Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Tomer Maimon | 2049 | 99.85% | 4 | 80.00% |
Rob Herring | 3 | 0.15% | 1 | 20.00% |
Total | 2052 | 5 |
// SPDX-License-Identifier: GPL-2.0 // Copyright (c) 2019 Nuvoton Technology corporation. #include <linux/delay.h> #include <linux/err.h> #include <linux/io.h> #include <linux/init.h> #include <linux/of.h> #include <linux/platform_device.h> #include <linux/property.h> #include <linux/reboot.h> #include <linux/reset-controller.h> #include <linux/spinlock.h> #include <linux/mfd/syscon.h> #include <linux/regmap.h> #include <linux/of_address.h> /* NPCM7xx GCR registers */ #define NPCM_MDLR_OFFSET 0x7C #define NPCM7XX_MDLR_USBD0 BIT(9) #define NPCM7XX_MDLR_USBD1 BIT(8) #define NPCM7XX_MDLR_USBD2_4 BIT(21) #define NPCM7XX_MDLR_USBD5_9 BIT(22) /* NPCM8xx MDLR bits */ #define NPCM8XX_MDLR_USBD0_3 BIT(9) #define NPCM8XX_MDLR_USBD4_7 BIT(22) #define NPCM8XX_MDLR_USBD8 BIT(24) #define NPCM8XX_MDLR_USBD9 BIT(21) #define NPCM_USB1PHYCTL_OFFSET 0x140 #define NPCM_USB2PHYCTL_OFFSET 0x144 #define NPCM_USB3PHYCTL_OFFSET 0x148 #define NPCM_USBXPHYCTL_RS BIT(28) /* NPCM7xx Reset registers */ #define NPCM_SWRSTR 0x14 #define NPCM_SWRST BIT(2) #define NPCM_IPSRST1 0x20 #define NPCM_IPSRST1_USBD1 BIT(5) #define NPCM_IPSRST1_USBD2 BIT(8) #define NPCM_IPSRST1_USBD3 BIT(25) #define NPCM_IPSRST1_USBD4 BIT(22) #define NPCM_IPSRST1_USBD5 BIT(23) #define NPCM_IPSRST1_USBD6 BIT(24) #define NPCM_IPSRST2 0x24 #define NPCM_IPSRST2_USB_HOST BIT(26) #define NPCM_IPSRST3 0x34 #define NPCM_IPSRST3_USBD0 BIT(4) #define NPCM_IPSRST3_USBD7 BIT(5) #define NPCM_IPSRST3_USBD8 BIT(6) #define NPCM_IPSRST3_USBD9 BIT(7) #define NPCM_IPSRST3_USBPHY1 BIT(24) #define NPCM_IPSRST3_USBPHY2 BIT(25) #define NPCM_IPSRST4 0x74 #define NPCM_IPSRST4_USBPHY3 BIT(25) #define NPCM_IPSRST4_USB_HOST2 BIT(31) #define NPCM_RC_RESETS_PER_REG 32 #define NPCM_MASK_RESETS GENMASK(4, 0) enum { BMC_NPCM7XX = 0, BMC_NPCM8XX, }; static const u32 npxm7xx_ipsrst[] = {NPCM_IPSRST1, NPCM_IPSRST2, NPCM_IPSRST3}; static const u32 npxm8xx_ipsrst[] = {NPCM_IPSRST1, NPCM_IPSRST2, NPCM_IPSRST3, NPCM_IPSRST4}; struct npcm_reset_info { u32 bmc_id; u32 num_ipsrst; const u32 *ipsrst; }; static const struct npcm_reset_info npxm7xx_reset_info[] = { {.bmc_id = BMC_NPCM7XX, .num_ipsrst = 3, .ipsrst = npxm7xx_ipsrst}}; static const struct npcm_reset_info npxm8xx_reset_info[] = { {.bmc_id = BMC_NPCM8XX, .num_ipsrst = 4, .ipsrst = npxm8xx_ipsrst}}; struct npcm_rc_data { struct reset_controller_dev rcdev; struct notifier_block restart_nb; const struct npcm_reset_info *info; struct regmap *gcr_regmap; u32 sw_reset_number; void __iomem *base; spinlock_t lock; }; #define to_rc_data(p) container_of(p, struct npcm_rc_data, rcdev) static int npcm_rc_restart(struct notifier_block *nb, unsigned long mode, void *cmd) { struct npcm_rc_data *rc = container_of(nb, struct npcm_rc_data, restart_nb); writel(NPCM_SWRST << rc->sw_reset_number, rc->base + NPCM_SWRSTR); mdelay(1000); pr_emerg("%s: unable to restart system\n", __func__); return NOTIFY_DONE; } static int npcm_rc_setclear_reset(struct reset_controller_dev *rcdev, unsigned long id, bool set) { struct npcm_rc_data *rc = to_rc_data(rcdev); unsigned int rst_bit = BIT(id & NPCM_MASK_RESETS); unsigned int ctrl_offset = id >> 8; unsigned long flags; u32 stat; spin_lock_irqsave(&rc->lock, flags); stat = readl(rc->base + ctrl_offset); if (set) writel(stat | rst_bit, rc->base + ctrl_offset); else writel(stat & ~rst_bit, rc->base + ctrl_offset); spin_unlock_irqrestore(&rc->lock, flags); return 0; } static int npcm_rc_assert(struct reset_controller_dev *rcdev, unsigned long id) { return npcm_rc_setclear_reset(rcdev, id, true); } static int npcm_rc_deassert(struct reset_controller_dev *rcdev, unsigned long id) { return npcm_rc_setclear_reset(rcdev, id, false); } static int npcm_rc_status(struct reset_controller_dev *rcdev, unsigned long id) { struct npcm_rc_data *rc = to_rc_data(rcdev); unsigned int rst_bit = BIT(id & NPCM_MASK_RESETS); unsigned int ctrl_offset = id >> 8; return (readl(rc->base + ctrl_offset) & rst_bit); } static int npcm_reset_xlate(struct reset_controller_dev *rcdev, const struct of_phandle_args *reset_spec) { struct npcm_rc_data *rc = to_rc_data(rcdev); unsigned int offset, bit; bool offset_found = false; int off_num; offset = reset_spec->args[0]; for (off_num = 0 ; off_num < rc->info->num_ipsrst ; off_num++) { if (offset == rc->info->ipsrst[off_num]) { offset_found = true; break; } } if (!offset_found) { dev_err(rcdev->dev, "Error reset register (0x%x)\n", offset); return -EINVAL; } bit = reset_spec->args[1]; if (bit >= NPCM_RC_RESETS_PER_REG) { dev_err(rcdev->dev, "Error reset number (%d)\n", bit); return -EINVAL; } return (offset << 8) | bit; } static const struct of_device_id npcm_rc_match[] = { { .compatible = "nuvoton,npcm750-reset", .data = &npxm7xx_reset_info}, { .compatible = "nuvoton,npcm845-reset", .data = &npxm8xx_reset_info}, { } }; static void npcm_usb_reset_npcm7xx(struct npcm_rc_data *rc) { u32 mdlr, iprst1, iprst2, iprst3; u32 ipsrst1_bits = 0; u32 ipsrst2_bits = NPCM_IPSRST2_USB_HOST; u32 ipsrst3_bits = 0; /* checking which USB device is enabled */ regmap_read(rc->gcr_regmap, NPCM_MDLR_OFFSET, &mdlr); if (!(mdlr & NPCM7XX_MDLR_USBD0)) ipsrst3_bits |= NPCM_IPSRST3_USBD0; if (!(mdlr & NPCM7XX_MDLR_USBD1)) ipsrst1_bits |= NPCM_IPSRST1_USBD1; if (!(mdlr & NPCM7XX_MDLR_USBD2_4)) ipsrst1_bits |= (NPCM_IPSRST1_USBD2 | NPCM_IPSRST1_USBD3 | NPCM_IPSRST1_USBD4); if (!(mdlr & NPCM7XX_MDLR_USBD0)) { ipsrst1_bits |= (NPCM_IPSRST1_USBD5 | NPCM_IPSRST1_USBD6); ipsrst3_bits |= (NPCM_IPSRST3_USBD7 | NPCM_IPSRST3_USBD8 | NPCM_IPSRST3_USBD9); } /* assert reset USB PHY and USB devices */ iprst1 = readl(rc->base + NPCM_IPSRST1); iprst2 = readl(rc->base + NPCM_IPSRST2); iprst3 = readl(rc->base + NPCM_IPSRST3); iprst1 |= ipsrst1_bits; iprst2 |= ipsrst2_bits; iprst3 |= (ipsrst3_bits | NPCM_IPSRST3_USBPHY1 | NPCM_IPSRST3_USBPHY2); writel(iprst1, rc->base + NPCM_IPSRST1); writel(iprst2, rc->base + NPCM_IPSRST2); writel(iprst3, rc->base + NPCM_IPSRST3); /* clear USB PHY RS bit */ regmap_update_bits(rc->gcr_regmap, NPCM_USB1PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, 0); regmap_update_bits(rc->gcr_regmap, NPCM_USB2PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, 0); /* deassert reset USB PHY */ iprst3 &= ~(NPCM_IPSRST3_USBPHY1 | NPCM_IPSRST3_USBPHY2); writel(iprst3, rc->base + NPCM_IPSRST3); udelay(50); /* set USB PHY RS bit */ regmap_update_bits(rc->gcr_regmap, NPCM_USB1PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, NPCM_USBXPHYCTL_RS); regmap_update_bits(rc->gcr_regmap, NPCM_USB2PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, NPCM_USBXPHYCTL_RS); /* deassert reset USB devices*/ iprst1 &= ~ipsrst1_bits; iprst2 &= ~ipsrst2_bits; iprst3 &= ~ipsrst3_bits; writel(iprst1, rc->base + NPCM_IPSRST1); writel(iprst2, rc->base + NPCM_IPSRST2); writel(iprst3, rc->base + NPCM_IPSRST3); } static void npcm_usb_reset_npcm8xx(struct npcm_rc_data *rc) { u32 mdlr, iprst1, iprst2, iprst3, iprst4; u32 ipsrst1_bits = 0; u32 ipsrst2_bits = NPCM_IPSRST2_USB_HOST; u32 ipsrst3_bits = 0; u32 ipsrst4_bits = NPCM_IPSRST4_USB_HOST2 | NPCM_IPSRST4_USBPHY3; /* checking which USB device is enabled */ regmap_read(rc->gcr_regmap, NPCM_MDLR_OFFSET, &mdlr); if (!(mdlr & NPCM8XX_MDLR_USBD0_3)) { ipsrst3_bits |= NPCM_IPSRST3_USBD0; ipsrst1_bits |= (NPCM_IPSRST1_USBD1 | NPCM_IPSRST1_USBD2 | NPCM_IPSRST1_USBD3); } if (!(mdlr & NPCM8XX_MDLR_USBD4_7)) { ipsrst1_bits |= (NPCM_IPSRST1_USBD4 | NPCM_IPSRST1_USBD5 | NPCM_IPSRST1_USBD6); ipsrst3_bits |= NPCM_IPSRST3_USBD7; } if (!(mdlr & NPCM8XX_MDLR_USBD8)) ipsrst3_bits |= NPCM_IPSRST3_USBD8; if (!(mdlr & NPCM8XX_MDLR_USBD9)) ipsrst3_bits |= NPCM_IPSRST3_USBD9; /* assert reset USB PHY and USB devices */ iprst1 = readl(rc->base + NPCM_IPSRST1); iprst2 = readl(rc->base + NPCM_IPSRST2); iprst3 = readl(rc->base + NPCM_IPSRST3); iprst4 = readl(rc->base + NPCM_IPSRST4); iprst1 |= ipsrst1_bits; iprst2 |= ipsrst2_bits; iprst3 |= (ipsrst3_bits | NPCM_IPSRST3_USBPHY1 | NPCM_IPSRST3_USBPHY2); iprst4 |= ipsrst4_bits; writel(iprst1, rc->base + NPCM_IPSRST1); writel(iprst2, rc->base + NPCM_IPSRST2); writel(iprst3, rc->base + NPCM_IPSRST3); writel(iprst4, rc->base + NPCM_IPSRST4); /* clear USB PHY RS bit */ regmap_update_bits(rc->gcr_regmap, NPCM_USB1PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, 0); regmap_update_bits(rc->gcr_regmap, NPCM_USB2PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, 0); regmap_update_bits(rc->gcr_regmap, NPCM_USB3PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, 0); /* deassert reset USB PHY */ iprst3 &= ~(NPCM_IPSRST3_USBPHY1 | NPCM_IPSRST3_USBPHY2); writel(iprst3, rc->base + NPCM_IPSRST3); iprst4 &= ~NPCM_IPSRST4_USBPHY3; writel(iprst4, rc->base + NPCM_IPSRST4); /* set USB PHY RS bit */ regmap_update_bits(rc->gcr_regmap, NPCM_USB1PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, NPCM_USBXPHYCTL_RS); regmap_update_bits(rc->gcr_regmap, NPCM_USB2PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, NPCM_USBXPHYCTL_RS); regmap_update_bits(rc->gcr_regmap, NPCM_USB3PHYCTL_OFFSET, NPCM_USBXPHYCTL_RS, NPCM_USBXPHYCTL_RS); /* deassert reset USB devices*/ iprst1 &= ~ipsrst1_bits; iprst2 &= ~ipsrst2_bits; iprst3 &= ~ipsrst3_bits; iprst4 &= ~ipsrst4_bits; writel(iprst1, rc->base + NPCM_IPSRST1); writel(iprst2, rc->base + NPCM_IPSRST2); writel(iprst3, rc->base + NPCM_IPSRST3); writel(iprst4, rc->base + NPCM_IPSRST4); } /* * The following procedure should be observed in USB PHY, USB device and * USB host initialization at BMC boot */ static int npcm_usb_reset(struct platform_device *pdev, struct npcm_rc_data *rc) { struct device *dev = &pdev->dev; rc->gcr_regmap = syscon_regmap_lookup_by_phandle(dev->of_node, "nuvoton,sysgcr"); if (IS_ERR(rc->gcr_regmap)) { dev_warn(&pdev->dev, "Failed to find nuvoton,sysgcr property, please update the device tree\n"); dev_info(&pdev->dev, "Using nuvoton,npcm750-gcr for Poleg backward compatibility\n"); rc->gcr_regmap = syscon_regmap_lookup_by_compatible("nuvoton,npcm750-gcr"); if (IS_ERR(rc->gcr_regmap)) { dev_err(&pdev->dev, "Failed to find nuvoton,npcm750-gcr"); return PTR_ERR(rc->gcr_regmap); } } rc->info = device_get_match_data(dev); switch (rc->info->bmc_id) { case BMC_NPCM7XX: npcm_usb_reset_npcm7xx(rc); break; case BMC_NPCM8XX: npcm_usb_reset_npcm8xx(rc); break; default: return -ENODEV; } return 0; } static const struct reset_control_ops npcm_rc_ops = { .assert = npcm_rc_assert, .deassert = npcm_rc_deassert, .status = npcm_rc_status, }; static int npcm_rc_probe(struct platform_device *pdev) { struct npcm_rc_data *rc; int ret; rc = devm_kzalloc(&pdev->dev, sizeof(*rc), GFP_KERNEL); if (!rc) return -ENOMEM; rc->base = devm_platform_ioremap_resource(pdev, 0); if (IS_ERR(rc->base)) return PTR_ERR(rc->base); spin_lock_init(&rc->lock); rc->rcdev.owner = THIS_MODULE; rc->rcdev.ops = &npcm_rc_ops; rc->rcdev.of_node = pdev->dev.of_node; rc->rcdev.of_reset_n_cells = 2; rc->rcdev.of_xlate = npcm_reset_xlate; ret = devm_reset_controller_register(&pdev->dev, &rc->rcdev); if (ret) { dev_err(&pdev->dev, "unable to register device\n"); return ret; } if (npcm_usb_reset(pdev, rc)) dev_warn(&pdev->dev, "NPCM USB reset failed, can cause issues with UDC and USB host\n"); if (!of_property_read_u32(pdev->dev.of_node, "nuvoton,sw-reset-number", &rc->sw_reset_number)) { if (rc->sw_reset_number && rc->sw_reset_number < 5) { rc->restart_nb.priority = 192, rc->restart_nb.notifier_call = npcm_rc_restart, ret = register_restart_handler(&rc->restart_nb); if (ret) dev_warn(&pdev->dev, "failed to register restart handler\n"); } } return ret; } static struct platform_driver npcm_rc_driver = { .probe = npcm_rc_probe, .driver = { .name = "npcm-reset", .of_match_table = npcm_rc_match, .suppress_bind_attrs = true, }, }; builtin_platform_driver(npcm_rc_driver);
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