1a5356aefSYogesh Narayan Gaur // SPDX-License-Identifier: GPL-2.0+ 2a5356aefSYogesh Narayan Gaur 3a5356aefSYogesh Narayan Gaur /* 4a5356aefSYogesh Narayan Gaur * NXP FlexSPI(FSPI) controller driver. 5a5356aefSYogesh Narayan Gaur * 655ab8487Skuldip dwivedi * Copyright 2019-2020 NXP 755ab8487Skuldip dwivedi * Copyright 2020 Puresoftware Ltd. 8a5356aefSYogesh Narayan Gaur * 9a5356aefSYogesh Narayan Gaur * FlexSPI is a flexsible SPI host controller which supports two SPI 10a5356aefSYogesh Narayan Gaur * channels and up to 4 external devices. Each channel supports 11a5356aefSYogesh Narayan Gaur * Single/Dual/Quad/Octal mode data transfer (1/2/4/8 bidirectional 12a5356aefSYogesh Narayan Gaur * data lines). 13a5356aefSYogesh Narayan Gaur * 14a5356aefSYogesh Narayan Gaur * FlexSPI controller is driven by the LUT(Look-up Table) registers 15a5356aefSYogesh Narayan Gaur * LUT registers are a look-up-table for sequences of instructions. 16a5356aefSYogesh Narayan Gaur * A valid sequence consists of four LUT registers. 17a5356aefSYogesh Narayan Gaur * Maximum 32 LUT sequences can be programmed simultaneously. 18a5356aefSYogesh Narayan Gaur * 19a5356aefSYogesh Narayan Gaur * LUTs are being created at run-time based on the commands passed 20a5356aefSYogesh Narayan Gaur * from the spi-mem framework, thus using single LUT index. 21a5356aefSYogesh Narayan Gaur * 22a5356aefSYogesh Narayan Gaur * Software triggered Flash read/write access by IP Bus. 23a5356aefSYogesh Narayan Gaur * 24a5356aefSYogesh Narayan Gaur * Memory mapped read access by AHB Bus. 25a5356aefSYogesh Narayan Gaur * 26a5356aefSYogesh Narayan Gaur * Based on SPI MEM interface and spi-fsl-qspi.c driver. 27a5356aefSYogesh Narayan Gaur * 28a5356aefSYogesh Narayan Gaur * Author: 29a5356aefSYogesh Narayan Gaur * Yogesh Narayan Gaur <yogeshnarayan.gaur@nxp.com> 30ce6f0697SYogesh Narayan Gaur * Boris Brezillon <bbrezillon@kernel.org> 31a5356aefSYogesh Narayan Gaur * Frieder Schrempf <frieder.schrempf@kontron.de> 32a5356aefSYogesh Narayan Gaur */ 33a5356aefSYogesh Narayan Gaur 3455ab8487Skuldip dwivedi #include <linux/acpi.h> 35a5356aefSYogesh Narayan Gaur #include <linux/bitops.h> 3667a12ae5SMichael Walle #include <linux/bitfield.h> 37a5356aefSYogesh Narayan Gaur #include <linux/clk.h> 38a5356aefSYogesh Narayan Gaur #include <linux/completion.h> 39a5356aefSYogesh Narayan Gaur #include <linux/delay.h> 40a5356aefSYogesh Narayan Gaur #include <linux/err.h> 41a5356aefSYogesh Narayan Gaur #include <linux/errno.h> 42a5356aefSYogesh Narayan Gaur #include <linux/interrupt.h> 43a5356aefSYogesh Narayan Gaur #include <linux/io.h> 44a5356aefSYogesh Narayan Gaur #include <linux/iopoll.h> 45a5356aefSYogesh Narayan Gaur #include <linux/jiffies.h> 46a5356aefSYogesh Narayan Gaur #include <linux/kernel.h> 47a5356aefSYogesh Narayan Gaur #include <linux/module.h> 48a5356aefSYogesh Narayan Gaur #include <linux/mutex.h> 49a5356aefSYogesh Narayan Gaur #include <linux/of.h> 50a5356aefSYogesh Narayan Gaur #include <linux/of_device.h> 51a5356aefSYogesh Narayan Gaur #include <linux/platform_device.h> 52a5356aefSYogesh Narayan Gaur #include <linux/pm_qos.h> 5382ce7d0eSKuldeep Singh #include <linux/regmap.h> 54a5356aefSYogesh Narayan Gaur #include <linux/sizes.h> 5582ce7d0eSKuldeep Singh #include <linux/sys_soc.h> 56a5356aefSYogesh Narayan Gaur 5782ce7d0eSKuldeep Singh #include <linux/mfd/syscon.h> 58a5356aefSYogesh Narayan Gaur #include <linux/spi/spi.h> 59a5356aefSYogesh Narayan Gaur #include <linux/spi/spi-mem.h> 60a5356aefSYogesh Narayan Gaur 61a5356aefSYogesh Narayan Gaur /* 62a5356aefSYogesh Narayan Gaur * The driver only uses one single LUT entry, that is updated on 63a5356aefSYogesh Narayan Gaur * each call of exec_op(). Index 0 is preset at boot with a basic 64a5356aefSYogesh Narayan Gaur * read operation, so let's use the last entry (31). 65a5356aefSYogesh Narayan Gaur */ 66a5356aefSYogesh Narayan Gaur #define SEQID_LUT 31 67a5356aefSYogesh Narayan Gaur 68a5356aefSYogesh Narayan Gaur /* Registers used by the driver */ 69a5356aefSYogesh Narayan Gaur #define FSPI_MCR0 0x00 70a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_AHB_TIMEOUT(x) ((x) << 24) 71a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_IP_TIMEOUT(x) ((x) << 16) 72a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_LEARN_EN BIT(15) 73a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_SCRFRUN_EN BIT(14) 74a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_OCTCOMB_EN BIT(13) 75a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_DOZE_EN BIT(12) 76a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_HSEN BIT(11) 77a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_SERCLKDIV BIT(8) 78a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_ATDF_EN BIT(7) 79a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_ARDF_EN BIT(6) 80a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_RXCLKSRC(x) ((x) << 4) 81a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_END_CFG(x) ((x) << 2) 82a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_MDIS BIT(1) 83a5356aefSYogesh Narayan Gaur #define FSPI_MCR0_SWRST BIT(0) 84a5356aefSYogesh Narayan Gaur 85a5356aefSYogesh Narayan Gaur #define FSPI_MCR1 0x04 86a5356aefSYogesh Narayan Gaur #define FSPI_MCR1_SEQ_TIMEOUT(x) ((x) << 16) 87a5356aefSYogesh Narayan Gaur #define FSPI_MCR1_AHB_TIMEOUT(x) (x) 88a5356aefSYogesh Narayan Gaur 89a5356aefSYogesh Narayan Gaur #define FSPI_MCR2 0x08 90a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_IDLE_WAIT(x) ((x) << 24) 91a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_SAMEDEVICEEN BIT(15) 92a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_CLRLRPHS BIT(14) 93a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABRDATSZ BIT(8) 94a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABRLEARN BIT(7) 95a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABR_READ BIT(6) 96a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABRWRITE BIT(5) 97a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABRDUMMY BIT(4) 98a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABR_MODE BIT(3) 99a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABRCADDR BIT(2) 100a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABRRADDR BIT(1) 101a5356aefSYogesh Narayan Gaur #define FSPI_MCR2_ABR_CMD BIT(0) 102a5356aefSYogesh Narayan Gaur 103a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR 0x0c 104a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_RDADDROPT BIT(6) 105a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_PREF_EN BIT(5) 106a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_BUFF_EN BIT(4) 107a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_CACH_EN BIT(3) 108a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_CLRTXBUF BIT(2) 109a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_CLRRXBUF BIT(1) 110a5356aefSYogesh Narayan Gaur #define FSPI_AHBCR_PAR_EN BIT(0) 111a5356aefSYogesh Narayan Gaur 112a5356aefSYogesh Narayan Gaur #define FSPI_INTEN 0x10 113a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_SCLKSBWR BIT(9) 114a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_SCLKSBRD BIT(8) 115a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_DATALRNFL BIT(7) 116a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_IPTXWE BIT(6) 117a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_IPRXWA BIT(5) 118a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_AHBCMDERR BIT(4) 119a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_IPCMDERR BIT(3) 120a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_AHBCMDGE BIT(2) 121a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_IPCMDGE BIT(1) 122a5356aefSYogesh Narayan Gaur #define FSPI_INTEN_IPCMDDONE BIT(0) 123a5356aefSYogesh Narayan Gaur 124a5356aefSYogesh Narayan Gaur #define FSPI_INTR 0x14 125a5356aefSYogesh Narayan Gaur #define FSPI_INTR_SCLKSBWR BIT(9) 126a5356aefSYogesh Narayan Gaur #define FSPI_INTR_SCLKSBRD BIT(8) 127a5356aefSYogesh Narayan Gaur #define FSPI_INTR_DATALRNFL BIT(7) 128a5356aefSYogesh Narayan Gaur #define FSPI_INTR_IPTXWE BIT(6) 129a5356aefSYogesh Narayan Gaur #define FSPI_INTR_IPRXWA BIT(5) 130a5356aefSYogesh Narayan Gaur #define FSPI_INTR_AHBCMDERR BIT(4) 131a5356aefSYogesh Narayan Gaur #define FSPI_INTR_IPCMDERR BIT(3) 132a5356aefSYogesh Narayan Gaur #define FSPI_INTR_AHBCMDGE BIT(2) 133a5356aefSYogesh Narayan Gaur #define FSPI_INTR_IPCMDGE BIT(1) 134a5356aefSYogesh Narayan Gaur #define FSPI_INTR_IPCMDDONE BIT(0) 135a5356aefSYogesh Narayan Gaur 136a5356aefSYogesh Narayan Gaur #define FSPI_LUTKEY 0x18 137a5356aefSYogesh Narayan Gaur #define FSPI_LUTKEY_VALUE 0x5AF05AF0 138a5356aefSYogesh Narayan Gaur 139a5356aefSYogesh Narayan Gaur #define FSPI_LCKCR 0x1C 140a5356aefSYogesh Narayan Gaur 141a5356aefSYogesh Narayan Gaur #define FSPI_LCKER_LOCK 0x1 142a5356aefSYogesh Narayan Gaur #define FSPI_LCKER_UNLOCK 0x2 143a5356aefSYogesh Narayan Gaur 144a5356aefSYogesh Narayan Gaur #define FSPI_BUFXCR_INVALID_MSTRID 0xE 145a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF0CR0 0x20 146a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF1CR0 0x24 147a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF2CR0 0x28 148a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF3CR0 0x2C 149a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF4CR0 0x30 150a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF5CR0 0x34 151a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF6CR0 0x38 152a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF7CR0 0x3C 153a5356aefSYogesh Narayan Gaur #define FSPI_AHBRXBUF0CR7_PREF BIT(31) 154a5356aefSYogesh Narayan Gaur 155a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF0CR1 0x40 156a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF1CR1 0x44 157a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF2CR1 0x48 158a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF3CR1 0x4C 159a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF4CR1 0x50 160a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF5CR1 0x54 161a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF6CR1 0x58 162a5356aefSYogesh Narayan Gaur #define FSPI_AHBRX_BUF7CR1 0x5C 163a5356aefSYogesh Narayan Gaur 164a5356aefSYogesh Narayan Gaur #define FSPI_FLSHA1CR0 0x60 165a5356aefSYogesh Narayan Gaur #define FSPI_FLSHA2CR0 0x64 166a5356aefSYogesh Narayan Gaur #define FSPI_FLSHB1CR0 0x68 167a5356aefSYogesh Narayan Gaur #define FSPI_FLSHB2CR0 0x6C 168a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR0_SZ_KB 10 169a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR0_SZ(x) ((x) >> FSPI_FLSHXCR0_SZ_KB) 170a5356aefSYogesh Narayan Gaur 171a5356aefSYogesh Narayan Gaur #define FSPI_FLSHA1CR1 0x70 172a5356aefSYogesh Narayan Gaur #define FSPI_FLSHA2CR1 0x74 173a5356aefSYogesh Narayan Gaur #define FSPI_FLSHB1CR1 0x78 174a5356aefSYogesh Narayan Gaur #define FSPI_FLSHB2CR1 0x7C 175a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR1_CSINTR(x) ((x) << 16) 176a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR1_CAS(x) ((x) << 11) 177a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR1_WA BIT(10) 178a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR1_TCSH(x) ((x) << 5) 179a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR1_TCSS(x) (x) 180a5356aefSYogesh Narayan Gaur 181a5356aefSYogesh Narayan Gaur #define FSPI_FLSHA1CR2 0x80 182a5356aefSYogesh Narayan Gaur #define FSPI_FLSHA2CR2 0x84 183a5356aefSYogesh Narayan Gaur #define FSPI_FLSHB1CR2 0x88 184a5356aefSYogesh Narayan Gaur #define FSPI_FLSHB2CR2 0x8C 185a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR2_CLRINSP BIT(24) 186a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR2_AWRWAIT BIT(16) 187a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR2_AWRSEQN_SHIFT 13 188a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR2_AWRSEQI_SHIFT 8 189a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR2_ARDSEQN_SHIFT 5 190a5356aefSYogesh Narayan Gaur #define FSPI_FLSHXCR2_ARDSEQI_SHIFT 0 191a5356aefSYogesh Narayan Gaur 192a5356aefSYogesh Narayan Gaur #define FSPI_IPCR0 0xA0 193a5356aefSYogesh Narayan Gaur 194a5356aefSYogesh Narayan Gaur #define FSPI_IPCR1 0xA4 195a5356aefSYogesh Narayan Gaur #define FSPI_IPCR1_IPAREN BIT(31) 196a5356aefSYogesh Narayan Gaur #define FSPI_IPCR1_SEQNUM_SHIFT 24 197a5356aefSYogesh Narayan Gaur #define FSPI_IPCR1_SEQID_SHIFT 16 198a5356aefSYogesh Narayan Gaur #define FSPI_IPCR1_IDATSZ(x) (x) 199a5356aefSYogesh Narayan Gaur 200a5356aefSYogesh Narayan Gaur #define FSPI_IPCMD 0xB0 201a5356aefSYogesh Narayan Gaur #define FSPI_IPCMD_TRG BIT(0) 202a5356aefSYogesh Narayan Gaur 203a5356aefSYogesh Narayan Gaur #define FSPI_DLPR 0xB4 204a5356aefSYogesh Narayan Gaur 205a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFCR 0xB8 206a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFCR_CLR BIT(0) 207a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFCR_DMA_EN BIT(1) 208a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFCR_WMRK(x) ((x) << 2) 209a5356aefSYogesh Narayan Gaur 210a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFCR 0xBC 211a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFCR_CLR BIT(0) 212a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFCR_DMA_EN BIT(1) 213a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFCR_WMRK(x) ((x) << 2) 214a5356aefSYogesh Narayan Gaur 215a5356aefSYogesh Narayan Gaur #define FSPI_DLLACR 0xC0 216a5356aefSYogesh Narayan Gaur #define FSPI_DLLACR_OVRDEN BIT(8) 217a5356aefSYogesh Narayan Gaur 218a5356aefSYogesh Narayan Gaur #define FSPI_DLLBCR 0xC4 219a5356aefSYogesh Narayan Gaur #define FSPI_DLLBCR_OVRDEN BIT(8) 220a5356aefSYogesh Narayan Gaur 221a5356aefSYogesh Narayan Gaur #define FSPI_STS0 0xE0 222a5356aefSYogesh Narayan Gaur #define FSPI_STS0_DLPHB(x) ((x) << 8) 223a5356aefSYogesh Narayan Gaur #define FSPI_STS0_DLPHA(x) ((x) << 4) 224a5356aefSYogesh Narayan Gaur #define FSPI_STS0_CMD_SRC(x) ((x) << 2) 225a5356aefSYogesh Narayan Gaur #define FSPI_STS0_ARB_IDLE BIT(1) 226a5356aefSYogesh Narayan Gaur #define FSPI_STS0_SEQ_IDLE BIT(0) 227a5356aefSYogesh Narayan Gaur 228a5356aefSYogesh Narayan Gaur #define FSPI_STS1 0xE4 229a5356aefSYogesh Narayan Gaur #define FSPI_STS1_IP_ERRCD(x) ((x) << 24) 230a5356aefSYogesh Narayan Gaur #define FSPI_STS1_IP_ERRID(x) ((x) << 16) 231a5356aefSYogesh Narayan Gaur #define FSPI_STS1_AHB_ERRCD(x) ((x) << 8) 232a5356aefSYogesh Narayan Gaur #define FSPI_STS1_AHB_ERRID(x) (x) 233a5356aefSYogesh Narayan Gaur 234a5356aefSYogesh Narayan Gaur #define FSPI_AHBSPNST 0xEC 235a5356aefSYogesh Narayan Gaur #define FSPI_AHBSPNST_DATLFT(x) ((x) << 16) 236a5356aefSYogesh Narayan Gaur #define FSPI_AHBSPNST_BUFID(x) ((x) << 1) 237a5356aefSYogesh Narayan Gaur #define FSPI_AHBSPNST_ACTIVE BIT(0) 238a5356aefSYogesh Narayan Gaur 239a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFSTS 0xF0 240a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFSTS_RDCNTR(x) ((x) << 16) 241a5356aefSYogesh Narayan Gaur #define FSPI_IPRXFSTS_FILL(x) (x) 242a5356aefSYogesh Narayan Gaur 243a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFSTS 0xF4 244a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFSTS_WRCNTR(x) ((x) << 16) 245a5356aefSYogesh Narayan Gaur #define FSPI_IPTXFSTS_FILL(x) (x) 246a5356aefSYogesh Narayan Gaur 247a5356aefSYogesh Narayan Gaur #define FSPI_RFDR 0x100 248a5356aefSYogesh Narayan Gaur #define FSPI_TFDR 0x180 249a5356aefSYogesh Narayan Gaur 250a5356aefSYogesh Narayan Gaur #define FSPI_LUT_BASE 0x200 251a5356aefSYogesh Narayan Gaur #define FSPI_LUT_OFFSET (SEQID_LUT * 4 * 4) 252a5356aefSYogesh Narayan Gaur #define FSPI_LUT_REG(idx) \ 253a5356aefSYogesh Narayan Gaur (FSPI_LUT_BASE + FSPI_LUT_OFFSET + (idx) * 4) 254a5356aefSYogesh Narayan Gaur 255a5356aefSYogesh Narayan Gaur /* register map end */ 256a5356aefSYogesh Narayan Gaur 257a5356aefSYogesh Narayan Gaur /* Instruction set for the LUT register. */ 258a5356aefSYogesh Narayan Gaur #define LUT_STOP 0x00 259a5356aefSYogesh Narayan Gaur #define LUT_CMD 0x01 260a5356aefSYogesh Narayan Gaur #define LUT_ADDR 0x02 261a5356aefSYogesh Narayan Gaur #define LUT_CADDR_SDR 0x03 262a5356aefSYogesh Narayan Gaur #define LUT_MODE 0x04 263a5356aefSYogesh Narayan Gaur #define LUT_MODE2 0x05 264a5356aefSYogesh Narayan Gaur #define LUT_MODE4 0x06 265a5356aefSYogesh Narayan Gaur #define LUT_MODE8 0x07 266a5356aefSYogesh Narayan Gaur #define LUT_NXP_WRITE 0x08 267a5356aefSYogesh Narayan Gaur #define LUT_NXP_READ 0x09 268a5356aefSYogesh Narayan Gaur #define LUT_LEARN_SDR 0x0A 269a5356aefSYogesh Narayan Gaur #define LUT_DATSZ_SDR 0x0B 270a5356aefSYogesh Narayan Gaur #define LUT_DUMMY 0x0C 271a5356aefSYogesh Narayan Gaur #define LUT_DUMMY_RWDS_SDR 0x0D 272a5356aefSYogesh Narayan Gaur #define LUT_JMP_ON_CS 0x1F 273a5356aefSYogesh Narayan Gaur #define LUT_CMD_DDR 0x21 274a5356aefSYogesh Narayan Gaur #define LUT_ADDR_DDR 0x22 275a5356aefSYogesh Narayan Gaur #define LUT_CADDR_DDR 0x23 276a5356aefSYogesh Narayan Gaur #define LUT_MODE_DDR 0x24 277a5356aefSYogesh Narayan Gaur #define LUT_MODE2_DDR 0x25 278a5356aefSYogesh Narayan Gaur #define LUT_MODE4_DDR 0x26 279a5356aefSYogesh Narayan Gaur #define LUT_MODE8_DDR 0x27 280a5356aefSYogesh Narayan Gaur #define LUT_WRITE_DDR 0x28 281a5356aefSYogesh Narayan Gaur #define LUT_READ_DDR 0x29 282a5356aefSYogesh Narayan Gaur #define LUT_LEARN_DDR 0x2A 283a5356aefSYogesh Narayan Gaur #define LUT_DATSZ_DDR 0x2B 284a5356aefSYogesh Narayan Gaur #define LUT_DUMMY_DDR 0x2C 285a5356aefSYogesh Narayan Gaur #define LUT_DUMMY_RWDS_DDR 0x2D 286a5356aefSYogesh Narayan Gaur 287a5356aefSYogesh Narayan Gaur /* 288a5356aefSYogesh Narayan Gaur * Calculate number of required PAD bits for LUT register. 289a5356aefSYogesh Narayan Gaur * 290a5356aefSYogesh Narayan Gaur * The pad stands for the number of IO lines [0:7]. 291a5356aefSYogesh Narayan Gaur * For example, the octal read needs eight IO lines, 292a5356aefSYogesh Narayan Gaur * so you should use LUT_PAD(8). This macro 293a5356aefSYogesh Narayan Gaur * returns 3 i.e. use eight (2^3) IP lines for read. 294a5356aefSYogesh Narayan Gaur */ 295a5356aefSYogesh Narayan Gaur #define LUT_PAD(x) (fls(x) - 1) 296a5356aefSYogesh Narayan Gaur 297a5356aefSYogesh Narayan Gaur /* 298a5356aefSYogesh Narayan Gaur * Macro for constructing the LUT entries with the following 299a5356aefSYogesh Narayan Gaur * register layout: 300a5356aefSYogesh Narayan Gaur * 301a5356aefSYogesh Narayan Gaur * --------------------------------------------------- 302a5356aefSYogesh Narayan Gaur * | INSTR1 | PAD1 | OPRND1 | INSTR0 | PAD0 | OPRND0 | 303a5356aefSYogesh Narayan Gaur * --------------------------------------------------- 304a5356aefSYogesh Narayan Gaur */ 305a5356aefSYogesh Narayan Gaur #define PAD_SHIFT 8 306a5356aefSYogesh Narayan Gaur #define INSTR_SHIFT 10 307a5356aefSYogesh Narayan Gaur #define OPRND_SHIFT 16 308a5356aefSYogesh Narayan Gaur 309a5356aefSYogesh Narayan Gaur /* Macros for constructing the LUT register. */ 310a5356aefSYogesh Narayan Gaur #define LUT_DEF(idx, ins, pad, opr) \ 311a5356aefSYogesh Narayan Gaur ((((ins) << INSTR_SHIFT) | ((pad) << PAD_SHIFT) | \ 312a5356aefSYogesh Narayan Gaur (opr)) << (((idx) % 2) * OPRND_SHIFT)) 313a5356aefSYogesh Narayan Gaur 314a5356aefSYogesh Narayan Gaur #define POLL_TOUT 5000 315a5356aefSYogesh Narayan Gaur #define NXP_FSPI_MAX_CHIPSELECT 4 316d166a735SHan Xu #define NXP_FSPI_MIN_IOMAP SZ_4M 317a5356aefSYogesh Narayan Gaur 31882ce7d0eSKuldeep Singh #define DCFG_RCWSR1 0x100 31967a12ae5SMichael Walle #define SYS_PLL_RAT GENMASK(6, 2) 32082ce7d0eSKuldeep Singh 32131e92cbfSKuldeep Singh /* Access flash memory using IP bus only */ 32231e92cbfSKuldeep Singh #define FSPI_QUIRK_USE_IP_ONLY BIT(0) 32331e92cbfSKuldeep Singh 324a5356aefSYogesh Narayan Gaur struct nxp_fspi_devtype_data { 325a5356aefSYogesh Narayan Gaur unsigned int rxfifo; 326a5356aefSYogesh Narayan Gaur unsigned int txfifo; 327a5356aefSYogesh Narayan Gaur unsigned int ahb_buf_size; 328a5356aefSYogesh Narayan Gaur unsigned int quirks; 329a5356aefSYogesh Narayan Gaur bool little_endian; 330a5356aefSYogesh Narayan Gaur }; 331a5356aefSYogesh Narayan Gaur 33282ce7d0eSKuldeep Singh static struct nxp_fspi_devtype_data lx2160a_data = { 333a5356aefSYogesh Narayan Gaur .rxfifo = SZ_512, /* (64 * 64 bits) */ 334a5356aefSYogesh Narayan Gaur .txfifo = SZ_1K, /* (128 * 64 bits) */ 335a5356aefSYogesh Narayan Gaur .ahb_buf_size = SZ_2K, /* (256 * 64 bits) */ 336a5356aefSYogesh Narayan Gaur .quirks = 0, 337a5356aefSYogesh Narayan Gaur .little_endian = true, /* little-endian */ 338a5356aefSYogesh Narayan Gaur }; 339a5356aefSYogesh Narayan Gaur 34082ce7d0eSKuldeep Singh static struct nxp_fspi_devtype_data imx8mm_data = { 341941be8a7SHan Xu .rxfifo = SZ_512, /* (64 * 64 bits) */ 342941be8a7SHan Xu .txfifo = SZ_1K, /* (128 * 64 bits) */ 343941be8a7SHan Xu .ahb_buf_size = SZ_2K, /* (256 * 64 bits) */ 344941be8a7SHan Xu .quirks = 0, 345941be8a7SHan Xu .little_endian = true, /* little-endian */ 346941be8a7SHan Xu }; 347941be8a7SHan Xu 34882ce7d0eSKuldeep Singh static struct nxp_fspi_devtype_data imx8qxp_data = { 349941be8a7SHan Xu .rxfifo = SZ_512, /* (64 * 64 bits) */ 350941be8a7SHan Xu .txfifo = SZ_1K, /* (128 * 64 bits) */ 351941be8a7SHan Xu .ahb_buf_size = SZ_2K, /* (256 * 64 bits) */ 352941be8a7SHan Xu .quirks = 0, 353941be8a7SHan Xu .little_endian = true, /* little-endian */ 354941be8a7SHan Xu }; 355941be8a7SHan Xu 35682ce7d0eSKuldeep Singh static struct nxp_fspi_devtype_data imx8dxl_data = { 357c791e3c3SHan Xu .rxfifo = SZ_512, /* (64 * 64 bits) */ 358c791e3c3SHan Xu .txfifo = SZ_1K, /* (128 * 64 bits) */ 359c791e3c3SHan Xu .ahb_buf_size = SZ_2K, /* (256 * 64 bits) */ 360c791e3c3SHan Xu .quirks = FSPI_QUIRK_USE_IP_ONLY, 361c791e3c3SHan Xu .little_endian = true, /* little-endian */ 362c791e3c3SHan Xu }; 363c791e3c3SHan Xu 364a5356aefSYogesh Narayan Gaur struct nxp_fspi { 365a5356aefSYogesh Narayan Gaur void __iomem *iobase; 366a5356aefSYogesh Narayan Gaur void __iomem *ahb_addr; 367a5356aefSYogesh Narayan Gaur u32 memmap_phy; 368a5356aefSYogesh Narayan Gaur u32 memmap_phy_size; 369d166a735SHan Xu u32 memmap_start; 370d166a735SHan Xu u32 memmap_len; 371a5356aefSYogesh Narayan Gaur struct clk *clk, *clk_en; 372a5356aefSYogesh Narayan Gaur struct device *dev; 373a5356aefSYogesh Narayan Gaur struct completion c; 37482ce7d0eSKuldeep Singh struct nxp_fspi_devtype_data *devtype_data; 375a5356aefSYogesh Narayan Gaur struct mutex lock; 376a5356aefSYogesh Narayan Gaur struct pm_qos_request pm_qos_req; 377a5356aefSYogesh Narayan Gaur int selected; 378a5356aefSYogesh Narayan Gaur }; 379a5356aefSYogesh Narayan Gaur 38031e92cbfSKuldeep Singh static inline int needs_ip_only(struct nxp_fspi *f) 38131e92cbfSKuldeep Singh { 38231e92cbfSKuldeep Singh return f->devtype_data->quirks & FSPI_QUIRK_USE_IP_ONLY; 38331e92cbfSKuldeep Singh } 38431e92cbfSKuldeep Singh 385a5356aefSYogesh Narayan Gaur /* 386a5356aefSYogesh Narayan Gaur * R/W functions for big- or little-endian registers: 387a5356aefSYogesh Narayan Gaur * The FSPI controller's endianness is independent of 388a5356aefSYogesh Narayan Gaur * the CPU core's endianness. So far, although the CPU 389a5356aefSYogesh Narayan Gaur * core is little-endian the FSPI controller can use 390a5356aefSYogesh Narayan Gaur * big-endian or little-endian. 391a5356aefSYogesh Narayan Gaur */ 392a5356aefSYogesh Narayan Gaur static void fspi_writel(struct nxp_fspi *f, u32 val, void __iomem *addr) 393a5356aefSYogesh Narayan Gaur { 394a5356aefSYogesh Narayan Gaur if (f->devtype_data->little_endian) 395a5356aefSYogesh Narayan Gaur iowrite32(val, addr); 396a5356aefSYogesh Narayan Gaur else 397a5356aefSYogesh Narayan Gaur iowrite32be(val, addr); 398a5356aefSYogesh Narayan Gaur } 399a5356aefSYogesh Narayan Gaur 400a5356aefSYogesh Narayan Gaur static u32 fspi_readl(struct nxp_fspi *f, void __iomem *addr) 401a5356aefSYogesh Narayan Gaur { 402a5356aefSYogesh Narayan Gaur if (f->devtype_data->little_endian) 403a5356aefSYogesh Narayan Gaur return ioread32(addr); 404a5356aefSYogesh Narayan Gaur else 405a5356aefSYogesh Narayan Gaur return ioread32be(addr); 406a5356aefSYogesh Narayan Gaur } 407a5356aefSYogesh Narayan Gaur 408a5356aefSYogesh Narayan Gaur static irqreturn_t nxp_fspi_irq_handler(int irq, void *dev_id) 409a5356aefSYogesh Narayan Gaur { 410a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = dev_id; 411a5356aefSYogesh Narayan Gaur u32 reg; 412a5356aefSYogesh Narayan Gaur 413a5356aefSYogesh Narayan Gaur /* clear interrupt */ 414a5356aefSYogesh Narayan Gaur reg = fspi_readl(f, f->iobase + FSPI_INTR); 415a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_INTR_IPCMDDONE, f->iobase + FSPI_INTR); 416a5356aefSYogesh Narayan Gaur 417a5356aefSYogesh Narayan Gaur if (reg & FSPI_INTR_IPCMDDONE) 418a5356aefSYogesh Narayan Gaur complete(&f->c); 419a5356aefSYogesh Narayan Gaur 420a5356aefSYogesh Narayan Gaur return IRQ_HANDLED; 421a5356aefSYogesh Narayan Gaur } 422a5356aefSYogesh Narayan Gaur 423a5356aefSYogesh Narayan Gaur static int nxp_fspi_check_buswidth(struct nxp_fspi *f, u8 width) 424a5356aefSYogesh Narayan Gaur { 425a5356aefSYogesh Narayan Gaur switch (width) { 426a5356aefSYogesh Narayan Gaur case 1: 427a5356aefSYogesh Narayan Gaur case 2: 428a5356aefSYogesh Narayan Gaur case 4: 429a5356aefSYogesh Narayan Gaur case 8: 430a5356aefSYogesh Narayan Gaur return 0; 431a5356aefSYogesh Narayan Gaur } 432a5356aefSYogesh Narayan Gaur 433a5356aefSYogesh Narayan Gaur return -ENOTSUPP; 434a5356aefSYogesh Narayan Gaur } 435a5356aefSYogesh Narayan Gaur 436a5356aefSYogesh Narayan Gaur static bool nxp_fspi_supports_op(struct spi_mem *mem, 437a5356aefSYogesh Narayan Gaur const struct spi_mem_op *op) 438a5356aefSYogesh Narayan Gaur { 439a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = spi_controller_get_devdata(mem->spi->master); 440a5356aefSYogesh Narayan Gaur int ret; 441a5356aefSYogesh Narayan Gaur 442a5356aefSYogesh Narayan Gaur ret = nxp_fspi_check_buswidth(f, op->cmd.buswidth); 443a5356aefSYogesh Narayan Gaur 444a5356aefSYogesh Narayan Gaur if (op->addr.nbytes) 445a5356aefSYogesh Narayan Gaur ret |= nxp_fspi_check_buswidth(f, op->addr.buswidth); 446a5356aefSYogesh Narayan Gaur 447a5356aefSYogesh Narayan Gaur if (op->dummy.nbytes) 448a5356aefSYogesh Narayan Gaur ret |= nxp_fspi_check_buswidth(f, op->dummy.buswidth); 449a5356aefSYogesh Narayan Gaur 450a5356aefSYogesh Narayan Gaur if (op->data.nbytes) 451a5356aefSYogesh Narayan Gaur ret |= nxp_fspi_check_buswidth(f, op->data.buswidth); 452a5356aefSYogesh Narayan Gaur 453a5356aefSYogesh Narayan Gaur if (ret) 454a5356aefSYogesh Narayan Gaur return false; 455a5356aefSYogesh Narayan Gaur 456a5356aefSYogesh Narayan Gaur /* 457a5356aefSYogesh Narayan Gaur * The number of address bytes should be equal to or less than 4 bytes. 458a5356aefSYogesh Narayan Gaur */ 459a5356aefSYogesh Narayan Gaur if (op->addr.nbytes > 4) 460a5356aefSYogesh Narayan Gaur return false; 461a5356aefSYogesh Narayan Gaur 462a5356aefSYogesh Narayan Gaur /* 463a5356aefSYogesh Narayan Gaur * If requested address value is greater than controller assigned 464a5356aefSYogesh Narayan Gaur * memory mapped space, return error as it didn't fit in the range 465a5356aefSYogesh Narayan Gaur * of assigned address space. 466a5356aefSYogesh Narayan Gaur */ 467a5356aefSYogesh Narayan Gaur if (op->addr.val >= f->memmap_phy_size) 468a5356aefSYogesh Narayan Gaur return false; 469a5356aefSYogesh Narayan Gaur 470a5356aefSYogesh Narayan Gaur /* Max 64 dummy clock cycles supported */ 471a5356aefSYogesh Narayan Gaur if (op->dummy.buswidth && 472a5356aefSYogesh Narayan Gaur (op->dummy.nbytes * 8 / op->dummy.buswidth > 64)) 473a5356aefSYogesh Narayan Gaur return false; 474a5356aefSYogesh Narayan Gaur 475a5356aefSYogesh Narayan Gaur /* Max data length, check controller limits and alignment */ 476a5356aefSYogesh Narayan Gaur if (op->data.dir == SPI_MEM_DATA_IN && 477a5356aefSYogesh Narayan Gaur (op->data.nbytes > f->devtype_data->ahb_buf_size || 478a5356aefSYogesh Narayan Gaur (op->data.nbytes > f->devtype_data->rxfifo - 4 && 479a5356aefSYogesh Narayan Gaur !IS_ALIGNED(op->data.nbytes, 8)))) 480a5356aefSYogesh Narayan Gaur return false; 481a5356aefSYogesh Narayan Gaur 482a5356aefSYogesh Narayan Gaur if (op->data.dir == SPI_MEM_DATA_OUT && 483a5356aefSYogesh Narayan Gaur op->data.nbytes > f->devtype_data->txfifo) 484a5356aefSYogesh Narayan Gaur return false; 485a5356aefSYogesh Narayan Gaur 486007773e1SMichael Walle return spi_mem_default_supports_op(mem, op); 487a5356aefSYogesh Narayan Gaur } 488a5356aefSYogesh Narayan Gaur 489a5356aefSYogesh Narayan Gaur /* Instead of busy looping invoke readl_poll_timeout functionality. */ 490a5356aefSYogesh Narayan Gaur static int fspi_readl_poll_tout(struct nxp_fspi *f, void __iomem *base, 491a5356aefSYogesh Narayan Gaur u32 mask, u32 delay_us, 492a5356aefSYogesh Narayan Gaur u32 timeout_us, bool c) 493a5356aefSYogesh Narayan Gaur { 494a5356aefSYogesh Narayan Gaur u32 reg; 495a5356aefSYogesh Narayan Gaur 496a5356aefSYogesh Narayan Gaur if (!f->devtype_data->little_endian) 497a5356aefSYogesh Narayan Gaur mask = (u32)cpu_to_be32(mask); 498a5356aefSYogesh Narayan Gaur 499a5356aefSYogesh Narayan Gaur if (c) 500a5356aefSYogesh Narayan Gaur return readl_poll_timeout(base, reg, (reg & mask), 501a5356aefSYogesh Narayan Gaur delay_us, timeout_us); 502a5356aefSYogesh Narayan Gaur else 503a5356aefSYogesh Narayan Gaur return readl_poll_timeout(base, reg, !(reg & mask), 504a5356aefSYogesh Narayan Gaur delay_us, timeout_us); 505a5356aefSYogesh Narayan Gaur } 506a5356aefSYogesh Narayan Gaur 507a5356aefSYogesh Narayan Gaur /* 508a5356aefSYogesh Narayan Gaur * If the slave device content being changed by Write/Erase, need to 509a5356aefSYogesh Narayan Gaur * invalidate the AHB buffer. This can be achieved by doing the reset 510a5356aefSYogesh Narayan Gaur * of controller after setting MCR0[SWRESET] bit. 511a5356aefSYogesh Narayan Gaur */ 512a5356aefSYogesh Narayan Gaur static inline void nxp_fspi_invalid(struct nxp_fspi *f) 513a5356aefSYogesh Narayan Gaur { 514a5356aefSYogesh Narayan Gaur u32 reg; 515a5356aefSYogesh Narayan Gaur int ret; 516a5356aefSYogesh Narayan Gaur 517a5356aefSYogesh Narayan Gaur reg = fspi_readl(f, f->iobase + FSPI_MCR0); 518a5356aefSYogesh Narayan Gaur fspi_writel(f, reg | FSPI_MCR0_SWRST, f->iobase + FSPI_MCR0); 519a5356aefSYogesh Narayan Gaur 520a5356aefSYogesh Narayan Gaur /* w1c register, wait unit clear */ 521a5356aefSYogesh Narayan Gaur ret = fspi_readl_poll_tout(f, f->iobase + FSPI_MCR0, 522a5356aefSYogesh Narayan Gaur FSPI_MCR0_SWRST, 0, POLL_TOUT, false); 523a5356aefSYogesh Narayan Gaur WARN_ON(ret); 524a5356aefSYogesh Narayan Gaur } 525a5356aefSYogesh Narayan Gaur 526a5356aefSYogesh Narayan Gaur static void nxp_fspi_prepare_lut(struct nxp_fspi *f, 527a5356aefSYogesh Narayan Gaur const struct spi_mem_op *op) 528a5356aefSYogesh Narayan Gaur { 529a5356aefSYogesh Narayan Gaur void __iomem *base = f->iobase; 530a5356aefSYogesh Narayan Gaur u32 lutval[4] = {}; 531a5356aefSYogesh Narayan Gaur int lutidx = 1, i; 532a5356aefSYogesh Narayan Gaur 533a5356aefSYogesh Narayan Gaur /* cmd */ 534a5356aefSYogesh Narayan Gaur lutval[0] |= LUT_DEF(0, LUT_CMD, LUT_PAD(op->cmd.buswidth), 535a5356aefSYogesh Narayan Gaur op->cmd.opcode); 536a5356aefSYogesh Narayan Gaur 537a5356aefSYogesh Narayan Gaur /* addr bytes */ 538a5356aefSYogesh Narayan Gaur if (op->addr.nbytes) { 539a5356aefSYogesh Narayan Gaur lutval[lutidx / 2] |= LUT_DEF(lutidx, LUT_ADDR, 540a5356aefSYogesh Narayan Gaur LUT_PAD(op->addr.buswidth), 541a5356aefSYogesh Narayan Gaur op->addr.nbytes * 8); 542a5356aefSYogesh Narayan Gaur lutidx++; 543a5356aefSYogesh Narayan Gaur } 544a5356aefSYogesh Narayan Gaur 545a5356aefSYogesh Narayan Gaur /* dummy bytes, if needed */ 546a5356aefSYogesh Narayan Gaur if (op->dummy.nbytes) { 547a5356aefSYogesh Narayan Gaur lutval[lutidx / 2] |= LUT_DEF(lutidx, LUT_DUMMY, 548a5356aefSYogesh Narayan Gaur /* 549a5356aefSYogesh Narayan Gaur * Due to FlexSPI controller limitation number of PAD for dummy 550a5356aefSYogesh Narayan Gaur * buswidth needs to be programmed as equal to data buswidth. 551a5356aefSYogesh Narayan Gaur */ 552a5356aefSYogesh Narayan Gaur LUT_PAD(op->data.buswidth), 553a5356aefSYogesh Narayan Gaur op->dummy.nbytes * 8 / 554a5356aefSYogesh Narayan Gaur op->dummy.buswidth); 555a5356aefSYogesh Narayan Gaur lutidx++; 556a5356aefSYogesh Narayan Gaur } 557a5356aefSYogesh Narayan Gaur 558a5356aefSYogesh Narayan Gaur /* read/write data bytes */ 559a5356aefSYogesh Narayan Gaur if (op->data.nbytes) { 560a5356aefSYogesh Narayan Gaur lutval[lutidx / 2] |= LUT_DEF(lutidx, 561a5356aefSYogesh Narayan Gaur op->data.dir == SPI_MEM_DATA_IN ? 562a5356aefSYogesh Narayan Gaur LUT_NXP_READ : LUT_NXP_WRITE, 563a5356aefSYogesh Narayan Gaur LUT_PAD(op->data.buswidth), 564a5356aefSYogesh Narayan Gaur 0); 565a5356aefSYogesh Narayan Gaur lutidx++; 566a5356aefSYogesh Narayan Gaur } 567a5356aefSYogesh Narayan Gaur 568a5356aefSYogesh Narayan Gaur /* stop condition. */ 569a5356aefSYogesh Narayan Gaur lutval[lutidx / 2] |= LUT_DEF(lutidx, LUT_STOP, 0, 0); 570a5356aefSYogesh Narayan Gaur 571a5356aefSYogesh Narayan Gaur /* unlock LUT */ 572a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_LUTKEY_VALUE, f->iobase + FSPI_LUTKEY); 573a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_LCKER_UNLOCK, f->iobase + FSPI_LCKCR); 574a5356aefSYogesh Narayan Gaur 575a5356aefSYogesh Narayan Gaur /* fill LUT */ 576a5356aefSYogesh Narayan Gaur for (i = 0; i < ARRAY_SIZE(lutval); i++) 577a5356aefSYogesh Narayan Gaur fspi_writel(f, lutval[i], base + FSPI_LUT_REG(i)); 578a5356aefSYogesh Narayan Gaur 57931e92cbfSKuldeep Singh dev_dbg(f->dev, "CMD[%x] lutval[0:%x \t 1:%x \t 2:%x \t 3:%x], size: 0x%08x\n", 58031e92cbfSKuldeep Singh op->cmd.opcode, lutval[0], lutval[1], lutval[2], lutval[3], op->data.nbytes); 581a5356aefSYogesh Narayan Gaur 582a5356aefSYogesh Narayan Gaur /* lock LUT */ 583a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_LUTKEY_VALUE, f->iobase + FSPI_LUTKEY); 584a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_LCKER_LOCK, f->iobase + FSPI_LCKCR); 585a5356aefSYogesh Narayan Gaur } 586a5356aefSYogesh Narayan Gaur 587a5356aefSYogesh Narayan Gaur static int nxp_fspi_clk_prep_enable(struct nxp_fspi *f) 588a5356aefSYogesh Narayan Gaur { 589a5356aefSYogesh Narayan Gaur int ret; 590a5356aefSYogesh Narayan Gaur 5914b9ef436SAndy Shevchenko if (is_acpi_node(dev_fwnode(f->dev))) 59255ab8487Skuldip dwivedi return 0; 59355ab8487Skuldip dwivedi 594a5356aefSYogesh Narayan Gaur ret = clk_prepare_enable(f->clk_en); 595a5356aefSYogesh Narayan Gaur if (ret) 596a5356aefSYogesh Narayan Gaur return ret; 597a5356aefSYogesh Narayan Gaur 598a5356aefSYogesh Narayan Gaur ret = clk_prepare_enable(f->clk); 599a5356aefSYogesh Narayan Gaur if (ret) { 600a5356aefSYogesh Narayan Gaur clk_disable_unprepare(f->clk_en); 601a5356aefSYogesh Narayan Gaur return ret; 602a5356aefSYogesh Narayan Gaur } 603a5356aefSYogesh Narayan Gaur 604a5356aefSYogesh Narayan Gaur return 0; 605a5356aefSYogesh Narayan Gaur } 606a5356aefSYogesh Narayan Gaur 60755ab8487Skuldip dwivedi static int nxp_fspi_clk_disable_unprep(struct nxp_fspi *f) 608a5356aefSYogesh Narayan Gaur { 6094b9ef436SAndy Shevchenko if (is_acpi_node(dev_fwnode(f->dev))) 61055ab8487Skuldip dwivedi return 0; 61155ab8487Skuldip dwivedi 612a5356aefSYogesh Narayan Gaur clk_disable_unprepare(f->clk); 613a5356aefSYogesh Narayan Gaur clk_disable_unprepare(f->clk_en); 61455ab8487Skuldip dwivedi 61555ab8487Skuldip dwivedi return 0; 616a5356aefSYogesh Narayan Gaur } 617a5356aefSYogesh Narayan Gaur 618a5356aefSYogesh Narayan Gaur /* 619a5356aefSYogesh Narayan Gaur * In FlexSPI controller, flash access is based on value of FSPI_FLSHXXCR0 620a5356aefSYogesh Narayan Gaur * register and start base address of the slave device. 621a5356aefSYogesh Narayan Gaur * 622a5356aefSYogesh Narayan Gaur * (Higher address) 623a5356aefSYogesh Narayan Gaur * -------- <-- FLSHB2CR0 624a5356aefSYogesh Narayan Gaur * | B2 | 625a5356aefSYogesh Narayan Gaur * | | 626a5356aefSYogesh Narayan Gaur * B2 start address --> -------- <-- FLSHB1CR0 627a5356aefSYogesh Narayan Gaur * | B1 | 628a5356aefSYogesh Narayan Gaur * | | 629a5356aefSYogesh Narayan Gaur * B1 start address --> -------- <-- FLSHA2CR0 630a5356aefSYogesh Narayan Gaur * | A2 | 631a5356aefSYogesh Narayan Gaur * | | 632a5356aefSYogesh Narayan Gaur * A2 start address --> -------- <-- FLSHA1CR0 633a5356aefSYogesh Narayan Gaur * | A1 | 634a5356aefSYogesh Narayan Gaur * | | 635a5356aefSYogesh Narayan Gaur * A1 start address --> -------- (Lower address) 636a5356aefSYogesh Narayan Gaur * 637a5356aefSYogesh Narayan Gaur * 638a5356aefSYogesh Narayan Gaur * Start base address defines the starting address range for given CS and 639a5356aefSYogesh Narayan Gaur * FSPI_FLSHXXCR0 defines the size of the slave device connected at given CS. 640a5356aefSYogesh Narayan Gaur * 641a5356aefSYogesh Narayan Gaur * But, different targets are having different combinations of number of CS, 642a5356aefSYogesh Narayan Gaur * some targets only have single CS or two CS covering controller's full 643a5356aefSYogesh Narayan Gaur * memory mapped space area. 644a5356aefSYogesh Narayan Gaur * Thus, implementation is being done as independent of the size and number 645a5356aefSYogesh Narayan Gaur * of the connected slave device. 646a5356aefSYogesh Narayan Gaur * Assign controller memory mapped space size as the size to the connected 647a5356aefSYogesh Narayan Gaur * slave device. 648a5356aefSYogesh Narayan Gaur * Mark FLSHxxCR0 as zero initially and then assign value only to the selected 649a5356aefSYogesh Narayan Gaur * chip-select Flash configuration register. 650a5356aefSYogesh Narayan Gaur * 651a5356aefSYogesh Narayan Gaur * For e.g. to access CS2 (B1), FLSHB1CR0 register would be equal to the 652a5356aefSYogesh Narayan Gaur * memory mapped size of the controller. 653a5356aefSYogesh Narayan Gaur * Value for rest of the CS FLSHxxCR0 register would be zero. 654a5356aefSYogesh Narayan Gaur * 655a5356aefSYogesh Narayan Gaur */ 656a5356aefSYogesh Narayan Gaur static void nxp_fspi_select_mem(struct nxp_fspi *f, struct spi_device *spi) 657a5356aefSYogesh Narayan Gaur { 658a5356aefSYogesh Narayan Gaur unsigned long rate = spi->max_speed_hz; 659a5356aefSYogesh Narayan Gaur int ret; 660a5356aefSYogesh Narayan Gaur uint64_t size_kb; 661a5356aefSYogesh Narayan Gaur 662a5356aefSYogesh Narayan Gaur /* 663a5356aefSYogesh Narayan Gaur * Return, if previously selected slave device is same as current 664a5356aefSYogesh Narayan Gaur * requested slave device. 665a5356aefSYogesh Narayan Gaur */ 666*9e264f3fSAmit Kumar Mahapatra via Alsa-devel if (f->selected == spi_get_chipselect(spi, 0)) 667a5356aefSYogesh Narayan Gaur return; 668a5356aefSYogesh Narayan Gaur 669a5356aefSYogesh Narayan Gaur /* Reset FLSHxxCR0 registers */ 670a5356aefSYogesh Narayan Gaur fspi_writel(f, 0, f->iobase + FSPI_FLSHA1CR0); 671a5356aefSYogesh Narayan Gaur fspi_writel(f, 0, f->iobase + FSPI_FLSHA2CR0); 672a5356aefSYogesh Narayan Gaur fspi_writel(f, 0, f->iobase + FSPI_FLSHB1CR0); 673a5356aefSYogesh Narayan Gaur fspi_writel(f, 0, f->iobase + FSPI_FLSHB2CR0); 674a5356aefSYogesh Narayan Gaur 675a5356aefSYogesh Narayan Gaur /* Assign controller memory mapped space as size, KBytes, of flash. */ 676a5356aefSYogesh Narayan Gaur size_kb = FSPI_FLSHXCR0_SZ(f->memmap_phy_size); 677a5356aefSYogesh Narayan Gaur 678a5356aefSYogesh Narayan Gaur fspi_writel(f, size_kb, f->iobase + FSPI_FLSHA1CR0 + 679*9e264f3fSAmit Kumar Mahapatra via Alsa-devel 4 * spi_get_chipselect(spi, 0)); 680a5356aefSYogesh Narayan Gaur 681*9e264f3fSAmit Kumar Mahapatra via Alsa-devel dev_dbg(f->dev, "Slave device [CS:%x] selected\n", spi_get_chipselect(spi, 0)); 682a5356aefSYogesh Narayan Gaur 683a5356aefSYogesh Narayan Gaur nxp_fspi_clk_disable_unprep(f); 684a5356aefSYogesh Narayan Gaur 685a5356aefSYogesh Narayan Gaur ret = clk_set_rate(f->clk, rate); 686a5356aefSYogesh Narayan Gaur if (ret) 687a5356aefSYogesh Narayan Gaur return; 688a5356aefSYogesh Narayan Gaur 689a5356aefSYogesh Narayan Gaur ret = nxp_fspi_clk_prep_enable(f); 690a5356aefSYogesh Narayan Gaur if (ret) 691a5356aefSYogesh Narayan Gaur return; 692a5356aefSYogesh Narayan Gaur 693*9e264f3fSAmit Kumar Mahapatra via Alsa-devel f->selected = spi_get_chipselect(spi, 0); 694a5356aefSYogesh Narayan Gaur } 695a5356aefSYogesh Narayan Gaur 696d166a735SHan Xu static int nxp_fspi_read_ahb(struct nxp_fspi *f, const struct spi_mem_op *op) 697a5356aefSYogesh Narayan Gaur { 698d166a735SHan Xu u32 start = op->addr.val; 699a5356aefSYogesh Narayan Gaur u32 len = op->data.nbytes; 700a5356aefSYogesh Narayan Gaur 701d166a735SHan Xu /* if necessary, ioremap before AHB read */ 702d166a735SHan Xu if ((!f->ahb_addr) || start < f->memmap_start || 703d166a735SHan Xu start + len > f->memmap_start + f->memmap_len) { 704d166a735SHan Xu if (f->ahb_addr) 705d166a735SHan Xu iounmap(f->ahb_addr); 706d166a735SHan Xu 707d166a735SHan Xu f->memmap_start = start; 708d166a735SHan Xu f->memmap_len = len > NXP_FSPI_MIN_IOMAP ? 709d166a735SHan Xu len : NXP_FSPI_MIN_IOMAP; 710d166a735SHan Xu 711d166a735SHan Xu f->ahb_addr = ioremap_wc(f->memmap_phy + f->memmap_start, 712d166a735SHan Xu f->memmap_len); 713d166a735SHan Xu 714d166a735SHan Xu if (!f->ahb_addr) { 715d166a735SHan Xu dev_err(f->dev, "failed to alloc memory\n"); 716d166a735SHan Xu return -ENOMEM; 717d166a735SHan Xu } 718d166a735SHan Xu } 719d166a735SHan Xu 720a5356aefSYogesh Narayan Gaur /* Read out the data directly from the AHB buffer. */ 721d166a735SHan Xu memcpy_fromio(op->data.buf.in, 722d166a735SHan Xu f->ahb_addr + start - f->memmap_start, len); 723d166a735SHan Xu 724d166a735SHan Xu return 0; 725a5356aefSYogesh Narayan Gaur } 726a5356aefSYogesh Narayan Gaur 727a5356aefSYogesh Narayan Gaur static void nxp_fspi_fill_txfifo(struct nxp_fspi *f, 728a5356aefSYogesh Narayan Gaur const struct spi_mem_op *op) 729a5356aefSYogesh Narayan Gaur { 730a5356aefSYogesh Narayan Gaur void __iomem *base = f->iobase; 731a5356aefSYogesh Narayan Gaur int i, ret; 732a5356aefSYogesh Narayan Gaur u8 *buf = (u8 *) op->data.buf.out; 733a5356aefSYogesh Narayan Gaur 734a5356aefSYogesh Narayan Gaur /* clear the TX FIFO. */ 735a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_IPTXFCR_CLR, base + FSPI_IPTXFCR); 736a5356aefSYogesh Narayan Gaur 737a5356aefSYogesh Narayan Gaur /* 738a5356aefSYogesh Narayan Gaur * Default value of water mark level is 8 bytes, hence in single 739a5356aefSYogesh Narayan Gaur * write request controller can write max 8 bytes of data. 740a5356aefSYogesh Narayan Gaur */ 741a5356aefSYogesh Narayan Gaur 742a5356aefSYogesh Narayan Gaur for (i = 0; i < ALIGN_DOWN(op->data.nbytes, 8); i += 8) { 743a5356aefSYogesh Narayan Gaur /* Wait for TXFIFO empty */ 744a5356aefSYogesh Narayan Gaur ret = fspi_readl_poll_tout(f, f->iobase + FSPI_INTR, 745a5356aefSYogesh Narayan Gaur FSPI_INTR_IPTXWE, 0, 746a5356aefSYogesh Narayan Gaur POLL_TOUT, true); 747a5356aefSYogesh Narayan Gaur WARN_ON(ret); 748a5356aefSYogesh Narayan Gaur 749a5356aefSYogesh Narayan Gaur fspi_writel(f, *(u32 *) (buf + i), base + FSPI_TFDR); 750a5356aefSYogesh Narayan Gaur fspi_writel(f, *(u32 *) (buf + i + 4), base + FSPI_TFDR + 4); 751a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_INTR_IPTXWE, base + FSPI_INTR); 752a5356aefSYogesh Narayan Gaur } 753a5356aefSYogesh Narayan Gaur 754a5356aefSYogesh Narayan Gaur if (i < op->data.nbytes) { 755a5356aefSYogesh Narayan Gaur u32 data = 0; 756a5356aefSYogesh Narayan Gaur int j; 757a5356aefSYogesh Narayan Gaur /* Wait for TXFIFO empty */ 758a5356aefSYogesh Narayan Gaur ret = fspi_readl_poll_tout(f, f->iobase + FSPI_INTR, 759a5356aefSYogesh Narayan Gaur FSPI_INTR_IPTXWE, 0, 760a5356aefSYogesh Narayan Gaur POLL_TOUT, true); 761a5356aefSYogesh Narayan Gaur WARN_ON(ret); 762a5356aefSYogesh Narayan Gaur 763a5356aefSYogesh Narayan Gaur for (j = 0; j < ALIGN(op->data.nbytes - i, 4); j += 4) { 764a5356aefSYogesh Narayan Gaur memcpy(&data, buf + i + j, 4); 765a5356aefSYogesh Narayan Gaur fspi_writel(f, data, base + FSPI_TFDR + j); 766a5356aefSYogesh Narayan Gaur } 767a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_INTR_IPTXWE, base + FSPI_INTR); 768a5356aefSYogesh Narayan Gaur } 769a5356aefSYogesh Narayan Gaur } 770a5356aefSYogesh Narayan Gaur 771a5356aefSYogesh Narayan Gaur static void nxp_fspi_read_rxfifo(struct nxp_fspi *f, 772a5356aefSYogesh Narayan Gaur const struct spi_mem_op *op) 773a5356aefSYogesh Narayan Gaur { 774a5356aefSYogesh Narayan Gaur void __iomem *base = f->iobase; 775a5356aefSYogesh Narayan Gaur int i, ret; 776a5356aefSYogesh Narayan Gaur int len = op->data.nbytes; 777a5356aefSYogesh Narayan Gaur u8 *buf = (u8 *) op->data.buf.in; 778a5356aefSYogesh Narayan Gaur 779a5356aefSYogesh Narayan Gaur /* 780a5356aefSYogesh Narayan Gaur * Default value of water mark level is 8 bytes, hence in single 781a5356aefSYogesh Narayan Gaur * read request controller can read max 8 bytes of data. 782a5356aefSYogesh Narayan Gaur */ 783a5356aefSYogesh Narayan Gaur for (i = 0; i < ALIGN_DOWN(len, 8); i += 8) { 784a5356aefSYogesh Narayan Gaur /* Wait for RXFIFO available */ 785a5356aefSYogesh Narayan Gaur ret = fspi_readl_poll_tout(f, f->iobase + FSPI_INTR, 786a5356aefSYogesh Narayan Gaur FSPI_INTR_IPRXWA, 0, 787a5356aefSYogesh Narayan Gaur POLL_TOUT, true); 788a5356aefSYogesh Narayan Gaur WARN_ON(ret); 789a5356aefSYogesh Narayan Gaur 790a5356aefSYogesh Narayan Gaur *(u32 *)(buf + i) = fspi_readl(f, base + FSPI_RFDR); 791a5356aefSYogesh Narayan Gaur *(u32 *)(buf + i + 4) = fspi_readl(f, base + FSPI_RFDR + 4); 792a5356aefSYogesh Narayan Gaur /* move the FIFO pointer */ 793a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_INTR_IPRXWA, base + FSPI_INTR); 794a5356aefSYogesh Narayan Gaur } 795a5356aefSYogesh Narayan Gaur 796a5356aefSYogesh Narayan Gaur if (i < len) { 797a5356aefSYogesh Narayan Gaur u32 tmp; 798a5356aefSYogesh Narayan Gaur int size, j; 799a5356aefSYogesh Narayan Gaur 800a5356aefSYogesh Narayan Gaur buf = op->data.buf.in + i; 801a5356aefSYogesh Narayan Gaur /* Wait for RXFIFO available */ 802a5356aefSYogesh Narayan Gaur ret = fspi_readl_poll_tout(f, f->iobase + FSPI_INTR, 803a5356aefSYogesh Narayan Gaur FSPI_INTR_IPRXWA, 0, 804a5356aefSYogesh Narayan Gaur POLL_TOUT, true); 805a5356aefSYogesh Narayan Gaur WARN_ON(ret); 806a5356aefSYogesh Narayan Gaur 807a5356aefSYogesh Narayan Gaur len = op->data.nbytes - i; 808a5356aefSYogesh Narayan Gaur for (j = 0; j < op->data.nbytes - i; j += 4) { 809a5356aefSYogesh Narayan Gaur tmp = fspi_readl(f, base + FSPI_RFDR + j); 810a5356aefSYogesh Narayan Gaur size = min(len, 4); 811a5356aefSYogesh Narayan Gaur memcpy(buf + j, &tmp, size); 812a5356aefSYogesh Narayan Gaur len -= size; 813a5356aefSYogesh Narayan Gaur } 814a5356aefSYogesh Narayan Gaur } 815a5356aefSYogesh Narayan Gaur 816a5356aefSYogesh Narayan Gaur /* invalid the RXFIFO */ 817a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_IPRXFCR_CLR, base + FSPI_IPRXFCR); 818a5356aefSYogesh Narayan Gaur /* move the FIFO pointer */ 819a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_INTR_IPRXWA, base + FSPI_INTR); 820a5356aefSYogesh Narayan Gaur } 821a5356aefSYogesh Narayan Gaur 822a5356aefSYogesh Narayan Gaur static int nxp_fspi_do_op(struct nxp_fspi *f, const struct spi_mem_op *op) 823a5356aefSYogesh Narayan Gaur { 824a5356aefSYogesh Narayan Gaur void __iomem *base = f->iobase; 825a5356aefSYogesh Narayan Gaur int seqnum = 0; 826a5356aefSYogesh Narayan Gaur int err = 0; 827a5356aefSYogesh Narayan Gaur u32 reg; 828a5356aefSYogesh Narayan Gaur 829a5356aefSYogesh Narayan Gaur reg = fspi_readl(f, base + FSPI_IPRXFCR); 830a5356aefSYogesh Narayan Gaur /* invalid RXFIFO first */ 831a5356aefSYogesh Narayan Gaur reg &= ~FSPI_IPRXFCR_DMA_EN; 832a5356aefSYogesh Narayan Gaur reg = reg | FSPI_IPRXFCR_CLR; 833a5356aefSYogesh Narayan Gaur fspi_writel(f, reg, base + FSPI_IPRXFCR); 834a5356aefSYogesh Narayan Gaur 835a5356aefSYogesh Narayan Gaur init_completion(&f->c); 836a5356aefSYogesh Narayan Gaur 837a5356aefSYogesh Narayan Gaur fspi_writel(f, op->addr.val, base + FSPI_IPCR0); 838a5356aefSYogesh Narayan Gaur /* 839a5356aefSYogesh Narayan Gaur * Always start the sequence at the same index since we update 840a5356aefSYogesh Narayan Gaur * the LUT at each exec_op() call. And also specify the DATA 841a5356aefSYogesh Narayan Gaur * length, since it's has not been specified in the LUT. 842a5356aefSYogesh Narayan Gaur */ 843a5356aefSYogesh Narayan Gaur fspi_writel(f, op->data.nbytes | 844a5356aefSYogesh Narayan Gaur (SEQID_LUT << FSPI_IPCR1_SEQID_SHIFT) | 845a5356aefSYogesh Narayan Gaur (seqnum << FSPI_IPCR1_SEQNUM_SHIFT), 846a5356aefSYogesh Narayan Gaur base + FSPI_IPCR1); 847a5356aefSYogesh Narayan Gaur 848a5356aefSYogesh Narayan Gaur /* Trigger the LUT now. */ 849a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_IPCMD_TRG, base + FSPI_IPCMD); 850a5356aefSYogesh Narayan Gaur 851a5356aefSYogesh Narayan Gaur /* Wait for the interrupt. */ 852a5356aefSYogesh Narayan Gaur if (!wait_for_completion_timeout(&f->c, msecs_to_jiffies(1000))) 853a5356aefSYogesh Narayan Gaur err = -ETIMEDOUT; 854a5356aefSYogesh Narayan Gaur 855a5356aefSYogesh Narayan Gaur /* Invoke IP data read, if request is of data read. */ 856a5356aefSYogesh Narayan Gaur if (!err && op->data.nbytes && op->data.dir == SPI_MEM_DATA_IN) 857a5356aefSYogesh Narayan Gaur nxp_fspi_read_rxfifo(f, op); 858a5356aefSYogesh Narayan Gaur 859a5356aefSYogesh Narayan Gaur return err; 860a5356aefSYogesh Narayan Gaur } 861a5356aefSYogesh Narayan Gaur 862a5356aefSYogesh Narayan Gaur static int nxp_fspi_exec_op(struct spi_mem *mem, const struct spi_mem_op *op) 863a5356aefSYogesh Narayan Gaur { 864a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = spi_controller_get_devdata(mem->spi->master); 865a5356aefSYogesh Narayan Gaur int err = 0; 866a5356aefSYogesh Narayan Gaur 867a5356aefSYogesh Narayan Gaur mutex_lock(&f->lock); 868a5356aefSYogesh Narayan Gaur 869a5356aefSYogesh Narayan Gaur /* Wait for controller being ready. */ 870a5356aefSYogesh Narayan Gaur err = fspi_readl_poll_tout(f, f->iobase + FSPI_STS0, 871a5356aefSYogesh Narayan Gaur FSPI_STS0_ARB_IDLE, 1, POLL_TOUT, true); 872a5356aefSYogesh Narayan Gaur WARN_ON(err); 873a5356aefSYogesh Narayan Gaur 874a5356aefSYogesh Narayan Gaur nxp_fspi_select_mem(f, mem->spi); 875a5356aefSYogesh Narayan Gaur 876a5356aefSYogesh Narayan Gaur nxp_fspi_prepare_lut(f, op); 877a5356aefSYogesh Narayan Gaur /* 87831e92cbfSKuldeep Singh * If we have large chunks of data, we read them through the AHB bus by 87931e92cbfSKuldeep Singh * accessing the mapped memory. In all other cases we use IP commands 88031e92cbfSKuldeep Singh * to access the flash. Read via AHB bus may be corrupted due to 88131e92cbfSKuldeep Singh * existence of an errata and therefore discard AHB read in such cases. 882a5356aefSYogesh Narayan Gaur */ 883a5356aefSYogesh Narayan Gaur if (op->data.nbytes > (f->devtype_data->rxfifo - 4) && 88431e92cbfSKuldeep Singh op->data.dir == SPI_MEM_DATA_IN && 88531e92cbfSKuldeep Singh !needs_ip_only(f)) { 886d166a735SHan Xu err = nxp_fspi_read_ahb(f, op); 887a5356aefSYogesh Narayan Gaur } else { 888a5356aefSYogesh Narayan Gaur if (op->data.nbytes && op->data.dir == SPI_MEM_DATA_OUT) 889a5356aefSYogesh Narayan Gaur nxp_fspi_fill_txfifo(f, op); 890a5356aefSYogesh Narayan Gaur 891a5356aefSYogesh Narayan Gaur err = nxp_fspi_do_op(f, op); 892a5356aefSYogesh Narayan Gaur } 893a5356aefSYogesh Narayan Gaur 894a5356aefSYogesh Narayan Gaur /* Invalidate the data in the AHB buffer. */ 895a5356aefSYogesh Narayan Gaur nxp_fspi_invalid(f); 896a5356aefSYogesh Narayan Gaur 897a5356aefSYogesh Narayan Gaur mutex_unlock(&f->lock); 898a5356aefSYogesh Narayan Gaur 899a5356aefSYogesh Narayan Gaur return err; 900a5356aefSYogesh Narayan Gaur } 901a5356aefSYogesh Narayan Gaur 902a5356aefSYogesh Narayan Gaur static int nxp_fspi_adjust_op_size(struct spi_mem *mem, struct spi_mem_op *op) 903a5356aefSYogesh Narayan Gaur { 904a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = spi_controller_get_devdata(mem->spi->master); 905a5356aefSYogesh Narayan Gaur 906a5356aefSYogesh Narayan Gaur if (op->data.dir == SPI_MEM_DATA_OUT) { 907a5356aefSYogesh Narayan Gaur if (op->data.nbytes > f->devtype_data->txfifo) 908a5356aefSYogesh Narayan Gaur op->data.nbytes = f->devtype_data->txfifo; 909a5356aefSYogesh Narayan Gaur } else { 910a5356aefSYogesh Narayan Gaur if (op->data.nbytes > f->devtype_data->ahb_buf_size) 911a5356aefSYogesh Narayan Gaur op->data.nbytes = f->devtype_data->ahb_buf_size; 912a5356aefSYogesh Narayan Gaur else if (op->data.nbytes > (f->devtype_data->rxfifo - 4)) 913a5356aefSYogesh Narayan Gaur op->data.nbytes = ALIGN_DOWN(op->data.nbytes, 8); 914a5356aefSYogesh Narayan Gaur } 915a5356aefSYogesh Narayan Gaur 91631e92cbfSKuldeep Singh /* Limit data bytes to RX FIFO in case of IP read only */ 91731e92cbfSKuldeep Singh if (op->data.dir == SPI_MEM_DATA_IN && 91831e92cbfSKuldeep Singh needs_ip_only(f) && 91931e92cbfSKuldeep Singh op->data.nbytes > f->devtype_data->rxfifo) 92031e92cbfSKuldeep Singh op->data.nbytes = f->devtype_data->rxfifo; 92131e92cbfSKuldeep Singh 922a5356aefSYogesh Narayan Gaur return 0; 923a5356aefSYogesh Narayan Gaur } 924a5356aefSYogesh Narayan Gaur 92582ce7d0eSKuldeep Singh static void erratum_err050568(struct nxp_fspi *f) 92682ce7d0eSKuldeep Singh { 9276c6c49f2SColin Ian King static const struct soc_device_attribute ls1028a_soc_attr[] = { 92882ce7d0eSKuldeep Singh { .family = "QorIQ LS1028A" }, 92982ce7d0eSKuldeep Singh { /* sentinel */ } 93082ce7d0eSKuldeep Singh }; 93182ce7d0eSKuldeep Singh struct regmap *map; 93267a12ae5SMichael Walle u32 val, sys_pll_ratio; 93382ce7d0eSKuldeep Singh int ret; 93482ce7d0eSKuldeep Singh 93582ce7d0eSKuldeep Singh /* Check for LS1028A family */ 93682ce7d0eSKuldeep Singh if (!soc_device_match(ls1028a_soc_attr)) { 93782ce7d0eSKuldeep Singh dev_dbg(f->dev, "Errata applicable only for LS1028A\n"); 93882ce7d0eSKuldeep Singh return; 93982ce7d0eSKuldeep Singh } 94082ce7d0eSKuldeep Singh 94182ce7d0eSKuldeep Singh map = syscon_regmap_lookup_by_compatible("fsl,ls1028a-dcfg"); 94282ce7d0eSKuldeep Singh if (IS_ERR(map)) { 94382ce7d0eSKuldeep Singh dev_err(f->dev, "No syscon regmap\n"); 94482ce7d0eSKuldeep Singh goto err; 94582ce7d0eSKuldeep Singh } 94682ce7d0eSKuldeep Singh 94782ce7d0eSKuldeep Singh ret = regmap_read(map, DCFG_RCWSR1, &val); 94882ce7d0eSKuldeep Singh if (ret < 0) 94982ce7d0eSKuldeep Singh goto err; 95082ce7d0eSKuldeep Singh 95167a12ae5SMichael Walle sys_pll_ratio = FIELD_GET(SYS_PLL_RAT, val); 95267a12ae5SMichael Walle dev_dbg(f->dev, "val: 0x%08x, sys_pll_ratio: %d\n", val, sys_pll_ratio); 95382ce7d0eSKuldeep Singh 95467a12ae5SMichael Walle /* Use IP bus only if platform clock is 300MHz */ 95567a12ae5SMichael Walle if (sys_pll_ratio == 3) 95682ce7d0eSKuldeep Singh f->devtype_data->quirks |= FSPI_QUIRK_USE_IP_ONLY; 95782ce7d0eSKuldeep Singh 95882ce7d0eSKuldeep Singh return; 95982ce7d0eSKuldeep Singh 96082ce7d0eSKuldeep Singh err: 96182ce7d0eSKuldeep Singh dev_err(f->dev, "Errata cannot be executed. Read via IP bus may not work\n"); 96282ce7d0eSKuldeep Singh } 96382ce7d0eSKuldeep Singh 964a5356aefSYogesh Narayan Gaur static int nxp_fspi_default_setup(struct nxp_fspi *f) 965a5356aefSYogesh Narayan Gaur { 966a5356aefSYogesh Narayan Gaur void __iomem *base = f->iobase; 967a5356aefSYogesh Narayan Gaur int ret, i; 968a5356aefSYogesh Narayan Gaur u32 reg; 969a5356aefSYogesh Narayan Gaur 970a5356aefSYogesh Narayan Gaur /* disable and unprepare clock to avoid glitch pass to controller */ 971a5356aefSYogesh Narayan Gaur nxp_fspi_clk_disable_unprep(f); 972a5356aefSYogesh Narayan Gaur 973a5356aefSYogesh Narayan Gaur /* the default frequency, we will change it later if necessary. */ 974a5356aefSYogesh Narayan Gaur ret = clk_set_rate(f->clk, 20000000); 975a5356aefSYogesh Narayan Gaur if (ret) 976a5356aefSYogesh Narayan Gaur return ret; 977a5356aefSYogesh Narayan Gaur 978a5356aefSYogesh Narayan Gaur ret = nxp_fspi_clk_prep_enable(f); 979a5356aefSYogesh Narayan Gaur if (ret) 980a5356aefSYogesh Narayan Gaur return ret; 981a5356aefSYogesh Narayan Gaur 98282ce7d0eSKuldeep Singh /* 98382ce7d0eSKuldeep Singh * ERR050568: Flash access by FlexSPI AHB command may not work with 98482ce7d0eSKuldeep Singh * platform frequency equal to 300 MHz on LS1028A. 98582ce7d0eSKuldeep Singh * LS1028A reuses LX2160A compatible entry. Make errata applicable for 98682ce7d0eSKuldeep Singh * Layerscape LS1028A platform. 98782ce7d0eSKuldeep Singh */ 98882ce7d0eSKuldeep Singh if (of_device_is_compatible(f->dev->of_node, "nxp,lx2160a-fspi")) 98982ce7d0eSKuldeep Singh erratum_err050568(f); 99082ce7d0eSKuldeep Singh 991a5356aefSYogesh Narayan Gaur /* Reset the module */ 992a5356aefSYogesh Narayan Gaur /* w1c register, wait unit clear */ 993a5356aefSYogesh Narayan Gaur ret = fspi_readl_poll_tout(f, f->iobase + FSPI_MCR0, 994a5356aefSYogesh Narayan Gaur FSPI_MCR0_SWRST, 0, POLL_TOUT, false); 995a5356aefSYogesh Narayan Gaur WARN_ON(ret); 996a5356aefSYogesh Narayan Gaur 997a5356aefSYogesh Narayan Gaur /* Disable the module */ 998a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_MCR0_MDIS, base + FSPI_MCR0); 999a5356aefSYogesh Narayan Gaur 1000a5356aefSYogesh Narayan Gaur /* Reset the DLL register to default value */ 1001a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_DLLACR_OVRDEN, base + FSPI_DLLACR); 1002a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_DLLBCR_OVRDEN, base + FSPI_DLLBCR); 1003a5356aefSYogesh Narayan Gaur 1004a5356aefSYogesh Narayan Gaur /* enable module */ 1005b7461fa5SHan Xu fspi_writel(f, FSPI_MCR0_AHB_TIMEOUT(0xFF) | 1006b7461fa5SHan Xu FSPI_MCR0_IP_TIMEOUT(0xFF) | (u32) FSPI_MCR0_OCTCOMB_EN, 1007a5356aefSYogesh Narayan Gaur base + FSPI_MCR0); 1008a5356aefSYogesh Narayan Gaur 1009a5356aefSYogesh Narayan Gaur /* 1010a5356aefSYogesh Narayan Gaur * Disable same device enable bit and configure all slave devices 1011a5356aefSYogesh Narayan Gaur * independently. 1012a5356aefSYogesh Narayan Gaur */ 1013a5356aefSYogesh Narayan Gaur reg = fspi_readl(f, f->iobase + FSPI_MCR2); 1014a5356aefSYogesh Narayan Gaur reg = reg & ~(FSPI_MCR2_SAMEDEVICEEN); 1015a5356aefSYogesh Narayan Gaur fspi_writel(f, reg, base + FSPI_MCR2); 1016a5356aefSYogesh Narayan Gaur 1017a5356aefSYogesh Narayan Gaur /* AHB configuration for access buffer 0~7. */ 1018a5356aefSYogesh Narayan Gaur for (i = 0; i < 7; i++) 1019a5356aefSYogesh Narayan Gaur fspi_writel(f, 0, base + FSPI_AHBRX_BUF0CR0 + 4 * i); 1020a5356aefSYogesh Narayan Gaur 1021a5356aefSYogesh Narayan Gaur /* 1022a5356aefSYogesh Narayan Gaur * Set ADATSZ with the maximum AHB buffer size to improve the read 1023a5356aefSYogesh Narayan Gaur * performance. 1024a5356aefSYogesh Narayan Gaur */ 1025a5356aefSYogesh Narayan Gaur fspi_writel(f, (f->devtype_data->ahb_buf_size / 8 | 1026a5356aefSYogesh Narayan Gaur FSPI_AHBRXBUF0CR7_PREF), base + FSPI_AHBRX_BUF7CR0); 1027a5356aefSYogesh Narayan Gaur 1028a5356aefSYogesh Narayan Gaur /* prefetch and no start address alignment limitation */ 1029a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_AHBCR_PREF_EN | FSPI_AHBCR_RDADDROPT, 1030a5356aefSYogesh Narayan Gaur base + FSPI_AHBCR); 1031a5356aefSYogesh Narayan Gaur 1032a5356aefSYogesh Narayan Gaur /* AHB Read - Set lut sequence ID for all CS. */ 1033a5356aefSYogesh Narayan Gaur fspi_writel(f, SEQID_LUT, base + FSPI_FLSHA1CR2); 1034a5356aefSYogesh Narayan Gaur fspi_writel(f, SEQID_LUT, base + FSPI_FLSHA2CR2); 1035a5356aefSYogesh Narayan Gaur fspi_writel(f, SEQID_LUT, base + FSPI_FLSHB1CR2); 1036a5356aefSYogesh Narayan Gaur fspi_writel(f, SEQID_LUT, base + FSPI_FLSHB2CR2); 1037a5356aefSYogesh Narayan Gaur 1038a5356aefSYogesh Narayan Gaur f->selected = -1; 1039a5356aefSYogesh Narayan Gaur 1040a5356aefSYogesh Narayan Gaur /* enable the interrupt */ 1041a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_INTEN_IPCMDDONE, base + FSPI_INTEN); 1042a5356aefSYogesh Narayan Gaur 1043a5356aefSYogesh Narayan Gaur return 0; 1044a5356aefSYogesh Narayan Gaur } 1045a5356aefSYogesh Narayan Gaur 1046a5356aefSYogesh Narayan Gaur static const char *nxp_fspi_get_name(struct spi_mem *mem) 1047a5356aefSYogesh Narayan Gaur { 1048a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = spi_controller_get_devdata(mem->spi->master); 1049a5356aefSYogesh Narayan Gaur struct device *dev = &mem->spi->dev; 1050a5356aefSYogesh Narayan Gaur const char *name; 1051a5356aefSYogesh Narayan Gaur 1052a5356aefSYogesh Narayan Gaur // Set custom name derived from the platform_device of the controller. 1053a5356aefSYogesh Narayan Gaur if (of_get_available_child_count(f->dev->of_node) == 1) 1054a5356aefSYogesh Narayan Gaur return dev_name(f->dev); 1055a5356aefSYogesh Narayan Gaur 1056a5356aefSYogesh Narayan Gaur name = devm_kasprintf(dev, GFP_KERNEL, 1057a5356aefSYogesh Narayan Gaur "%s-%d", dev_name(f->dev), 1058*9e264f3fSAmit Kumar Mahapatra via Alsa-devel spi_get_chipselect(mem->spi, 0)); 1059a5356aefSYogesh Narayan Gaur 1060a5356aefSYogesh Narayan Gaur if (!name) { 1061a5356aefSYogesh Narayan Gaur dev_err(dev, "failed to get memory for custom flash name\n"); 1062a5356aefSYogesh Narayan Gaur return ERR_PTR(-ENOMEM); 1063a5356aefSYogesh Narayan Gaur } 1064a5356aefSYogesh Narayan Gaur 1065a5356aefSYogesh Narayan Gaur return name; 1066a5356aefSYogesh Narayan Gaur } 1067a5356aefSYogesh Narayan Gaur 1068a5356aefSYogesh Narayan Gaur static const struct spi_controller_mem_ops nxp_fspi_mem_ops = { 1069a5356aefSYogesh Narayan Gaur .adjust_op_size = nxp_fspi_adjust_op_size, 1070a5356aefSYogesh Narayan Gaur .supports_op = nxp_fspi_supports_op, 1071a5356aefSYogesh Narayan Gaur .exec_op = nxp_fspi_exec_op, 1072a5356aefSYogesh Narayan Gaur .get_name = nxp_fspi_get_name, 1073a5356aefSYogesh Narayan Gaur }; 1074a5356aefSYogesh Narayan Gaur 1075a5356aefSYogesh Narayan Gaur static int nxp_fspi_probe(struct platform_device *pdev) 1076a5356aefSYogesh Narayan Gaur { 1077a5356aefSYogesh Narayan Gaur struct spi_controller *ctlr; 1078a5356aefSYogesh Narayan Gaur struct device *dev = &pdev->dev; 1079a5356aefSYogesh Narayan Gaur struct device_node *np = dev->of_node; 1080a5356aefSYogesh Narayan Gaur struct resource *res; 1081a5356aefSYogesh Narayan Gaur struct nxp_fspi *f; 1082a5356aefSYogesh Narayan Gaur int ret; 108371d80563SRan Wang u32 reg; 1084a5356aefSYogesh Narayan Gaur 1085a5356aefSYogesh Narayan Gaur ctlr = spi_alloc_master(&pdev->dev, sizeof(*f)); 1086a5356aefSYogesh Narayan Gaur if (!ctlr) 1087a5356aefSYogesh Narayan Gaur return -ENOMEM; 1088a5356aefSYogesh Narayan Gaur 1089b3281794SYogesh Narayan Gaur ctlr->mode_bits = SPI_RX_DUAL | SPI_RX_QUAD | SPI_RX_OCTAL | 1090b3281794SYogesh Narayan Gaur SPI_TX_DUAL | SPI_TX_QUAD | SPI_TX_OCTAL; 1091a5356aefSYogesh Narayan Gaur 1092a5356aefSYogesh Narayan Gaur f = spi_controller_get_devdata(ctlr); 1093a5356aefSYogesh Narayan Gaur f->dev = dev; 109482ce7d0eSKuldeep Singh f->devtype_data = (struct nxp_fspi_devtype_data *)device_get_match_data(dev); 1095a5356aefSYogesh Narayan Gaur if (!f->devtype_data) { 1096a5356aefSYogesh Narayan Gaur ret = -ENODEV; 1097a5356aefSYogesh Narayan Gaur goto err_put_ctrl; 1098a5356aefSYogesh Narayan Gaur } 1099a5356aefSYogesh Narayan Gaur 1100a5356aefSYogesh Narayan Gaur platform_set_drvdata(pdev, f); 1101a5356aefSYogesh Narayan Gaur 1102a5356aefSYogesh Narayan Gaur /* find the resources - configuration register address space */ 11034b9ef436SAndy Shevchenko if (is_acpi_node(dev_fwnode(f->dev))) 110455ab8487Skuldip dwivedi res = platform_get_resource(pdev, IORESOURCE_MEM, 0); 110555ab8487Skuldip dwivedi else 110655ab8487Skuldip dwivedi res = platform_get_resource_byname(pdev, 110755ab8487Skuldip dwivedi IORESOURCE_MEM, "fspi_base"); 110855ab8487Skuldip dwivedi 1109a5356aefSYogesh Narayan Gaur f->iobase = devm_ioremap_resource(dev, res); 1110a5356aefSYogesh Narayan Gaur if (IS_ERR(f->iobase)) { 1111a5356aefSYogesh Narayan Gaur ret = PTR_ERR(f->iobase); 1112a5356aefSYogesh Narayan Gaur goto err_put_ctrl; 1113a5356aefSYogesh Narayan Gaur } 1114a5356aefSYogesh Narayan Gaur 1115a5356aefSYogesh Narayan Gaur /* find the resources - controller memory mapped space */ 11164b9ef436SAndy Shevchenko if (is_acpi_node(dev_fwnode(f->dev))) 111755ab8487Skuldip dwivedi res = platform_get_resource(pdev, IORESOURCE_MEM, 1); 111855ab8487Skuldip dwivedi else 111955ab8487Skuldip dwivedi res = platform_get_resource_byname(pdev, 112055ab8487Skuldip dwivedi IORESOURCE_MEM, "fspi_mmap"); 112155ab8487Skuldip dwivedi 11221a421ebaSDan Carpenter if (!res) { 11231a421ebaSDan Carpenter ret = -ENODEV; 1124a5356aefSYogesh Narayan Gaur goto err_put_ctrl; 1125a5356aefSYogesh Narayan Gaur } 1126a5356aefSYogesh Narayan Gaur 1127a5356aefSYogesh Narayan Gaur /* assign memory mapped starting address and mapped size. */ 1128a5356aefSYogesh Narayan Gaur f->memmap_phy = res->start; 1129a5356aefSYogesh Narayan Gaur f->memmap_phy_size = resource_size(res); 1130a5356aefSYogesh Narayan Gaur 1131a5356aefSYogesh Narayan Gaur /* find the clocks */ 113255ab8487Skuldip dwivedi if (dev_of_node(&pdev->dev)) { 1133a5356aefSYogesh Narayan Gaur f->clk_en = devm_clk_get(dev, "fspi_en"); 1134a5356aefSYogesh Narayan Gaur if (IS_ERR(f->clk_en)) { 1135a5356aefSYogesh Narayan Gaur ret = PTR_ERR(f->clk_en); 1136a5356aefSYogesh Narayan Gaur goto err_put_ctrl; 1137a5356aefSYogesh Narayan Gaur } 1138a5356aefSYogesh Narayan Gaur 1139a5356aefSYogesh Narayan Gaur f->clk = devm_clk_get(dev, "fspi"); 1140a5356aefSYogesh Narayan Gaur if (IS_ERR(f->clk)) { 1141a5356aefSYogesh Narayan Gaur ret = PTR_ERR(f->clk); 1142a5356aefSYogesh Narayan Gaur goto err_put_ctrl; 1143a5356aefSYogesh Narayan Gaur } 1144a5356aefSYogesh Narayan Gaur 1145a5356aefSYogesh Narayan Gaur ret = nxp_fspi_clk_prep_enable(f); 1146a5356aefSYogesh Narayan Gaur if (ret) { 1147a5356aefSYogesh Narayan Gaur dev_err(dev, "can not enable the clock\n"); 1148a5356aefSYogesh Narayan Gaur goto err_put_ctrl; 1149a5356aefSYogesh Narayan Gaur } 115055ab8487Skuldip dwivedi } 1151a5356aefSYogesh Narayan Gaur 1152f422316cSHaibo Chen /* Clear potential interrupts */ 1153f422316cSHaibo Chen reg = fspi_readl(f, f->iobase + FSPI_INTR); 1154f422316cSHaibo Chen if (reg) 1155f422316cSHaibo Chen fspi_writel(f, reg, f->iobase + FSPI_INTR); 1156f422316cSHaibo Chen 1157a5356aefSYogesh Narayan Gaur /* find the irq */ 1158a5356aefSYogesh Narayan Gaur ret = platform_get_irq(pdev, 0); 11596b8ac10eSStephen Boyd if (ret < 0) 1160a5356aefSYogesh Narayan Gaur goto err_disable_clk; 1161a5356aefSYogesh Narayan Gaur 1162a5356aefSYogesh Narayan Gaur ret = devm_request_irq(dev, ret, 1163a5356aefSYogesh Narayan Gaur nxp_fspi_irq_handler, 0, pdev->name, f); 1164a5356aefSYogesh Narayan Gaur if (ret) { 1165a5356aefSYogesh Narayan Gaur dev_err(dev, "failed to request irq: %d\n", ret); 1166a5356aefSYogesh Narayan Gaur goto err_disable_clk; 1167a5356aefSYogesh Narayan Gaur } 1168a5356aefSYogesh Narayan Gaur 1169a5356aefSYogesh Narayan Gaur mutex_init(&f->lock); 1170a5356aefSYogesh Narayan Gaur 1171a5356aefSYogesh Narayan Gaur ctlr->bus_num = -1; 1172a5356aefSYogesh Narayan Gaur ctlr->num_chipselect = NXP_FSPI_MAX_CHIPSELECT; 1173a5356aefSYogesh Narayan Gaur ctlr->mem_ops = &nxp_fspi_mem_ops; 1174a5356aefSYogesh Narayan Gaur 1175a5356aefSYogesh Narayan Gaur nxp_fspi_default_setup(f); 1176a5356aefSYogesh Narayan Gaur 1177a5356aefSYogesh Narayan Gaur ctlr->dev.of_node = np; 1178a5356aefSYogesh Narayan Gaur 117969c23dbfSChuhong Yuan ret = devm_spi_register_controller(&pdev->dev, ctlr); 1180a5356aefSYogesh Narayan Gaur if (ret) 1181a5356aefSYogesh Narayan Gaur goto err_destroy_mutex; 1182a5356aefSYogesh Narayan Gaur 1183a5356aefSYogesh Narayan Gaur return 0; 1184a5356aefSYogesh Narayan Gaur 1185a5356aefSYogesh Narayan Gaur err_destroy_mutex: 1186a5356aefSYogesh Narayan Gaur mutex_destroy(&f->lock); 1187a5356aefSYogesh Narayan Gaur 1188a5356aefSYogesh Narayan Gaur err_disable_clk: 1189a5356aefSYogesh Narayan Gaur nxp_fspi_clk_disable_unprep(f); 1190a5356aefSYogesh Narayan Gaur 1191a5356aefSYogesh Narayan Gaur err_put_ctrl: 1192a5356aefSYogesh Narayan Gaur spi_controller_put(ctlr); 1193a5356aefSYogesh Narayan Gaur 1194a5356aefSYogesh Narayan Gaur dev_err(dev, "NXP FSPI probe failed\n"); 1195a5356aefSYogesh Narayan Gaur return ret; 1196a5356aefSYogesh Narayan Gaur } 1197a5356aefSYogesh Narayan Gaur 11982dd82e32SUwe Kleine-König static void nxp_fspi_remove(struct platform_device *pdev) 1199a5356aefSYogesh Narayan Gaur { 1200a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = platform_get_drvdata(pdev); 1201a5356aefSYogesh Narayan Gaur 1202a5356aefSYogesh Narayan Gaur /* disable the hardware */ 1203a5356aefSYogesh Narayan Gaur fspi_writel(f, FSPI_MCR0_MDIS, f->iobase + FSPI_MCR0); 1204a5356aefSYogesh Narayan Gaur 1205a5356aefSYogesh Narayan Gaur nxp_fspi_clk_disable_unprep(f); 1206a5356aefSYogesh Narayan Gaur 1207a5356aefSYogesh Narayan Gaur mutex_destroy(&f->lock); 1208a5356aefSYogesh Narayan Gaur 1209d166a735SHan Xu if (f->ahb_addr) 1210d166a735SHan Xu iounmap(f->ahb_addr); 1211a5356aefSYogesh Narayan Gaur } 1212a5356aefSYogesh Narayan Gaur 1213a5356aefSYogesh Narayan Gaur static int nxp_fspi_suspend(struct device *dev) 1214a5356aefSYogesh Narayan Gaur { 1215a5356aefSYogesh Narayan Gaur return 0; 1216a5356aefSYogesh Narayan Gaur } 1217a5356aefSYogesh Narayan Gaur 1218a5356aefSYogesh Narayan Gaur static int nxp_fspi_resume(struct device *dev) 1219a5356aefSYogesh Narayan Gaur { 1220a5356aefSYogesh Narayan Gaur struct nxp_fspi *f = dev_get_drvdata(dev); 1221a5356aefSYogesh Narayan Gaur 1222a5356aefSYogesh Narayan Gaur nxp_fspi_default_setup(f); 1223a5356aefSYogesh Narayan Gaur 1224a5356aefSYogesh Narayan Gaur return 0; 1225a5356aefSYogesh Narayan Gaur } 1226a5356aefSYogesh Narayan Gaur 1227a5356aefSYogesh Narayan Gaur static const struct of_device_id nxp_fspi_dt_ids[] = { 1228a5356aefSYogesh Narayan Gaur { .compatible = "nxp,lx2160a-fspi", .data = (void *)&lx2160a_data, }, 1229941be8a7SHan Xu { .compatible = "nxp,imx8mm-fspi", .data = (void *)&imx8mm_data, }, 12300467a973SHeiko Schocher { .compatible = "nxp,imx8mp-fspi", .data = (void *)&imx8mm_data, }, 1231941be8a7SHan Xu { .compatible = "nxp,imx8qxp-fspi", .data = (void *)&imx8qxp_data, }, 1232c791e3c3SHan Xu { .compatible = "nxp,imx8dxl-fspi", .data = (void *)&imx8dxl_data, }, 1233a5356aefSYogesh Narayan Gaur { /* sentinel */ } 1234a5356aefSYogesh Narayan Gaur }; 1235a5356aefSYogesh Narayan Gaur MODULE_DEVICE_TABLE(of, nxp_fspi_dt_ids); 1236a5356aefSYogesh Narayan Gaur 123755ab8487Skuldip dwivedi #ifdef CONFIG_ACPI 123855ab8487Skuldip dwivedi static const struct acpi_device_id nxp_fspi_acpi_ids[] = { 123955ab8487Skuldip dwivedi { "NXP0009", .driver_data = (kernel_ulong_t)&lx2160a_data, }, 124055ab8487Skuldip dwivedi {} 124155ab8487Skuldip dwivedi }; 124255ab8487Skuldip dwivedi MODULE_DEVICE_TABLE(acpi, nxp_fspi_acpi_ids); 124355ab8487Skuldip dwivedi #endif 124455ab8487Skuldip dwivedi 1245a5356aefSYogesh Narayan Gaur static const struct dev_pm_ops nxp_fspi_pm_ops = { 1246a5356aefSYogesh Narayan Gaur .suspend = nxp_fspi_suspend, 1247a5356aefSYogesh Narayan Gaur .resume = nxp_fspi_resume, 1248a5356aefSYogesh Narayan Gaur }; 1249a5356aefSYogesh Narayan Gaur 1250a5356aefSYogesh Narayan Gaur static struct platform_driver nxp_fspi_driver = { 1251a5356aefSYogesh Narayan Gaur .driver = { 1252a5356aefSYogesh Narayan Gaur .name = "nxp-fspi", 1253a5356aefSYogesh Narayan Gaur .of_match_table = nxp_fspi_dt_ids, 125455ab8487Skuldip dwivedi .acpi_match_table = ACPI_PTR(nxp_fspi_acpi_ids), 1255a5356aefSYogesh Narayan Gaur .pm = &nxp_fspi_pm_ops, 1256a5356aefSYogesh Narayan Gaur }, 1257a5356aefSYogesh Narayan Gaur .probe = nxp_fspi_probe, 12582dd82e32SUwe Kleine-König .remove_new = nxp_fspi_remove, 1259a5356aefSYogesh Narayan Gaur }; 1260a5356aefSYogesh Narayan Gaur module_platform_driver(nxp_fspi_driver); 1261a5356aefSYogesh Narayan Gaur 1262a5356aefSYogesh Narayan Gaur MODULE_DESCRIPTION("NXP FSPI Controller Driver"); 1263a5356aefSYogesh Narayan Gaur MODULE_AUTHOR("NXP Semiconductor"); 1264a5356aefSYogesh Narayan Gaur MODULE_AUTHOR("Yogesh Narayan Gaur <yogeshnarayan.gaur@nxp.com>"); 1265ce6f0697SYogesh Narayan Gaur MODULE_AUTHOR("Boris Brezillon <bbrezillon@kernel.org>"); 1266a5356aefSYogesh Narayan Gaur MODULE_AUTHOR("Frieder Schrempf <frieder.schrempf@kontron.de>"); 1267ce6f0697SYogesh Narayan Gaur MODULE_LICENSE("GPL v2"); 1268