffer + bbpos, op->data.nbytes); + + return ret; +} + +static int snandc_check_error(struct qcom_nand_controller *snandc) +{ + struct snandc_read_status *buf; + int i, num_cw = 4; + bool serial_op_err = false, erased; + + nandc_read_buffer_sync(snandc, true); + buf = (struct snandc_read_status *)snandc->reg_read_buf; + + for (i = 0; i < num_cw; i++, buf++) { + u32 flash, buffer, erased_cw; + + flash = le32_to_cpu(buf->snandc_flash); + buffer = le32_to_cpu(buf->snandc_buffer); + erased_cw = le32_to_cpu(buf->snandc_erased_cw); + + if ((flash & FS_OP_ERR) && (buffer & BS_UNCORRECTABLE_BIT)) { + erased = (erased_cw & ERASED_CW) == ERASED_CW ? + true : false; + } else if (flash & (FS_OP_ERR | FS_MPU_ERR)) { + serial_op_err = true; + } + } + + if (serial_op_err) + return -EIO; + + return 0; +} + +static int qpic_snand_read_page_cache(struct qcom_nand_controller *snandc, + const struct spi_mem_op *op) +{ + struct qpic_ecc *ecc_cfg = snandc->ecc; + u8 *data_buf; + int ret, i; + u32 cfg0, cfg1, ecc_bch_cfg, num_cw = 4; + + data_buf = op->data.buf.in; + + if (snandc->oob_read) { + return qpic_snand_read_oob(snandc, op); + snandc->oob_read = false; + } + + snandc->buf_count = 0; + snandc->buf_start = 0; + clear_read_regs(snandc); + + cfg0 = (ecc_cfg->cfg0 & ~(7U << CW_PER_PAGE)) | + (num_cw - 1) << CW_PER_PAGE; + cfg1 = ecc_cfg->cfg1; + ecc_bch_cfg = ecc_cfg->ecc_bch_cfg; + + snandc_set_reg(snandc, NAND_ADDR0, snandc->addr1); + snandc_set_reg(snandc, NAND_ADDR1, snandc->addr2); + snandc_set_reg(snandc, NAND_FLASH_CMD, snandc->cmd); + snandc_set_reg(snandc, NAND_DEV0_CFG0, cfg0); + snandc_set_reg(snandc, NAND_DEV0_CFG1, cfg1); + snandc_set_reg(snandc, NAND_DEV0_ECC_CFG, ecc_bch_cfg); + snandc_set_reg(snandc, NAND_FLASH_STATUS, ecc_cfg->clrflashstatus); + snandc_set_reg(snandc, NAND_READ_STATUS, ecc_cfg->clrreadstatus); + snandc_set_reg(snandc, NAND_EXEC_CMD, 1); + snandc_set_read_loc(snandc, 0, 0, 0, ecc_cfg->cw_data, 1); + + clear_bam_transaction(snandc); + + write_reg_dma(snandc, NAND_ADDR0, 2, 0); + write_reg_dma(snandc, NAND_DEV0_CFG0, 3, 0); + write_reg_dma(snandc, NAND_ERASED_CW_DETECT_CFG, 1, 0); + write_reg_dma(snandc, NAND_ERASED_CW_DETECT_CFG, 1, + NAND_ERASED_CW_SET | NAND_BAM_NEXT_SGL); + + for (i = 0; i < num_cw; i++) { + int data_size; + + if (i == (num_cw - 1)) + data_size = 512 - ((num_cw - 1) << 2); + else + data_size = ecc_cfg->cw_data; + + if (data_buf) + snandc_set_read_loc(snandc, i, 0, 0, data_size, 1); + + snandc_config_cw_read(snandc, true, i); + + if (data_buf) + read_data_dma(snandc, FLASH_BUF_ACC, data_buf, + data_size, 0); + + if (data_buf) + data_buf += data_size; + } + + ret = submit_descs(snandc); + if (ret) { + dev_err(snandc->dev, "failure to read page/oob\n"); + return ret; + } + + return snandc_check_error(snandc); +} + +static void config_snand_page_write(struct qcom_nand_controller *snandc) +{ + write_reg_dma(snandc, NAND_ADDR0, 2, 0); + write_reg_dma(snandc, NAND_DEV0_CFG0, 3, 0); + write_reg_dma(snandc, NAND_EBI2_ECC_BUF_CFG, 1, NAND_BAM_NEXT_SGL); +} + +static void config_snand_cw_write(struct qcom_nand_controller *snandc) +{ + write_reg_dma(snandc, NAND_FLASH_CMD, 1, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_EXEC_CMD, 1, NAND_BAM_NEXT_SGL); +} + +static int qpic_snand_program_execute(struct qcom_nand_controller *snandc, + const struct spi_mem_op *op) +{ + struct qpic_ecc *ecc_cfg = snandc->ecc; + u8 *data_buf; + int i, ret; + int num_cw = 4; + u32 cfg0, cfg1, ecc_bch_cfg, ecc_buf_cfg; + + cfg0 = (ecc_cfg->cfg0 & ~(7U << CW_PER_PAGE)) | + (num_cw - 1) << CW_PER_PAGE; + cfg1 = ecc_cfg->cfg1; + ecc_bch_cfg = ecc_cfg->ecc_bch_cfg; + ecc_buf_cfg = ecc_cfg->ecc_buf_cfg; + + data_buf = (u8 *)snandc->wbuf; + + snandc->buf_count = 0; + snandc->buf_start = 0; + clear_read_regs(snandc); + clear_bam_transaction(snandc); + + snandc_set_reg(snandc, NAND_ADDR0, snandc->addr1); + snandc_set_reg(snandc, NAND_ADDR1, snandc->addr2); + snandc_set_reg(snandc, NAND_FLASH_CMD, snandc->cmd); + + snandc_set_reg(snandc, NAND_DEV0_CFG0, cfg0); + snandc_set_reg(snandc, NAND_DEV0_CFG1, cfg1); + snandc_set_reg(snandc, NAND_DEV0_ECC_CFG, ecc_bch_cfg); + + snandc_set_reg(snandc, NAND_EBI2_ECC_BUF_CFG, ecc_buf_cfg); + + snandc_set_reg(snandc, NAND_EXEC_CMD, 1); + + config_snand_page_write(snandc); + + for (i = 0; i < num_cw; i++) { + int data_size; + + if (i == (num_cw - 1)) + data_size = NANDC_STEP_SIZE - ((num_cw - 1) << 2); + else + data_size = ecc_cfg->cw_data; + + write_data_dma(snandc, FLASH_BUF_ACC, data_buf, data_size, + i == (num_cw - 1) ? NAND_BAM_NO_EOT : 0); + + config_snand_cw_write(snandc); + if (data_buf) + data_buf += data_size; + } + + ret = submit_descs(snandc); + if (ret) { + dev_err(snandc->dev, "failure to write page\n"); + return ret; + } + + return 0; +} + +static u32 qpic_snand_cmd_mapping(struct qcom_nand_controller *snandc, u32 opcode) +{ + u32 cmd = 0x0; + + switch (opcode) { + case SPINAND_RESET: + cmd = (SPI_WP | SPI_HOLD | SPI_TRANSFER_MODE_x1 | OP_RESET_DEVICE); + break; + case SPINAND_READID: + cmd = (SPI_WP | SPI_HOLD | SPI_TRANSFER_MODE_x1 | OP_FETCH_ID); + break; + case SPINAND_GET_FEATURE: + cmd = (SPI_TRANSFER_MODE_x1 | SPI_WP | SPI_HOLD | ACC_FEATURE); + break; + case SPINAND_SET_FEATURE: + cmd = (SPI_TRANSFER_MODE_x1 | SPI_WP | SPI_HOLD | ACC_FEATURE | + QPIC_SET_FEATURE); + break; + case SPINAND_READ: + if (snandc->raw) + cmd = (PAGE_ACC | LAST_PAGE | SPI_TRANSFER_MODE_x1 | + SPI_WP | SPI_HOLD | OP_PAGE_READ); + else + cmd = (PAGE_ACC | LAST_PAGE | SPI_TRANSFER_MODE_x1 | + SPI_WP | SPI_HOLD | OP_PAGE_READ_WITH_ECC); + break; + case SPINAND_ERASE: + cmd = OP_BLOCK_ERASE | PAGE_ACC | LAST_PAGE | SPI_WP | + SPI_HOLD | SPI_TRANSFER_MODE_x1; + break; + case SPINAND_WRITE_EN: + cmd = SPINAND_WRITE_EN; + break; + case SPINAND_PROGRAM_EXECUTE: + cmd = (PAGE_ACC | LAST_PAGE | SPI_TRANSFER_MODE_x1 | + SPI_WP | SPI_HOLD | OP_PROGRAM_PAGE); + break; + case SPINAND_PROGRAM_LOAD: + cmd = SPINAND_PROGRAM_LOAD; + break; + default: + break; + } + + return cmd; +} + +static int qpic_snand_write_page_cache(struct qcom_nand_controller *snandc, + const struct spi_mem_op *op) +{ + struct qpic_snand_op s_op = {}; + u32 cmd; + + cmd = qpic_snand_cmd_mapping(snandc, op->cmd.opcode); + s_op.cmd_reg = cmd; + + if (op->cmd.opcode == SPINAND_PROGRAM_LOAD) { + snandc->wbuf = op->data.buf.out; + snandc->wlen = op->data.nbytes; + } + + return 0; +} + +static int qpic_snand_send_cmdaddr(struct qcom_nand_controller *snandc, + const struct spi_mem_op *op) +{ + struct qpic_snand_op s_op = {}; + u32 cmd; + int ret; + + cmd = qpic_snand_cmd_mapping(snandc, op->cmd.opcode); + + s_op.cmd_reg = cmd; + s_op.addr1_reg = op->addr.val; + s_op.addr2_reg = 0; + + if (op->cmd.opcode == SPINAND_WRITE_EN) + return 0; + + if (op->cmd.opcode == SPINAND_PROGRAM_EXECUTE) { + s_op.addr1_reg = op->addr.val << 16; + s_op.addr2_reg = op->addr.val >> 16 & 0xff; + snandc->addr1 = s_op.addr1_reg; + snandc->addr2 = s_op.addr2_reg; + snandc->cmd = cmd; + return qpic_snand_program_execute(snandc, op); + } + + if (op->cmd.opcode == SPINAND_READ) { + s_op.addr1_reg = (op->addr.val << 16); + s_op.addr2_reg = op->addr.val >> 16 & 0xff; + snandc->addr1 = s_op.addr1_reg; + snandc->addr2 = s_op.addr2_reg; + snandc->cmd = cmd; + return 0; + } + + if (op->cmd.opcode == SPINAND_ERASE) { + s_op.addr2_reg = (op->addr.val >> 16) & 0xffff; + s_op.addr1_reg = op->addr.val; + snandc->addr1 = s_op.addr1_reg; + snandc->addr1 <<= 16; + snandc->addr2 = s_op.addr2_reg; + snandc->cmd = cmd; + qpic_snand_block_erase(snandc); + return 0; + } + + snandc->buf_count = 0; + snandc->buf_start = 0; + clear_read_regs(snandc); + clear_bam_transaction(snandc); + + snandc_set_reg(snandc, NAND_FLASH_CMD, s_op.cmd_reg); + snandc_set_reg(snandc, NAND_EXEC_CMD, 0x1); + snandc_set_reg(snandc, NAND_ADDR0, s_op.addr1_reg); + snandc_set_reg(snandc, NAND_ADDR1, s_op.addr2_reg); + + write_reg_dma(snandc, NAND_FLASH_CMD, 3, NAND_BAM_NEXT_SGL); + write_reg_dma(snandc, NAND_EXEC_CMD, 1, NAND_BAM_NEXT_SGL); + + ret = submit_descs(snandc); + if (ret) + dev_err(snandc->dev, "failure in sbumitting cmd descriptor\n"); + + return ret; +} + +static int qpic_snand_io_op(struct qcom_nand_controller *snandc, const struct spi_mem_op *op) +{ + int ret, val; + + ret = qpic_snand_send_cmdaddr(snandc, op); + if (ret) + return ret; + + snandc->buf_count = 0; + snandc->buf_start = 0; + clear_read_regs(snandc); + clear_bam_transaction(snandc); + + if (op->cmd.opcode == SPINAND_READID) { + snandc->buf_count = 4; + read_reg_dma(snandc, NAND_READ_ID, 1, NAND_BAM_NEXT_SGL); + + ret = submit_descs(snandc); + if (ret) + dev_err(snandc->dev, "failure in submitting descriptor for readid\n"); + + nandc_read_buffer_sync(snandc, true); + memcpy(op->data.buf.in, snandc->reg_read_buf, snandc->buf_count); + + return ret; + } + + if (op->cmd.opcode == SPINAND_GET_FEATURE) { + snandc->buf_count = 4; + read_reg_dma(snandc, NAND_FLASH_FEATURES, 1, NAND_BAM_NEXT_SGL); + + ret = submit_descs(snandc); + if (ret) + dev_err(snandc->dev, "failure in submitting descriptor for get feature\n"); + + nandc_read_buffer_sync(snandc, true); + + val = le32_to_cpu(*(__le32 *)snandc->reg_read_buf); + val >>= 8; + memcpy(op->data.buf.in, &val, snandc->buf_count); + } + + if (op->cmd.opcode == SPINAND_SET_FEATURE) { + snandc_set_reg(snandc, NAND_FLASH_FEATURES, *(u32 *)op->data.buf.out); + write_reg_dma(snandc, NAND_FLASH_FEATURES, 1, NAND_BAM_NEXT_SGL); + ret = submit_descs(snandc); + if (ret) + dev_err(snandc->dev, "failure in submitting descriptor for set feature\n"); + } + + return ret; +} + +static bool qpic_snand_is_page_op(const struct spi_mem_op *op) +{ + if (op->addr.buswidth != 1 && op->addr.buswidth != 2 && op->addr.buswidth != 4) + return false; + + if (op->data.dir == SPI_MEM_DATA_IN) { + if (op->addr.buswidth == 4 && op->data.buswidth == 4) + return true; + + if (op->addr.nbytes == 2 && op->addr.buswidth == 1) + return true; + + } else if (op->data.dir == SPI_MEM_DATA_OUT) { + if (op->data.buswidth == 4) + return true; + if (op->addr.nbytes == 2 && op->addr.buswidth == 1) + return true; + } + + return false; +} + +static bool qpic_snand_supports_op(struct spi_mem *mem, const struct spi_mem_op *op) +{ + if (!spi_mem_default_supports_op(mem, op)) + return false; + + if (op->cmd.nbytes != 1 || op->cmd.buswidth != 1) + return false; + + if (qpic_snand_is_page_op(op)) + return true; + + return ((op->addr.nbytes == 0 || op->addr.buswidth == 1) && + (op->dummy.nbytes == 0 || op->dummy.buswidth == 1) && + (op->data.nbytes == 0 || op->data.buswidth == 1)); +} + +static int qpic_snand_exec_op(struct spi_mem *mem, const struct spi_mem_op *op) +{ + struct qcom_nand_controller *snandc = spi_controller_get_devdata(mem->spi->controller); + + dev_dbg(snandc->dev, "OP %02x ADDR %08llX@%d:%u DATA %d:%u", op->cmd.opcode, + op->addr.val, op->addr.buswidth, op->addr.nbytes, + op->data.buswidth, op->data.nbytes); + + if (qpic_snand_is_page_op(op)) { + if (op->data.dir == SPI_MEM_DATA_IN) + return qpic_snand_read_page_cache(snandc, op); + if (op->data.dir == SPI_MEM_DATA_OUT) + return qpic_snand_write_page_cache(snandc, op); + } else { + return qpic_snand_io_op(snandc, op); + } + + return 0; +} + +static const struct spi_controller_mem_ops qcom_spi_mem_ops = { + .supports_op = qpic_snand_supports_op, + .exec_op = qpic_snand_exec_op, +}; + +static const struct spi_controller_mem_caps qcom_snand_mem_caps = { + .ecc = true, +}; + +static int qcom_snand_probe(struct platform_device *pdev) +{ + struct device *dev = &pdev->dev; + struct spi_controller *ctlr; + struct qcom_nand_controller *snandc; + struct resource *res; + const void *dev_data; + struct qpic_ecc *ecc; + int ret; + + ecc = devm_kzalloc(dev, sizeof(*ecc), GFP_KERNEL); + if (!ecc) + return -ENOMEM; + + ctlr = devm_spi_alloc_master(dev, sizeof(*snandc)); + if (!ctlr) + return -ENOMEM; + + platform_set_drvdata(pdev, ctlr); + + snandc = spi_controller_get_devdata(ctlr); + + snandc->ctlr = ctlr; + snandc->dev = dev; + snandc->ecc = ecc; + + dev_data = of_device_get_match_data(dev); + if (!dev_data) { + dev_err(&pdev->dev, "failed to get device data\n"); + return -ENODEV; + } + + snandc->props = dev_data; + snandc->dev = &pdev->dev; + + snandc->core_clk = devm_clk_get(dev, "core"); + if (IS_ERR(snandc->core_clk)) + return PTR_ERR(snandc->core_clk); + + snandc->aon_clk = devm_clk_get(dev, "aon"); + if (IS_ERR(snandc->aon_clk)) + return PTR_ERR(snandc->aon_clk); + + snandc->iomacro_clk = devm_clk_get(dev, "iom"); + if (IS_ERR(snandc->iomacro_clk)) + return PTR_ERR(snandc->iomacro_clk); + + snandc->base = devm_platform_get_and_ioremap_resource(pdev, 0, &res); + if (IS_ERR(snandc->base)) + return PTR_ERR(snandc->base); + + snandc->base_phys = res->start; + snandc->base_dma = dma_map_resource(dev, res->start, resource_size(res), + DMA_BIDIRECTIONAL, 0); + if (dma_mapping_error(dev, snandc->base_dma)) + return -ENXIO; + + ret = clk_prepare_enable(snandc->core_clk); + if (ret) + goto err_core_clk; + + ret = clk_prepare_enable(snandc->aon_clk); + if (ret) + goto err_aon_clk; + + ret = clk_prepare_enable(snandc->iomacro_clk); + if (ret) + goto err_snandc_alloc; + + ret = qcom_nandc_alloc(snandc); + if (ret) + goto err_snandc_alloc; + + ret = qcom_snand_init(snandc); + if (ret) + goto err_init; + + /* setup ECC engine */ + snandc->ecc_eng.dev = &pdev->dev; + snandc->ecc_eng.integration = NAND_ECC_ENGINE_INTEGRATION_PIPELINED; + snandc->ecc_eng.ops = &qcom_snand_ecc_engine_ops_pipelined; + snandc->ecc_eng.priv = snandc; + + ret = nand_ecc_register_on_host_hw_engine(&snandc->ecc_eng); + if (ret) { + dev_err(&pdev->dev, "failed to register ecc engine.\n"); + goto err_init; + } + + ctlr->num_chipselect = QPIC_QSPI_NUM_CS; + ctlr->mem_ops = &qcom_spi_mem_ops; + ctlr->mem_caps = &qcom_snand_mem_caps; + ctlr->dev.of_node = pdev->dev.of_node; + ctlr->mode_bits = SPI_TX_DUAL | SPI_RX_DUAL | + SPI_TX_QUAD | SPI_RX_QUAD; + + ret = spi_register_controller(ctlr); + if (ret) { + dev_err(&pdev->dev, "spi_register_controller failed.\n"); + goto err_init; + } + + return 0; + +err_init: + qcom_nandc_unalloc(snandc); +err_snandc_alloc: + clk_disable_unprepare(snandc->aon_clk); +err_aon_clk: + clk_disable_unprepare(snandc->core_clk); +err_core_clk: + dma_unmap_resource(dev, res->start, resource_size(res), + DMA_BIDIRECTIONAL, 0); + return ret; +} + +static int qcom_snand_remove(struct platform_device *pdev) +{ + struct spi_controller *ctlr = platform_get_drvdata(pdev); + + spi_unregister_controller(ctlr); + + return 0; +} + +static const struct qcom_nandc_props ipq9574_snandc_props = { + .dev_cmd_reg_start = 0x7000, + .is_bam = true, +}; + +static const struct of_device_id qcom_snandc_of_match[] = { + { + .compatible = "qcom,ipq9574-snand", + .data = &ipq9574_snandc_props, + }, + {} +} +MODULE_DEVICE_TABLE(of, qcom_snandc_of_match); + +static struct platform_driver qcom_snand_driver = { + .driver = { + .name = "qcom_snand", + .of_match_table = qcom_snandc_of_match, + }, + .probe = qcom_snand_probe, + .remove = qcom_snand_remove, +}; +module_platform_driver(qcom_snand_driver); + +MODULE_DESCRIPTION("SPI driver for QPIC QSPI cores"); +MODULE_AUTHOR("Md Sadre Alam "); +MODULE_LICENSE("GPL"); diff --git a/include/linux/mtd/nand-qpic-common.h b/include/linux/mtd/nand-qpic-common.h index 891f975ca173..76083561ea58 100644 --- a/include/linux/mtd/nand-qpic-common.h +++ b/include/linux/mtd/nand-qpic-common.h @@ -45,6 +45,9 @@ #define NAND_DEV_CMD1 0xa4 #define NAND_DEV_CMD2 0xa8 #define NAND_DEV_CMD_VLD 0xac +#define NAND_FLASH_SPI_CFG 0xc0 +#define NAND_NUM_ADDR_CYCLES 0xc4 +#define NAND_BUSY_CHECK_WAIT_CNT 0xc8 #define SFLASHC_BURST_CFG 0xe0 #define NAND_ERASED_CW_DETECT_CFG 0xe8 #define NAND_ERASED_CW_DETECT_STATUS 0xec @@ -61,6 +64,7 @@ #define NAND_READ_LOCATION_LAST_CW_1 0xf44 #define NAND_READ_LOCATION_LAST_CW_2 0xf48 #define NAND_READ_LOCATION_LAST_CW_3 0xf4c +#define NAND_FLASH_FEATURES 0xf64 /* dummy register offsets, used by write_reg_dma */ #define NAND_DEV_CMD1_RESTORE 0xdead @@ -169,6 +173,7 @@ #define OP_CHECK_STATUS 0xc #define OP_FETCH_ID 0xb #define OP_RESET_DEVICE 0xd +#define ACC_FEATURE 0xe /* Default Value for NAND_DEV_CMD_VLD */ #define NAND_DEV_CMD_VLD_VAL (READ_START_VLD | WRITE_START_VLD | \ @@ -329,11 +334,53 @@ struct nandc_regs { __le32 read_location_last1; __le32 read_location_last2; __le32 read_location_last3; + __le32 spi_cfg; + __le32 num_addr_cycle; + __le32 busy_wait_cnt; + __le32 flash_feature; __le32 erased_cw_detect_cfg_clr; __le32 erased_cw_detect_cfg_set; }; +struct qcom_ecc_stats { + u32 corrected; + u32 bitflips; + u32 failed; +}; + +/* + * QPIC ECC data struct + * + */ +struct qpic_ecc { + struct device *dev; + const struct qpic_ecc_caps *caps; + struct completion done; + u32 sectors; + u8 *eccdata; + bool use_ecc; + u32 ecc_modes; + int ecc_bytes_hw; + int spare_bytes; + int bbm_size; + int ecc_mode; + int bytes; + int steps; + int step_size; + int strength; + int cw_size; + int cw_data; + u32 cfg0, cfg1; + u32 cfg0_raw, cfg1_raw; + u32 ecc_buf_cfg; + u32 ecc_bch_cfg; + u32 clrflashstatus; + u32 clrreadstatus; + bool bch_enabled; +}; + +struct qpic_ecc; /* * NAND controller data struct * @@ -352,6 +399,7 @@ struct nandc_regs { * initialized via DT match data * * @controller: base controller structure + * @ctlr: spi controller structure * @host_list: list containing all the chips attached to the * controller * @@ -389,6 +437,7 @@ struct qcom_nand_controller { struct clk *core_clk; struct clk *aon_clk; + struct clk *iomacro_clk; struct nandc_regs *regs; struct bam_transaction *bam_txn; @@ -396,6 +445,7 @@ struct qcom_nand_controller { const struct qcom_nandc_props *props; struct nand_controller controller; + struct spi_controller *ctlr; struct list_head host_list; union { @@ -432,6 +482,16 @@ struct qcom_nand_controller { u32 cmd1, vld; bool exec_opwrite; + struct qpic_ecc *ecc; + struct qcom_ecc_stats ecc_stats; + struct nand_ecc_engine ecc_eng; + u8 *wbuf; + u32 wlen; + u32 addr1; + u32 addr2; + u32 cmd; + bool oob_read; + bool raw; }; /* @@ -484,5 +544,5 @@ void clear_bam_transaction(struct qcom_nand_controller *nandc); void qcom_nandc_unalloc(struct qcom_nand_controller *nandc); int qcom_nandc_alloc(struct qcom_nand_controller *nandc); struct qcom_nand_controller *get_qcom_nand_controller(struct nand_chip *chip); - +void snandc_set_reg(struct qcom_nand_controller *snandc, int offset, u32 val); #endif From patchwork Thu Feb 15 13:48:55 2024 Content-Type: text/plain; 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Thu, 15 Feb 2024 13:49:08 +0000 Received: from APBLRPPMTA01.qualcomm.com (APBLRPPMTA01.qualcomm.com [127.0.0.1]) by pps.reinject (8.17.1.5/8.17.1.5) with ESMTP id 41FDn8qK009929; Thu, 15 Feb 2024 13:49:08 GMT Received: from hu-devc-blr-u22-a.qualcomm.com (hu-mdalam-blr.qualcomm.com [10.131.36.157]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 41FDn8fw009922 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:08 +0000 Received: by hu-devc-blr-u22-a.qualcomm.com (Postfix, from userid 466583) id 6D721414AE; Thu, 15 Feb 2024 19:19:07 +0530 (+0530) From: Md Sadre Alam To: andersson@kernel.org, konrad.dybcio@linaro.org, broonie@kernel.org, robh@kernel.org, krzysztof.kozlowski+dt@linaro.org, conor+dt@kernel.org, miquel.raynal@bootlin.com, richard@nod.at, vigneshr@ti.com, manivannan.sadhasivam@linaro.org, linux-arm-msm@vger.kernel.org, linux-spi@vger.kernel.org, devicetree@vger.kernel.org, linux-kernel@vger.kernel.org, linux-mtd@lists.infradead.org Cc: quic_srichara@quicinc.com, quic_varada@quicinc.com, quic_mdalam@quicinc.com Subject: [PATCH 4/5] arm64: dts: qcom: ipq9574: Add SPI nand support Date: Thu, 15 Feb 2024 19:18:55 +0530 Message-Id: <20240215134856.1313239-5-quic_mdalam@quicinc.com> X-Mailer: git-send-email 2.34.1 In-Reply-To: <20240215134856.1313239-1-quic_mdalam@quicinc.com> References: <20240215134856.1313239-1-quic_mdalam@quicinc.com> Precedence: bulk X-Mailing-List: linux-spi@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 X-QCInternal: smtphost X-QCInternal: smtphost X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-GUID: aD-mdvpOgIgPD0lXegfx6Bn1HNnkZlxD X-Proofpoint-ORIG-GUID: aD-mdvpOgIgPD0lXegfx6Bn1HNnkZlxD X-Proofpoint-Virus-Version: vendor=baseguard engine=ICAP:2.0.272,Aquarius:18.0.1011,Hydra:6.0.619,FMLib:17.11.176.26 definitions=2024-02-15_12,2024-02-14_01,2023-05-22_02 X-Proofpoint-Spam-Details: rule=outbound_notspam policy=outbound score=0 clxscore=1015 spamscore=0 impostorscore=0 adultscore=0 mlxscore=0 phishscore=0 malwarescore=0 priorityscore=1501 suspectscore=0 bulkscore=0 mlxlogscore=848 lowpriorityscore=0 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.19.0-2401310000 definitions=main-2402150111 Add SPI NAND support for ipq9574 SoC. Signed-off-by: Md Sadre Alam --- .../boot/dts/qcom/ipq9574-rdp-common.dtsi | 43 +++++++++++++++++++ arch/arm64/boot/dts/qcom/ipq9574.dtsi | 27 ++++++++++++ 2 files changed, 70 insertions(+) diff --git a/arch/arm64/boot/dts/qcom/ipq9574-rdp-common.dtsi b/arch/arm64/boot/dts/qcom/ipq9574-rdp-common.dtsi index 91e104b0f865..5b54a027fa5d 100644 --- a/arch/arm64/boot/dts/qcom/ipq9574-rdp-common.dtsi +++ b/arch/arm64/boot/dts/qcom/ipq9574-rdp-common.dtsi @@ -139,6 +139,49 @@ gpio_leds_default: gpio-leds-default-state { drive-strength = <8>; bias-pull-up; }; + + qpic_snand_default_state: qpic-snand-default-state { + clock-pins { + pins = "gpio5"; + function = "qspi_clk"; + drive-strength = <8>; + bias-disable; + }; + + cs-pins { + pins = "gpio4"; + function = "qspi_cs"; + drive-strength = <8>; + bias-disable; + }; + + data-pins { + pins = "gpio0", "gpio1", "gpio2"; + function = "qspi_data"; + drive-strength = <8>; + bias-disable; + }; + }; +}; + +&qpic_bam { + status = "okay"; +}; + +&qpic_nand { + pinctrl-0 = <&qpic_snand_default_state>; + pinctrl-names = "default"; + status = "okay"; + + flash@0 { + compatible = "spi-nand"; + reg = <0>; + #address-cells = <1>; + #size-cells = <1>; + nand-ecc-engine = <&qpic_nand>; + nand-ecc-strength = <4>; + nand-ecc-step-size = <512>; + }; }; &usb_0_dwc3 { diff --git a/arch/arm64/boot/dts/qcom/ipq9574.dtsi b/arch/arm64/boot/dts/qcom/ipq9574.dtsi index 7f2e5cbf3bbb..d963dd2035dd 100644 --- a/arch/arm64/boot/dts/qcom/ipq9574.dtsi +++ b/arch/arm64/boot/dts/qcom/ipq9574.dtsi @@ -319,6 +319,33 @@ tcsr: syscon@1937000 { reg = <0x01937000 0x21000>; }; + qpic_bam: dma-controller@7984000 { + compatible = "qcom,bam-v1.7.0"; + reg = <0x7984000 0x1c000>; + interrupts = ; + clocks = <&gcc GCC_QPIC_AHB_CLK>; + clock-names = "bam_clk"; + #dma-cells = <1>; + qcom,ee = <0>; + status = "disabled"; + }; + + qpic_nand: spi@79b0000 { + compatible = "qcom,ipq9574-snand"; + reg = <0x79b0000 0x10000>; + #address-cells = <1>; + #size-cells = <0>; + clocks = <&gcc GCC_QPIC_CLK>, + <&gcc GCC_QPIC_AHB_CLK>, + <&gcc GCC_QPIC_IO_MACRO_CLK>; + clock-names = "core", "aon", "iom"; + dmas = <&qpic_bam 0>, + <&qpic_bam 1>, + <&qpic_bam 2>; + dma-names = "tx", "rx", "cmd"; + status = "disabled"; + }; + sdhc_1: mmc@7804000 { compatible = "qcom,ipq9574-sdhci", "qcom,sdhci-msm-v5"; reg = <0x07804000 0x1000>, From patchwork Thu Feb 15 13:48:56 2024 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Md Sadre Alam X-Patchwork-Id: 773918 Received: from mx0a-0031df01.pphosted.com (mx0a-0031df01.pphosted.com [205.220.168.131]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.subspace.kernel.org (Postfix) with ESMTPS id 36242131747; Thu, 15 Feb 2024 13:49:35 +0000 (UTC) Authentication-Results: smtp.subspace.kernel.org; arc=none smtp.client-ip=205.220.168.131 ARC-Seal: i=1; a=rsa-sha256; d=subspace.kernel.org; s=arc-20240116; t=1708004976; cv=none; b=e2hHfMP91O5wRRGGYKr1X9IsJv/MIlQ0HHIA8uHJQJ69UQ7jnqD5axo6Of8izbyaPNMs8Q4d63kLT8+RHu1F1eVQjQPT9q/PPAY/7TQQ0cNI8O2b2XURLYF6tF8uzXtYVVTHhg4WZlxGQEA8s6u1ZYYfoA2f0LtHvl0y/LOBH6g= ARC-Message-Signature: i=1; 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Thu, 15 Feb 2024 13:49:09 GMT Received: from pps.reinject (localhost [127.0.0.1]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 3w627mb92m-1 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:09 +0000 Received: from APBLRPPMTA01.qualcomm.com (APBLRPPMTA01.qualcomm.com [127.0.0.1]) by pps.reinject (8.17.1.5/8.17.1.5) with ESMTP id 41FDn9WG009974; Thu, 15 Feb 2024 13:49:09 GMT Received: from hu-devc-blr-u22-a.qualcomm.com (hu-mdalam-blr.qualcomm.com [10.131.36.157]) by APBLRPPMTA01.qualcomm.com (PPS) with ESMTPS id 41FDn90t009973 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=NOT); Thu, 15 Feb 2024 13:49:09 +0000 Received: by hu-devc-blr-u22-a.qualcomm.com (Postfix, from userid 466583) id 70F8C415ED; Thu, 15 Feb 2024 19:19:07 +0530 (+0530) From: Md Sadre Alam To: andersson@kernel.org, konrad.dybcio@linaro.org, broonie@kernel.org, robh@kernel.org, krzysztof.kozlowski+dt@linaro.org, conor+dt@kernel.org, miquel.raynal@bootlin.com, richard@nod.at, vigneshr@ti.com, manivannan.sadhasivam@linaro.org, linux-arm-msm@vger.kernel.org, linux-spi@vger.kernel.org, devicetree@vger.kernel.org, linux-kernel@vger.kernel.org, linux-mtd@lists.infradead.org Cc: quic_srichara@quicinc.com, quic_varada@quicinc.com, quic_mdalam@quicinc.com Subject: [PATCH 5/5] arm64: dts: qcom: ipq9574: Disable eMMC node Date: Thu, 15 Feb 2024 19:18:56 +0530 Message-Id: <20240215134856.1313239-6-quic_mdalam@quicinc.com> X-Mailer: git-send-email 2.34.1 In-Reply-To: <20240215134856.1313239-1-quic_mdalam@quicinc.com> References: <20240215134856.1313239-1-quic_mdalam@quicinc.com> Precedence: bulk X-Mailing-List: linux-spi@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 X-QCInternal: smtphost X-QCInternal: smtphost X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-Virus-Version: vendor=nai engine=6200 definitions=5800 signatures=585085 X-Proofpoint-GUID: 1QBL-_SnkUpxoedTM1dtZRlyxDp3CRQP X-Proofpoint-ORIG-GUID: 1QBL-_SnkUpxoedTM1dtZRlyxDp3CRQP X-Proofpoint-Virus-Version: vendor=baseguard engine=ICAP:2.0.272,Aquarius:18.0.1011,Hydra:6.0.619,FMLib:17.11.176.26 definitions=2024-02-15_12,2024-02-14_01,2023-05-22_02 X-Proofpoint-Spam-Details: rule=outbound_notspam policy=outbound score=0 phishscore=0 mlxscore=0 mlxlogscore=631 lowpriorityscore=0 impostorscore=0 malwarescore=0 bulkscore=0 clxscore=1015 spamscore=0 suspectscore=0 adultscore=0 priorityscore=1501 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.19.0-2401310000 definitions=main-2402150111 Disable eMMC node for rdp433, since rdp433 default boot mode is norplusnand. Co-developed-by: Sricharan Ramabadhran Signed-off-by: Sricharan Ramabadhran Co-developed-by: Varadarajan Narayanan Signed-off-by: Varadarajan Narayanan Signed-off-by: Md Sadre Alam --- arch/arm64/boot/dts/qcom/ipq9574-rdp433.dts | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/arch/arm64/boot/dts/qcom/ipq9574-rdp433.dts b/arch/arm64/boot/dts/qcom/ipq9574-rdp433.dts index 1bb8d96c9a82..e33e7fafd695 100644 --- a/arch/arm64/boot/dts/qcom/ipq9574-rdp433.dts +++ b/arch/arm64/boot/dts/qcom/ipq9574-rdp433.dts @@ -24,7 +24,7 @@ &sdhc_1 { mmc-hs400-enhanced-strobe; max-frequency = <384000000>; bus-width = <8>; - status = "okay"; + status = "disabled"; }; &tlmm {