mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-11-26 22:52:18 +00:00
83d290c56f
When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com>
397 lines
10 KiB
C
397 lines
10 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Renesas RCar Gen3 RPC Hyperflash driver
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*
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* Copyright (C) 2016 Renesas Electronics Corporation
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* Copyright (C) 2016 Cogent Embedded, Inc.
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* Copyright (C) 2017 Marek Vasut <marek.vasut@gmail.com>
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*/
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#include <common.h>
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#include <asm/io.h>
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#include <clk.h>
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#include <dm.h>
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#include <dm/of_access.h>
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#include <errno.h>
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#include <fdt_support.h>
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#include <flash.h>
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#include <mtd.h>
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#include <wait_bit.h>
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#include <mtd/cfi_flash.h>
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#define RPC_CMNCR 0x0000 /* R/W */
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#define RPC_CMNCR_MD BIT(31)
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#define RPC_CMNCR_MOIIO0(val) (((val) & 0x3) << 16)
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#define RPC_CMNCR_MOIIO1(val) (((val) & 0x3) << 18)
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#define RPC_CMNCR_MOIIO2(val) (((val) & 0x3) << 20)
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#define RPC_CMNCR_MOIIO3(val) (((val) & 0x3) << 22)
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#define RPC_CMNCR_MOIIO_HIZ (RPC_CMNCR_MOIIO0(3) | RPC_CMNCR_MOIIO1(3) | \
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RPC_CMNCR_MOIIO2(3) | RPC_CMNCR_MOIIO3(3))
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#define RPC_CMNCR_IO0FV(val) (((val) & 0x3) << 8)
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#define RPC_CMNCR_IO2FV(val) (((val) & 0x3) << 12)
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#define RPC_CMNCR_IO3FV(val) (((val) & 0x3) << 14)
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#define RPC_CMNCR_IOFV_HIZ (RPC_CMNCR_IO0FV(3) | RPC_CMNCR_IO2FV(3) | \
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RPC_CMNCR_IO3FV(3))
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#define RPC_CMNCR_BSZ(val) (((val) & 0x3) << 0)
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#define RPC_SSLDR 0x0004 /* R/W */
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#define RPC_SSLDR_SPNDL(d) (((d) & 0x7) << 16)
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#define RPC_SSLDR_SLNDL(d) (((d) & 0x7) << 8)
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#define RPC_SSLDR_SCKDL(d) (((d) & 0x7) << 0)
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#define RPC_DRCR 0x000C /* R/W */
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#define RPC_DRCR_SSLN BIT(24)
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#define RPC_DRCR_RBURST(v) (((v) & 0x1F) << 16)
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#define RPC_DRCR_RCF BIT(9)
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#define RPC_DRCR_RBE BIT(8)
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#define RPC_DRCR_SSLE BIT(0)
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#define RPC_DRCMR 0x0010 /* R/W */
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#define RPC_DRCMR_CMD(c) (((c) & 0xFF) << 16)
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#define RPC_DRCMR_OCMD(c) (((c) & 0xFF) << 0)
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#define RPC_DREAR 0x0014 /* R/W */
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#define RPC_DREAR_EAV(v) (((v) & 0xFF) << 16)
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#define RPC_DREAR_EAC(v) (((v) & 0x7) << 0)
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#define RPC_DROPR 0x0018 /* R/W */
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#define RPC_DROPR_OPD3(o) (((o) & 0xFF) << 24)
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#define RPC_DROPR_OPD2(o) (((o) & 0xFF) << 16)
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#define RPC_DROPR_OPD1(o) (((o) & 0xFF) << 8)
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#define RPC_DROPR_OPD0(o) (((o) & 0xFF) << 0)
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#define RPC_DRENR 0x001C /* R/W */
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#define RPC_DRENR_CDB(o) (u32)((((o) & 0x3) << 30))
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#define RPC_DRENR_OCDB(o) (((o) & 0x3) << 28)
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#define RPC_DRENR_ADB(o) (((o) & 0x3) << 24)
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#define RPC_DRENR_OPDB(o) (((o) & 0x3) << 20)
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#define RPC_DRENR_SPIDB(o) (((o) & 0x3) << 16)
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#define RPC_DRENR_DME BIT(15)
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#define RPC_DRENR_CDE BIT(14)
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#define RPC_DRENR_OCDE BIT(12)
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#define RPC_DRENR_ADE(v) (((v) & 0xF) << 8)
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#define RPC_DRENR_OPDE(v) (((v) & 0xF) << 4)
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#define RPC_SMCR 0x0020 /* R/W */
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#define RPC_SMCR_SSLKP BIT(8)
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#define RPC_SMCR_SPIRE BIT(2)
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#define RPC_SMCR_SPIWE BIT(1)
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#define RPC_SMCR_SPIE BIT(0)
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#define RPC_SMCMR 0x0024 /* R/W */
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#define RPC_SMCMR_CMD(c) (((c) & 0xFF) << 16)
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#define RPC_SMCMR_OCMD(c) (((c) & 0xFF) << 0)
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#define RPC_SMADR 0x0028 /* R/W */
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#define RPC_SMOPR 0x002C /* R/W */
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#define RPC_SMOPR_OPD0(o) (((o) & 0xFF) << 0)
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#define RPC_SMOPR_OPD1(o) (((o) & 0xFF) << 8)
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#define RPC_SMOPR_OPD2(o) (((o) & 0xFF) << 16)
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#define RPC_SMOPR_OPD3(o) (((o) & 0xFF) << 24)
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#define RPC_SMENR 0x0030 /* R/W */
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#define RPC_SMENR_CDB(o) (((o) & 0x3) << 30)
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#define RPC_SMENR_OCDB(o) (((o) & 0x3) << 28)
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#define RPC_SMENR_ADB(o) (((o) & 0x3) << 24)
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#define RPC_SMENR_OPDB(o) (((o) & 0x3) << 20)
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#define RPC_SMENR_SPIDB(o) (((o) & 0x3) << 16)
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#define RPC_SMENR_DME BIT(15)
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#define RPC_SMENR_CDE BIT(14)
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#define RPC_SMENR_OCDE BIT(12)
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#define RPC_SMENR_ADE(v) (((v) & 0xF) << 8)
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#define RPC_SMENR_OPDE(v) (((v) & 0xF) << 4)
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#define RPC_SMENR_SPIDE(v) (((v) & 0xF) << 0)
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#define RPC_SMRDR0 0x0038 /* R */
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#define RPC_SMRDR1 0x003C /* R */
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#define RPC_SMWDR0 0x0040 /* R/W */
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#define RPC_SMWDR1 0x0044 /* R/W */
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#define RPC_CMNSR 0x0048 /* R */
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#define RPC_CMNSR_SSLF BIT(1)
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#define RPC_CMNSR_TEND BIT(0)
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#define RPC_DRDMCR 0x0058 /* R/W */
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#define RPC_DRDMCR_DMCYC(v) (((v) & 0xF) << 0)
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#define RPC_DRDRENR 0x005C /* R/W */
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#define RPC_DRDRENR_HYPE (0x5 << 12)
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#define RPC_DRDRENR_ADDRE BIT(8)
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#define RPC_DRDRENR_OPDRE BIT(4)
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#define RPC_DRDRENR_DRDRE BIT(0)
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#define RPC_SMDMCR 0x0060 /* R/W */
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#define RPC_SMDMCR_DMCYC(v) (((v) & 0xF) << 0)
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#define RPC_SMDRENR 0x0064 /* R/W */
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#define RPC_SMDRENR_HYPE (0x5 << 12)
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#define RPC_SMDRENR_ADDRE BIT(8)
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#define RPC_SMDRENR_OPDRE BIT(4)
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#define RPC_SMDRENR_SPIDRE BIT(0)
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#define RPC_PHYCNT 0x007C /* R/W */
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#define RPC_PHYCNT_CAL BIT(31)
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#define PRC_PHYCNT_OCTA_AA BIT(22)
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#define PRC_PHYCNT_OCTA_SA BIT(23)
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#define PRC_PHYCNT_EXDS BIT(21)
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#define RPC_PHYCNT_OCT BIT(20)
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#define RPC_PHYCNT_WBUF2 BIT(4)
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#define RPC_PHYCNT_WBUF BIT(2)
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#define RPC_PHYCNT_MEM(v) (((v) & 0x3) << 0)
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#define RPC_PHYINT 0x0088 /* R/W */
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#define RPC_PHYINT_RSTEN BIT(18)
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#define RPC_PHYINT_WPEN BIT(17)
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#define RPC_PHYINT_INTEN BIT(16)
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#define RPC_PHYINT_RST BIT(2)
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#define RPC_PHYINT_WP BIT(1)
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#define RPC_PHYINT_INT BIT(0)
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#define RPC_WBUF 0x8000 /* R/W size=4/8/16/32/64Bytes */
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#define RPC_WBUF_SIZE 0x100
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static phys_addr_t rpc_base;
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enum rpc_hf_size {
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RPC_HF_SIZE_16BIT = RPC_SMENR_SPIDE(0x8),
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RPC_HF_SIZE_32BIT = RPC_SMENR_SPIDE(0xC),
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RPC_HF_SIZE_64BIT = RPC_SMENR_SPIDE(0xF),
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};
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static int rpc_hf_wait_tend(void)
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{
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void __iomem *reg = (void __iomem *)rpc_base + RPC_CMNSR;
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return wait_for_bit_le32(reg, RPC_CMNSR_TEND, true, 1000, 0);
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}
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static int rpc_hf_mode(bool man)
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{
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int ret;
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ret = rpc_hf_wait_tend();
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if (ret)
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return ret;
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clrsetbits_le32(rpc_base + RPC_PHYCNT,
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RPC_PHYCNT_WBUF | RPC_PHYCNT_WBUF2 |
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RPC_PHYCNT_CAL | RPC_PHYCNT_MEM(3),
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RPC_PHYCNT_CAL | RPC_PHYCNT_MEM(3));
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clrsetbits_le32(rpc_base + RPC_CMNCR,
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RPC_CMNCR_MD | RPC_CMNCR_BSZ(3),
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RPC_CMNCR_MOIIO_HIZ | RPC_CMNCR_IOFV_HIZ |
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(man ? RPC_CMNCR_MD : 0) | RPC_CMNCR_BSZ(1));
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if (man)
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return 0;
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writel(RPC_DRCR_RBURST(0x1F) | RPC_DRCR_RCF | RPC_DRCR_RBE,
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rpc_base + RPC_DRCR);
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writel(RPC_DRCMR_CMD(0xA0), rpc_base + RPC_DRCMR);
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writel(RPC_DRENR_CDB(2) | RPC_DRENR_OCDB(2) | RPC_DRENR_ADB(2) |
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RPC_DRENR_SPIDB(2) | RPC_DRENR_CDE | RPC_DRENR_OCDE |
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RPC_DRENR_ADE(4), rpc_base + RPC_DRENR);
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writel(RPC_DRDMCR_DMCYC(0xE), rpc_base + RPC_DRDMCR);
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writel(RPC_DRDRENR_HYPE | RPC_DRDRENR_ADDRE | RPC_DRDRENR_DRDRE,
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rpc_base + RPC_DRDRENR);
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/* Dummy read */
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readl(rpc_base + RPC_DRCR);
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return 0;
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}
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static int rpc_hf_xfer(void *addr, u64 wdata, u64 *rdata,
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enum rpc_hf_size size, bool write)
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{
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int ret;
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u32 val;
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ret = rpc_hf_mode(1);
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if (ret)
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return ret;
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/* Submit HF address, SMCMR CMD[7] ~= CA Bit# 47 (R/nW) */
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writel(write ? 0 : RPC_SMCMR_CMD(0x80), rpc_base + RPC_SMCMR);
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writel((uintptr_t)addr >> 1, rpc_base + RPC_SMADR);
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writel(0x0, rpc_base + RPC_SMOPR);
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writel(RPC_SMDRENR_HYPE | RPC_SMDRENR_ADDRE | RPC_SMDRENR_SPIDRE,
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rpc_base + RPC_SMDRENR);
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val = RPC_SMENR_CDB(2) | RPC_SMENR_OCDB(2) |
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RPC_SMENR_ADB(2) | RPC_SMENR_SPIDB(2) |
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RPC_SMENR_CDE | RPC_SMENR_OCDE | RPC_SMENR_ADE(4) | size;
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if (write) {
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writel(val, rpc_base + RPC_SMENR);
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if (size == RPC_HF_SIZE_64BIT)
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writeq(cpu_to_be64(wdata), rpc_base + RPC_SMWDR0);
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else
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writel(cpu_to_be32(wdata), rpc_base + RPC_SMWDR0);
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writel(RPC_SMCR_SPIWE | RPC_SMCR_SPIE, rpc_base + RPC_SMCR);
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} else {
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val |= RPC_SMENR_DME;
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writel(RPC_SMDMCR_DMCYC(0xE), rpc_base + RPC_SMDMCR);
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writel(val, rpc_base + RPC_SMENR);
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writel(RPC_SMCR_SPIRE | RPC_SMCR_SPIE, rpc_base + RPC_SMCR);
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ret = rpc_hf_wait_tend();
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if (ret)
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return ret;
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if (size == RPC_HF_SIZE_64BIT)
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*rdata = be64_to_cpu(readq(rpc_base + RPC_SMRDR0));
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else
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*rdata = be32_to_cpu(readl(rpc_base + RPC_SMRDR0));
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}
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return rpc_hf_mode(0);
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}
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static void rpc_hf_write_cmd(void *addr, u64 wdata, enum rpc_hf_size size)
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{
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int ret;
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ret = rpc_hf_xfer(addr, wdata, NULL, size, 1);
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if (ret)
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printf("RPC: Write failed, ret=%i\n", ret);
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}
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static u64 rpc_hf_read_reg(void *addr, enum rpc_hf_size size)
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{
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u64 rdata = 0;
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int ret;
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ret = rpc_hf_xfer(addr, 0, &rdata, size, 0);
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if (ret)
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printf("RPC: Read failed, ret=%i\n", ret);
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return rdata;
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}
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void flash_write8(u8 value, void *addr)
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{
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rpc_hf_write_cmd(addr, value, RPC_HF_SIZE_16BIT);
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}
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void flash_write16(u16 value, void *addr)
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{
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rpc_hf_write_cmd(addr, value, RPC_HF_SIZE_16BIT);
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}
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void flash_write32(u32 value, void *addr)
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{
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rpc_hf_write_cmd(addr, value, RPC_HF_SIZE_32BIT);
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}
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void flash_write64(u64 value, void *addr)
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{
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rpc_hf_write_cmd(addr, value, RPC_HF_SIZE_64BIT);
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}
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u8 flash_read8(void *addr)
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{
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return rpc_hf_read_reg(addr, RPC_HF_SIZE_16BIT);
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}
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u16 flash_read16(void *addr)
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{
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return rpc_hf_read_reg(addr, RPC_HF_SIZE_16BIT);
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}
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u32 flash_read32(void *addr)
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{
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return rpc_hf_read_reg(addr, RPC_HF_SIZE_32BIT);
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}
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u64 flash_read64(void *addr)
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{
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return rpc_hf_read_reg(addr, RPC_HF_SIZE_64BIT);
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}
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static int rpc_hf_bind(struct udevice *parent)
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{
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const void *fdt = gd->fdt_blob;
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ofnode node;
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int ret, off;
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/*
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* Check if there are any SPI NOR child nodes, if so, do NOT bind
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* as this controller will be operated by the QSPI driver instead.
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*/
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dev_for_each_subnode(node, parent) {
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off = ofnode_to_offset(node);
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ret = fdt_node_check_compatible(fdt, off, "spi-flash");
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if (!ret)
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return -ENODEV;
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ret = fdt_node_check_compatible(fdt, off, "jedec,spi-nor");
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if (!ret)
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return -ENODEV;
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}
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return 0;
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}
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static int rpc_hf_probe(struct udevice *dev)
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{
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void *blob = (void *)gd->fdt_blob;
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const fdt32_t *cell;
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int node = dev_of_offset(dev);
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int parent, addrc, sizec, len, ret;
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struct clk clk;
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phys_addr_t flash_base;
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parent = fdt_parent_offset(blob, node);
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fdt_support_default_count_cells(blob, parent, &addrc, &sizec);
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cell = fdt_getprop(blob, node, "reg", &len);
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if (!cell)
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return -ENOENT;
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if (addrc != 2 || sizec != 2)
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return -EINVAL;
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ret = clk_get_by_index(dev, 0, &clk);
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if (ret < 0) {
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dev_err(dev, "Failed to get RPC clock\n");
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return ret;
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}
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ret = clk_enable(&clk);
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clk_free(&clk);
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if (ret) {
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dev_err(dev, "Failed to enable RPC clock\n");
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return ret;
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}
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rpc_base = fdt_translate_address(blob, node, cell);
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flash_base = fdt_translate_address(blob, node, cell + addrc + sizec);
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flash_info[0].dev = dev;
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flash_info[0].base = flash_base;
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cfi_flash_num_flash_banks = 1;
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gd->bd->bi_flashstart = flash_base;
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return 0;
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}
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static const struct udevice_id rpc_hf_ids[] = {
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{ .compatible = "renesas,rpc" },
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{}
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};
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U_BOOT_DRIVER(rpc_hf) = {
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.name = "rpc_hf",
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.id = UCLASS_MTD,
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.of_match = rpc_hf_ids,
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.bind = rpc_hf_bind,
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.probe = rpc_hf_probe,
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};
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