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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 | // SPDX-License-Identifier: GPL-2.0 /* * This file contains code to reset and initialize USB host controllers. * Some of it includes work-arounds for PCI hardware and BIOS quirks. * It may need to run early during booting -- before USB would normally * initialize -- to ensure that Linux doesn't use any legacy modes. * * Copyright (c) 1999 Martin Mares <mj@ucw.cz> * (and others) */ #include <linux/types.h> #include <linux/kernel.h> #include <linux/pci.h> #include <linux/delay.h> #include <linux/export.h> #include <linux/acpi.h> #include <linux/dmi.h> #include <linux/of.h> #include <linux/iopoll.h> #include "pci-quirks.h" #include "xhci-ext-caps.h" #define UHCI_USBLEGSUP 0xc0 /* legacy support */ #define UHCI_USBCMD 0 /* command register */ #define UHCI_USBINTR 4 /* interrupt register */ #define UHCI_USBLEGSUP_RWC 0x8f00 /* the R/WC bits */ #define UHCI_USBLEGSUP_RO 0x5040 /* R/O and reserved bits */ #define UHCI_USBCMD_RUN 0x0001 /* RUN/STOP bit */ #define UHCI_USBCMD_HCRESET 0x0002 /* Host Controller reset */ #define UHCI_USBCMD_EGSM 0x0008 /* Global Suspend Mode */ #define UHCI_USBCMD_CONFIGURE 0x0040 /* Config Flag */ #define UHCI_USBINTR_RESUME 0x0002 /* Resume interrupt enable */ #define OHCI_CONTROL 0x04 #define OHCI_CMDSTATUS 0x08 #define OHCI_INTRSTATUS 0x0c #define OHCI_INTRENABLE 0x10 #define OHCI_INTRDISABLE 0x14 #define OHCI_FMINTERVAL 0x34 #define OHCI_HCFS (3 << 6) /* hc functional state */ #define OHCI_HCR (1 << 0) /* host controller reset */ #define OHCI_OCR (1 << 3) /* ownership change request */ #define OHCI_CTRL_RWC (1 << 9) /* remote wakeup connected */ #define OHCI_CTRL_IR (1 << 8) /* interrupt routing */ #define OHCI_INTR_OC (1 << 30) /* ownership change */ #define EHCI_HCC_PARAMS 0x08 /* extended capabilities */ #define EHCI_USBCMD 0 /* command register */ #define EHCI_USBCMD_RUN (1 << 0) /* RUN/STOP bit */ #define EHCI_USBSTS 4 /* status register */ #define EHCI_USBSTS_HALTED (1 << 12) /* HCHalted bit */ #define EHCI_USBINTR 8 /* interrupt register */ #define EHCI_CONFIGFLAG 0x40 /* configured flag register */ #define EHCI_USBLEGSUP 0 /* legacy support register */ #define EHCI_USBLEGSUP_BIOS (1 << 16) /* BIOS semaphore */ #define EHCI_USBLEGSUP_OS (1 << 24) /* OS semaphore */ #define EHCI_USBLEGCTLSTS 4 /* legacy control/status */ #define EHCI_USBLEGCTLSTS_SOOE (1 << 13) /* SMI on ownership change */ /* AMD quirk use */ #define AB_REG_BAR_LOW 0xe0 #define AB_REG_BAR_HIGH 0xe1 #define AB_REG_BAR_SB700 0xf0 #define AB_INDX(addr) ((addr) + 0x00) #define AB_DATA(addr) ((addr) + 0x04) #define AX_INDXC 0x30 #define AX_DATAC 0x34 #define PT_ADDR_INDX 0xE8 #define PT_READ_INDX 0xE4 #define PT_SIG_1_ADDR 0xA520 #define PT_SIG_2_ADDR 0xA521 #define PT_SIG_3_ADDR 0xA522 #define PT_SIG_4_ADDR 0xA523 #define PT_SIG_1_DATA 0x78 #define PT_SIG_2_DATA 0x56 #define PT_SIG_3_DATA 0x34 #define PT_SIG_4_DATA 0x12 #define PT4_P1_REG 0xB521 #define PT4_P2_REG 0xB522 #define PT2_P1_REG 0xD520 #define PT2_P2_REG 0xD521 #define PT1_P1_REG 0xD522 #define PT1_P2_REG 0xD523 #define NB_PCIE_INDX_ADDR 0xe0 #define NB_PCIE_INDX_DATA 0xe4 #define PCIE_P_CNTL 0x10040 #define BIF_NB 0x10002 #define NB_PIF0_PWRDOWN_0 0x01100012 #define NB_PIF0_PWRDOWN_1 0x01100013 #define USB_INTEL_XUSB2PR 0xD0 #define USB_INTEL_USB2PRM 0xD4 #define USB_INTEL_USB3_PSSEN 0xD8 #define USB_INTEL_USB3PRM 0xDC /* ASMEDIA quirk use */ #define ASMT_DATA_WRITE0_REG 0xF8 #define ASMT_DATA_WRITE1_REG 0xFC #define ASMT_CONTROL_REG 0xE0 #define ASMT_CONTROL_WRITE_BIT 0x02 #define ASMT_WRITEREG_CMD 0x10423 #define ASMT_FLOWCTL_ADDR 0xFA30 #define ASMT_FLOWCTL_DATA 0xBA #define ASMT_PSEUDO_DATA 0 /* * amd_chipset_gen values represent AMD different chipset generations */ enum amd_chipset_gen { NOT_AMD_CHIPSET = 0, AMD_CHIPSET_SB600, AMD_CHIPSET_SB700, AMD_CHIPSET_SB800, AMD_CHIPSET_HUDSON2, AMD_CHIPSET_BOLTON, AMD_CHIPSET_YANGTZE, AMD_CHIPSET_TAISHAN, AMD_CHIPSET_UNKNOWN, }; struct amd_chipset_type { enum amd_chipset_gen gen; u8 rev; }; static struct amd_chipset_info { struct pci_dev *nb_dev; struct pci_dev *smbus_dev; int nb_type; struct amd_chipset_type sb_type; int isoc_reqs; int probe_count; bool need_pll_quirk; } amd_chipset; static DEFINE_SPINLOCK(amd_lock); /* * amd_chipset_sb_type_init - initialize amd chipset southbridge type * * AMD FCH/SB generation and revision is identified by SMBus controller * vendor, device and revision IDs. * * Returns: 1 if it is an AMD chipset, 0 otherwise. */ static int amd_chipset_sb_type_init(struct amd_chipset_info *pinfo) { u8 rev = 0; pinfo->sb_type.gen = AMD_CHIPSET_UNKNOWN; pinfo->smbus_dev = pci_get_device(PCI_VENDOR_ID_ATI, PCI_DEVICE_ID_ATI_SBX00_SMBUS, NULL); if (pinfo->smbus_dev) { rev = pinfo->smbus_dev->revision; if (rev >= 0x10 && rev <= 0x1f) pinfo->sb_type.gen = AMD_CHIPSET_SB600; else if (rev >= 0x30 && rev <= 0x3f) pinfo->sb_type.gen = AMD_CHIPSET_SB700; else if (rev >= 0x40 && rev <= 0x4f) pinfo->sb_type.gen = AMD_CHIPSET_SB800; } else { pinfo->smbus_dev = pci_get_device(PCI_VENDOR_ID_AMD, PCI_DEVICE_ID_AMD_HUDSON2_SMBUS, NULL); if (pinfo->smbus_dev) { rev = pinfo->smbus_dev->revision; if (rev >= 0x11 && rev <= 0x14) pinfo->sb_type.gen = AMD_CHIPSET_HUDSON2; else if (rev >= 0x15 && rev <= 0x18) pinfo->sb_type.gen = AMD_CHIPSET_BOLTON; else if (rev >= 0x39 && rev <= 0x3a) pinfo->sb_type.gen = AMD_CHIPSET_YANGTZE; } else { pinfo->smbus_dev = pci_get_device(PCI_VENDOR_ID_AMD, 0x145c, NULL); if (pinfo->smbus_dev) { rev = pinfo->smbus_dev->revision; pinfo->sb_type.gen = AMD_CHIPSET_TAISHAN; } else { pinfo->sb_type.gen = NOT_AMD_CHIPSET; return 0; } } } pinfo->sb_type.rev = rev; return 1; } void sb800_prefetch(struct device *dev, int on) { u16 misc; struct pci_dev *pdev = to_pci_dev(dev); pci_read_config_word(pdev, 0x50, &misc); if (on == 0) pci_write_config_word(pdev, 0x50, misc & 0xfcff); else pci_write_config_word(pdev, 0x50, misc | 0x0300); } EXPORT_SYMBOL_GPL(sb800_prefetch); static void usb_amd_find_chipset_info(void) { unsigned long flags; struct amd_chipset_info info; info.need_pll_quirk = false; spin_lock_irqsave(&amd_lock, flags); /* probe only once */ if (amd_chipset.probe_count > 0) { amd_chipset.probe_count++; spin_unlock_irqrestore(&amd_lock, flags); return; } memset(&info, 0, sizeof(info)); spin_unlock_irqrestore(&amd_lock, flags); if (!amd_chipset_sb_type_init(&info)) { goto commit; } switch (info.sb_type.gen) { case AMD_CHIPSET_SB700: info.need_pll_quirk = info.sb_type.rev <= 0x3B; break; case AMD_CHIPSET_SB800: case AMD_CHIPSET_HUDSON2: case AMD_CHIPSET_BOLTON: info.need_pll_quirk = true; break; default: info.need_pll_quirk = false; break; } if (!info.need_pll_quirk) { if (info.smbus_dev) { pci_dev_put(info.smbus_dev); info.smbus_dev = NULL; } goto commit; } info.nb_dev = pci_get_device(PCI_VENDOR_ID_AMD, 0x9601, NULL); if (info.nb_dev) { info.nb_type = 1; } else { info.nb_dev = pci_get_device(PCI_VENDOR_ID_AMD, 0x1510, NULL); if (info.nb_dev) { info.nb_type = 2; } else { info.nb_dev = pci_get_device(PCI_VENDOR_ID_AMD, 0x9600, NULL); if (info.nb_dev) info.nb_type = 3; } } printk(KERN_DEBUG "QUIRK: Enable AMD PLL fix\n"); commit: spin_lock_irqsave(&amd_lock, flags); if (amd_chipset.probe_count > 0) { /* race - someone else was faster - drop devices */ /* Mark that we where here */ amd_chipset.probe_count++; spin_unlock_irqrestore(&amd_lock, flags); pci_dev_put(info.nb_dev); pci_dev_put(info.smbus_dev); } else { /* no race - commit the result */ info.probe_count++; amd_chipset = info; spin_unlock_irqrestore(&amd_lock, flags); } } int usb_hcd_amd_remote_wakeup_quirk(struct pci_dev *pdev) { /* Make sure amd chipset type has already been initialized */ usb_amd_find_chipset_info(); if (amd_chipset.sb_type.gen == AMD_CHIPSET_YANGTZE || amd_chipset.sb_type.gen == AMD_CHIPSET_TAISHAN) { dev_dbg(&pdev->dev, "QUIRK: Enable AMD remote wakeup fix\n"); return 1; } return 0; } EXPORT_SYMBOL_GPL(usb_hcd_amd_remote_wakeup_quirk); bool usb_amd_hang_symptom_quirk(void) { u8 rev; usb_amd_find_chipset_info(); rev = amd_chipset.sb_type.rev; /* SB600 and old version of SB700 have hang symptom bug */ return amd_chipset.sb_type.gen == AMD_CHIPSET_SB600 || (amd_chipset.sb_type.gen == AMD_CHIPSET_SB700 && rev >= 0x3a && rev <= 0x3b); } EXPORT_SYMBOL_GPL(usb_amd_hang_symptom_quirk); bool usb_amd_prefetch_quirk(void) { usb_amd_find_chipset_info(); /* SB800 needs pre-fetch fix */ return amd_chipset.sb_type.gen == AMD_CHIPSET_SB800; } EXPORT_SYMBOL_GPL(usb_amd_prefetch_quirk); bool usb_amd_quirk_pll_check(void) { usb_amd_find_chipset_info(); return amd_chipset.need_pll_quirk; } EXPORT_SYMBOL_GPL(usb_amd_quirk_pll_check); /* * The hardware normally enables the A-link power management feature, which * lets the system lower the power consumption in idle states. * * This USB quirk prevents the link going into that lower power state * during isochronous transfers. * * Without this quirk, isochronous stream on OHCI/EHCI/xHCI controllers of * some AMD platforms may stutter or have breaks occasionally. */ static void usb_amd_quirk_pll(int disable) { u32 addr, addr_low, addr_high, val; u32 bit = disable ? 0 : 1; unsigned long flags; spin_lock_irqsave(&amd_lock, flags); if (disable) { amd_chipset.isoc_reqs++; if (amd_chipset.isoc_reqs > 1) { spin_unlock_irqrestore(&amd_lock, flags); return; } } else { amd_chipset.isoc_reqs--; if (amd_chipset.isoc_reqs > 0) { spin_unlock_irqrestore(&amd_lock, flags); return; } } if (amd_chipset.sb_type.gen == AMD_CHIPSET_SB800 || amd_chipset.sb_type.gen == AMD_CHIPSET_HUDSON2 || amd_chipset.sb_type.gen == AMD_CHIPSET_BOLTON) { outb_p(AB_REG_BAR_LOW, 0xcd6); addr_low = inb_p(0xcd7); outb_p(AB_REG_BAR_HIGH, 0xcd6); addr_high = inb_p(0xcd7); addr = addr_high << 8 | addr_low; outl_p(0x30, AB_INDX(addr)); outl_p(0x40, AB_DATA(addr)); outl_p(0x34, AB_INDX(addr)); val = inl_p(AB_DATA(addr)); } else if (amd_chipset.sb_type.gen == AMD_CHIPSET_SB700 && amd_chipset.sb_type.rev <= 0x3b) { pci_read_config_dword(amd_chipset.smbus_dev, AB_REG_BAR_SB700, &addr); outl(AX_INDXC, AB_INDX(addr)); outl(0x40, AB_DATA(addr)); outl(AX_DATAC, AB_INDX(addr)); val = inl(AB_DATA(addr)); } else { spin_unlock_irqrestore(&amd_lock, flags); return; } if (disable) { val &= ~0x08; val |= (1 << 4) | (1 << 9); } else { val |= 0x08; val &= ~((1 << 4) | (1 << 9)); } outl_p(val, AB_DATA(addr)); if (!amd_chipset.nb_dev) { spin_unlock_irqrestore(&amd_lock, flags); return; } if (amd_chipset.nb_type == 1 || amd_chipset.nb_type == 3) { addr = PCIE_P_CNTL; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_ADDR, addr); pci_read_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, &val); val &= ~(1 | (1 << 3) | (1 << 4) | (1 << 9) | (1 << 12)); val |= bit | (bit << 3) | (bit << 12); val |= ((!bit) << 4) | ((!bit) << 9); pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, val); addr = BIF_NB; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_ADDR, addr); pci_read_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, &val); val &= ~(1 << 8); val |= bit << 8; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, val); } else if (amd_chipset.nb_type == 2) { addr = NB_PIF0_PWRDOWN_0; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_ADDR, addr); pci_read_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, &val); if (disable) val &= ~(0x3f << 7); else val |= 0x3f << 7; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, val); addr = NB_PIF0_PWRDOWN_1; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_ADDR, addr); pci_read_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, &val); if (disable) val &= ~(0x3f << 7); else val |= 0x3f << 7; pci_write_config_dword(amd_chipset.nb_dev, NB_PCIE_INDX_DATA, val); } spin_unlock_irqrestore(&amd_lock, flags); return; } void usb_amd_quirk_pll_disable(void) { usb_amd_quirk_pll(1); } EXPORT_SYMBOL_GPL(usb_amd_quirk_pll_disable); static int usb_asmedia_wait_write(struct pci_dev *pdev) { unsigned long retry_count; unsigned char value; for (retry_count = 1000; retry_count > 0; --retry_count) { pci_read_config_byte(pdev, ASMT_CONTROL_REG, &value); if (value == 0xff) { dev_err(&pdev->dev, "%s: check_ready ERROR", __func__); return -EIO; } if ((value & ASMT_CONTROL_WRITE_BIT) == 0) return 0; udelay(50); } dev_warn(&pdev->dev, "%s: check_write_ready timeout", __func__); return -ETIMEDOUT; } void usb_asmedia_modifyflowcontrol(struct pci_dev *pdev) { if (usb_asmedia_wait_write(pdev) != 0) return; /* send command and address to device */ pci_write_config_dword(pdev, ASMT_DATA_WRITE0_REG, ASMT_WRITEREG_CMD); pci_write_config_dword(pdev, ASMT_DATA_WRITE1_REG, ASMT_FLOWCTL_ADDR); pci_write_config_byte(pdev, ASMT_CONTROL_REG, ASMT_CONTROL_WRITE_BIT); if (usb_asmedia_wait_write(pdev) != 0) return; /* send data to device */ pci_write_config_dword(pdev, ASMT_DATA_WRITE0_REG, ASMT_FLOWCTL_DATA); pci_write_config_dword(pdev, ASMT_DATA_WRITE1_REG, ASMT_PSEUDO_DATA); pci_write_config_byte(pdev, ASMT_CONTROL_REG, ASMT_CONTROL_WRITE_BIT); } EXPORT_SYMBOL_GPL(usb_asmedia_modifyflowcontrol); void usb_amd_quirk_pll_enable(void) { usb_amd_quirk_pll(0); } EXPORT_SYMBOL_GPL(usb_amd_quirk_pll_enable); void usb_amd_dev_put(void) { struct pci_dev *nb, *smbus; unsigned long flags; spin_lock_irqsave(&amd_lock, flags); amd_chipset.probe_count--; if (amd_chipset.probe_count > 0) { spin_unlock_irqrestore(&amd_lock, flags); return; } /* save them to pci_dev_put outside of spinlock */ nb = amd_chipset.nb_dev; smbus = amd_chipset.smbus_dev; amd_chipset.nb_dev = NULL; amd_chipset.smbus_dev = NULL; amd_chipset.nb_type = 0; memset(&amd_chipset.sb_type, 0, sizeof(amd_chipset.sb_type)); amd_chipset.isoc_reqs = 0; amd_chipset.need_pll_quirk = false; spin_unlock_irqrestore(&amd_lock, flags); pci_dev_put(nb); pci_dev_put(smbus); } EXPORT_SYMBOL_GPL(usb_amd_dev_put); /* * Check if port is disabled in BIOS on AMD Promontory host. * BIOS Disabled ports may wake on connect/disconnect and need * driver workaround to keep them disabled. * Returns true if port is marked disabled. */ bool usb_amd_pt_check_port(struct device *device, int port) { unsigned char value, port_shift; struct pci_dev *pdev; u16 reg; pdev = to_pci_dev(device); pci_write_config_word(pdev, PT_ADDR_INDX, PT_SIG_1_ADDR); pci_read_config_byte(pdev, PT_READ_INDX, &value); if (value != PT_SIG_1_DATA) return false; pci_write_config_word(pdev, PT_ADDR_INDX, PT_SIG_2_ADDR); pci_read_config_byte(pdev, PT_READ_INDX, &value); if (value != PT_SIG_2_DATA) return false; pci_write_config_word(pdev, PT_ADDR_INDX, PT_SIG_3_ADDR); pci_read_config_byte(pdev, PT_READ_INDX, &value); if (value != PT_SIG_3_DATA) return false; pci_write_config_word(pdev, PT_ADDR_INDX, PT_SIG_4_ADDR); pci_read_config_byte(pdev, PT_READ_INDX, &value); if (value != PT_SIG_4_DATA) return false; /* Check disabled port setting, if bit is set port is enabled */ switch (pdev->device) { case 0x43b9: case 0x43ba: /* * device is AMD_PROMONTORYA_4(0x43b9) or PROMONTORYA_3(0x43ba) * PT4_P1_REG bits[7..1] represents USB2.0 ports 6 to 0 * PT4_P2_REG bits[6..0] represents ports 13 to 7 */ if (port > 6) { reg = PT4_P2_REG; port_shift = port - 7; } else { reg = PT4_P1_REG; port_shift = port + 1; } break; case 0x43bb: /* * device is AMD_PROMONTORYA_2(0x43bb) * PT2_P1_REG bits[7..5] represents USB2.0 ports 2 to 0 * PT2_P2_REG bits[5..0] represents ports 9 to 3 */ if (port > 2) { reg = PT2_P2_REG; port_shift = port - 3; } else { reg = PT2_P1_REG; port_shift = port + 5; } break; case 0x43bc: /* * device is AMD_PROMONTORYA_1(0x43bc) * PT1_P1_REG[7..4] represents USB2.0 ports 3 to 0 * PT1_P2_REG[5..0] represents ports 9 to 4 */ if (port > 3) { reg = PT1_P2_REG; port_shift = port - 4; } else { reg = PT1_P1_REG; port_shift = port + 4; } break; default: return false; } pci_write_config_word(pdev, PT_ADDR_INDX, reg); pci_read_config_byte(pdev, PT_READ_INDX, &value); return !(value & BIT(port_shift)); } EXPORT_SYMBOL_GPL(usb_amd_pt_check_port); /* * Make sure the controller is completely inactive, unable to * generate interrupts or do DMA. */ void uhci_reset_hc(struct pci_dev *pdev, unsigned long base) { /* Turn off PIRQ enable and SMI enable. (This also turns off the * BIOS's USB Legacy Support.) Turn off all the R/WC bits too. */ pci_write_config_word(pdev, UHCI_USBLEGSUP, UHCI_USBLEGSUP_RWC); /* Reset the HC - this will force us to get a * new notification of any already connected * ports due to the virtual disconnect that it * implies. */ outw(UHCI_USBCMD_HCRESET, base + UHCI_USBCMD); mb(); udelay(5); if (inw(base + UHCI_USBCMD) & UHCI_USBCMD_HCRESET) dev_warn(&pdev->dev, "HCRESET not completed yet!\n"); /* Just to be safe, disable interrupt requests and * make sure the controller is stopped. */ outw(0, base + UHCI_USBINTR); outw(0, base + UHCI_USBCMD); } EXPORT_SYMBOL_GPL(uhci_reset_hc); /* * Initialize a controller that was newly discovered or has just been * resumed. In either case we can't be sure of its previous state. * * Returns: 1 if the controller was reset, 0 otherwise. */ int uhci_check_and_reset_hc(struct pci_dev *pdev, unsigned long base) { u16 legsup; unsigned int cmd, intr; /* * When restarting a suspended controller, we expect all the * settings to be the same as we left them: * * PIRQ and SMI disabled, no R/W bits set in USBLEGSUP; * Controller is stopped and configured with EGSM set; * No interrupts enabled except possibly Resume Detect. * * If any of these conditions are violated we do a complete reset. */ pci_read_config_word(pdev, UHCI_USBLEGSUP, &legsup); if (legsup & ~(UHCI_USBLEGSUP_RO | UHCI_USBLEGSUP_RWC)) { dev_dbg(&pdev->dev, "%s: legsup = 0x%04x\n", __func__, legsup); goto reset_needed; } cmd = inw(base + UHCI_USBCMD); if ((cmd & UHCI_USBCMD_RUN) || !(cmd & UHCI_USBCMD_CONFIGURE) || !(cmd & UHCI_USBCMD_EGSM)) { dev_dbg(&pdev->dev, "%s: cmd = 0x%04x\n", __func__, cmd); goto reset_needed; } intr = inw(base + UHCI_USBINTR); if (intr & (~UHCI_USBINTR_RESUME)) { dev_dbg(&pdev->dev, "%s: intr = 0x%04x\n", __func__, intr); goto reset_needed; } return 0; reset_needed: dev_dbg(&pdev->dev, "Performing full reset\n"); uhci_reset_hc(pdev, base); return 1; } EXPORT_SYMBOL_GPL(uhci_check_and_reset_hc); static inline int io_type_enabled(struct pci_dev *pdev, unsigned int mask) { u16 cmd; return !pci_read_config_word(pdev, PCI_COMMAND, &cmd) && (cmd & mask); } #define pio_enabled(dev) io_type_enabled(dev, PCI_COMMAND_IO) #define mmio_enabled(dev) io_type_enabled(dev, PCI_COMMAND_MEMORY) static void quirk_usb_handoff_uhci(struct pci_dev *pdev) { unsigned long base = 0; int i; if (!pio_enabled(pdev)) return; for (i = 0; i < PCI_STD_NUM_BARS; i++) if ((pci_resource_flags(pdev, i) & IORESOURCE_IO)) { base = pci_resource_start(pdev, i); break; } if (base) uhci_check_and_reset_hc(pdev, base); } static int mmio_resource_enabled(struct pci_dev *pdev, int idx) { return pci_resource_start(pdev, idx) && mmio_enabled(pdev); } static void quirk_usb_handoff_ohci(struct pci_dev *pdev) { void __iomem *base; u32 control; u32 fminterval = 0; bool no_fminterval = false; int cnt; if (!mmio_resource_enabled(pdev, 0)) return; base = pci_ioremap_bar(pdev, 0); if (base == NULL) return; /* * ULi M5237 OHCI controller locks the whole system when accessing * the OHCI_FMINTERVAL offset. */ if (pdev->vendor == PCI_VENDOR_ID_AL && pdev->device == 0x5237) no_fminterval = true; control = readl(base + OHCI_CONTROL); /* On PA-RISC, PDC can leave IR set incorrectly; ignore it there. */ #ifdef __hppa__ #define OHCI_CTRL_MASK (OHCI_CTRL_RWC | OHCI_CTRL_IR) #else #define OHCI_CTRL_MASK OHCI_CTRL_RWC if (control & OHCI_CTRL_IR) { int wait_time = 500; /* arbitrary; 5 seconds */ writel(OHCI_INTR_OC, base + OHCI_INTRENABLE); writel(OHCI_OCR, base + OHCI_CMDSTATUS); while (wait_time > 0 && readl(base + OHCI_CONTROL) & OHCI_CTRL_IR) { wait_time -= 10; msleep(10); } if (wait_time <= 0) dev_warn(&pdev->dev, "OHCI: BIOS handoff failed (BIOS bug?) %08x\n", readl(base + OHCI_CONTROL)); } #endif /* disable interrupts */ writel((u32) ~0, base + OHCI_INTRDISABLE); /* Go into the USB_RESET state, preserving RWC (and possibly IR) */ writel(control & OHCI_CTRL_MASK, base + OHCI_CONTROL); readl(base + OHCI_CONTROL); /* software reset of the controller, preserving HcFmInterval */ if (!no_fminterval) fminterval = readl(base + OHCI_FMINTERVAL); writel(OHCI_HCR, base + OHCI_CMDSTATUS); /* reset requires max 10 us delay */ for (cnt = 30; cnt > 0; --cnt) { /* ... allow extra time */ if ((readl(base + OHCI_CMDSTATUS) & OHCI_HCR) == 0) break; udelay(1); } if (!no_fminterval) writel(fminterval, base + OHCI_FMINTERVAL); /* Now the controller is safely in SUSPEND and nothing can wake it up */ iounmap(base); } static const struct dmi_system_id ehci_dmi_nohandoff_table[] = { { /* Pegatron Lucid (ExoPC) */ .matches = { DMI_MATCH(DMI_BOARD_NAME, "EXOPG06411"), DMI_MATCH(DMI_BIOS_VERSION, "Lucid-CE-133"), }, }, { /* Pegatron Lucid (Ordissimo AIRIS) */ .matches = { DMI_MATCH(DMI_BOARD_NAME, "M11JB"), DMI_MATCH(DMI_BIOS_VERSION, "Lucid-"), }, }, { /* Pegatron Lucid (Ordissimo) */ .matches = { DMI_MATCH(DMI_BOARD_NAME, "Ordissimo"), DMI_MATCH(DMI_BIOS_VERSION, "Lucid-"), }, }, { /* HASEE E200 */ .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "HASEE"), DMI_MATCH(DMI_BOARD_NAME, "E210"), DMI_MATCH(DMI_BIOS_VERSION, "6.00"), }, }, { } }; static void ehci_bios_handoff(struct pci_dev *pdev, void __iomem *op_reg_base, u32 cap, u8 offset) { int try_handoff = 1, tried_handoff = 0; /* * The Pegatron Lucid tablet sporadically waits for 98 seconds trying * the handoff on its unused controller. Skip it. * * The HASEE E200 hangs when the semaphore is set (bugzilla #77021). */ if (pdev->vendor == 0x8086 && (pdev->device == 0x283a || pdev->device == 0x27cc)) { if (dmi_check_system(ehci_dmi_nohandoff_table)) try_handoff = 0; } if (try_handoff && (cap & EHCI_USBLEGSUP_BIOS)) { dev_dbg(&pdev->dev, "EHCI: BIOS handoff\n"); #if 0 /* aleksey_gorelov@phoenix.com reports that some systems need SMI forced on, * but that seems dubious in general (the BIOS left it off intentionally) * and is known to prevent some systems from booting. so we won't do this * unless maybe we can determine when we're on a system that needs SMI forced. */ /* BIOS workaround (?): be sure the pre-Linux code * receives the SMI */ pci_read_config_dword(pdev, offset + EHCI_USBLEGCTLSTS, &val); pci_write_config_dword(pdev, offset + EHCI_USBLEGCTLSTS, val | EHCI_USBLEGCTLSTS_SOOE); #endif /* some systems get upset if this semaphore is * set for any other reason than forcing a BIOS * handoff.. */ pci_write_config_byte(pdev, offset + 3, 1); } /* if boot firmware now owns EHCI, spin till it hands it over. */ if (try_handoff) { int msec = 1000; while ((cap & EHCI_USBLEGSUP_BIOS) && (msec > 0)) { tried_handoff = 1; msleep(10); msec -= 10; pci_read_config_dword(pdev, offset, &cap); } } if (cap & EHCI_USBLEGSUP_BIOS) { /* well, possibly buggy BIOS... try to shut it down, * and hope nothing goes too wrong */ if (try_handoff) dev_warn(&pdev->dev, "EHCI: BIOS handoff failed (BIOS bug?) %08x\n", cap); pci_write_config_byte(pdev, offset + 2, 0); } /* just in case, always disable EHCI SMIs */ pci_write_config_dword(pdev, offset + EHCI_USBLEGCTLSTS, 0); /* If the BIOS ever owned the controller then we can't expect * any power sessions to remain intact. */ if (tried_handoff) writel(0, op_reg_base + EHCI_CONFIGFLAG); } static void quirk_usb_disable_ehci(struct pci_dev *pdev) { void __iomem *base, *op_reg_base; u32 hcc_params, cap, val; u8 offset, cap_length; int wait_time, count = 256/4; if (!mmio_resource_enabled(pdev, 0)) return; base = pci_ioremap_bar(pdev, 0); if (base == NULL) return; cap_length = readb(base); op_reg_base = base + cap_length; /* EHCI 0.96 and later may have "extended capabilities" * spec section 5.1 explains the bios handoff, e.g. for * booting from USB disk or using a usb keyboard */ hcc_params = readl(base + EHCI_HCC_PARAMS); offset = (hcc_params >> 8) & 0xff; while (offset && --count) { pci_read_config_dword(pdev, offset, &cap); switch (cap & 0xff) { case 1: ehci_bios_handoff(pdev, op_reg_base, cap, offset); break; case 0: /* Illegal reserved cap, set cap=0 so we exit */ cap = 0; fallthrough; default: dev_warn(&pdev->dev, "EHCI: unrecognized capability %02x\n", cap & 0xff); } offset = (cap >> 8) & 0xff; } if (!count) dev_printk(KERN_DEBUG, &pdev->dev, "EHCI: capability loop?\n"); /* * halt EHCI & disable its interrupts in any case */ val = readl(op_reg_base + EHCI_USBSTS); if ((val & EHCI_USBSTS_HALTED) == 0) { val = readl(op_reg_base + EHCI_USBCMD); val &= ~EHCI_USBCMD_RUN; writel(val, op_reg_base + EHCI_USBCMD); wait_time = 2000; do { writel(0x3f, op_reg_base + EHCI_USBSTS); udelay(100); wait_time -= 100; val = readl(op_reg_base + EHCI_USBSTS); if ((val == ~(u32)0) || (val & EHCI_USBSTS_HALTED)) { break; } } while (wait_time > 0); } writel(0, op_reg_base + EHCI_USBINTR); writel(0x3f, op_reg_base + EHCI_USBSTS); iounmap(base); } /* * handshake - spin reading a register until handshake completes * @ptr: address of hc register to be read * @mask: bits to look at in result of read * @done: value of those bits when handshake succeeds * @wait_usec: timeout in microseconds * @delay_usec: delay in microseconds to wait between polling * * Polls a register every delay_usec microseconds. * Returns 0 when the mask bits have the value done. * Returns -ETIMEDOUT if this condition is not true after * wait_usec microseconds have passed. */ static int handshake(void __iomem *ptr, u32 mask, u32 done, int wait_usec, int delay_usec) { u32 result; return readl_poll_timeout_atomic(ptr, result, ((result & mask) == done), delay_usec, wait_usec); } /* * Intel's Panther Point chipset has two host controllers (EHCI and xHCI) that * share some number of ports. These ports can be switched between either * controller. Not all of the ports under the EHCI host controller may be * switchable. * * The ports should be switched over to xHCI before PCI probes for any device * start. This avoids active devices under EHCI being disconnected during the * port switchover, which could cause loss of data on USB storage devices, or * failed boot when the root file system is on a USB mass storage device and is * enumerated under EHCI first. * * We write into the xHC's PCI configuration space in some Intel-specific * registers to switch the ports over. The USB 3.0 terminations and the USB * 2.0 data wires are switched separately. We want to enable the SuperSpeed * terminations before switching the USB 2.0 wires over, so that USB 3.0 * devices connect at SuperSpeed, rather than at USB 2.0 speeds. */ void usb_enable_intel_xhci_ports(struct pci_dev *xhci_pdev) { u32 ports_available; bool ehci_found = false; struct pci_dev *companion = NULL; /* Sony VAIO t-series with subsystem device ID 90a8 is not capable of * switching ports from EHCI to xHCI */ if (xhci_pdev->subsystem_vendor == PCI_VENDOR_ID_SONY && xhci_pdev->subsystem_device == 0x90a8) return; /* make sure an intel EHCI controller exists */ for_each_pci_dev(companion) { if (companion->class == PCI_CLASS_SERIAL_USB_EHCI && companion->vendor == PCI_VENDOR_ID_INTEL) { ehci_found = true; break; } } if (!ehci_found) return; /* Don't switchover the ports if the user hasn't compiled the xHCI * driver. Otherwise they will see "dead" USB ports that don't power * the devices. */ if (!IS_ENABLED(CONFIG_USB_XHCI_HCD)) { dev_warn(&xhci_pdev->dev, "CONFIG_USB_XHCI_HCD is turned off, defaulting to EHCI.\n"); dev_warn(&xhci_pdev->dev, "USB 3.0 devices will work at USB 2.0 speeds.\n"); usb_disable_xhci_ports(xhci_pdev); return; } /* Read USB3PRM, the USB 3.0 Port Routing Mask Register * Indicate the ports that can be changed from OS. */ pci_read_config_dword(xhci_pdev, USB_INTEL_USB3PRM, &ports_available); dev_dbg(&xhci_pdev->dev, "Configurable ports to enable SuperSpeed: 0x%x\n", ports_available); /* Write USB3_PSSEN, the USB 3.0 Port SuperSpeed Enable * Register, to turn on SuperSpeed terminations for the * switchable ports. */ pci_write_config_dword(xhci_pdev, USB_INTEL_USB3_PSSEN, ports_available); pci_read_config_dword(xhci_pdev, USB_INTEL_USB3_PSSEN, &ports_available); dev_dbg(&xhci_pdev->dev, "USB 3.0 ports that are now enabled under xHCI: 0x%x\n", ports_available); /* Read XUSB2PRM, xHCI USB 2.0 Port Routing Mask Register * Indicate the USB 2.0 ports to be controlled by the xHCI host. */ pci_read_config_dword(xhci_pdev, USB_INTEL_USB2PRM, &ports_available); dev_dbg(&xhci_pdev->dev, "Configurable USB 2.0 ports to hand over to xCHI: 0x%x\n", ports_available); /* Write XUSB2PR, the xHC USB 2.0 Port Routing Register, to * switch the USB 2.0 power and data lines over to the xHCI * host. */ pci_write_config_dword(xhci_pdev, USB_INTEL_XUSB2PR, ports_available); pci_read_config_dword(xhci_pdev, USB_INTEL_XUSB2PR, &ports_available); dev_dbg(&xhci_pdev->dev, "USB 2.0 ports that are now switched over to xHCI: 0x%x\n", ports_available); } EXPORT_SYMBOL_GPL(usb_enable_intel_xhci_ports); void usb_disable_xhci_ports(struct pci_dev *xhci_pdev) { pci_write_config_dword(xhci_pdev, USB_INTEL_USB3_PSSEN, 0x0); pci_write_config_dword(xhci_pdev, USB_INTEL_XUSB2PR, 0x0); } EXPORT_SYMBOL_GPL(usb_disable_xhci_ports); /* * PCI Quirks for xHCI. * * Takes care of the handoff between the Pre-OS (i.e. BIOS) and the OS. * It signals to the BIOS that the OS wants control of the host controller, * and then waits 1 second for the BIOS to hand over control. * If we timeout, assume the BIOS is broken and take control anyway. */ static void quirk_usb_handoff_xhci(struct pci_dev *pdev) { void __iomem *base; int ext_cap_offset; void __iomem *op_reg_base; u32 val; int timeout; int len = pci_resource_len(pdev, 0); if (!mmio_resource_enabled(pdev, 0)) return; base = ioremap(pci_resource_start(pdev, 0), len); if (base == NULL) return; /* * Find the Legacy Support Capability register - * this is optional for xHCI host controllers. */ ext_cap_offset = xhci_find_next_ext_cap(base, 0, XHCI_EXT_CAPS_LEGACY); if (!ext_cap_offset) goto hc_init; if ((ext_cap_offset + sizeof(val)) > len) { /* We're reading garbage from the controller */ dev_warn(&pdev->dev, "xHCI controller failing to respond"); goto iounmap; } val = readl(base + ext_cap_offset); /* Auto handoff never worked for these devices. Force it and continue */ if ((pdev->vendor == PCI_VENDOR_ID_TI && pdev->device == 0x8241) || (pdev->vendor == PCI_VENDOR_ID_RENESAS && pdev->device == 0x0014)) { val = (val | XHCI_HC_OS_OWNED) & ~XHCI_HC_BIOS_OWNED; writel(val, base + ext_cap_offset); } /* If the BIOS owns the HC, signal that the OS wants it, and wait */ if (val & XHCI_HC_BIOS_OWNED) { writel(val | XHCI_HC_OS_OWNED, base + ext_cap_offset); /* Wait for 1 second with 10 microsecond polling interval */ timeout = handshake(base + ext_cap_offset, XHCI_HC_BIOS_OWNED, 0, 1000000, 10); /* Assume a buggy BIOS and take HC ownership anyway */ if (timeout) { dev_warn(&pdev->dev, "xHCI BIOS handoff failed (BIOS bug ?) %08x\n", val); writel(val & ~XHCI_HC_BIOS_OWNED, base + ext_cap_offset); } } val = readl(base + ext_cap_offset + XHCI_LEGACY_CONTROL_OFFSET); /* Mask off (turn off) any enabled SMIs */ val &= XHCI_LEGACY_DISABLE_SMI; /* Mask all SMI events bits, RW1C */ val |= XHCI_LEGACY_SMI_EVENTS; /* Disable any BIOS SMIs and clear all SMI events*/ writel(val, base + ext_cap_offset + XHCI_LEGACY_CONTROL_OFFSET); hc_init: if (pdev->vendor == PCI_VENDOR_ID_INTEL) usb_enable_intel_xhci_ports(pdev); op_reg_base = base + XHCI_HC_LENGTH(readl(base)); /* Wait for the host controller to be ready before writing any * operational or runtime registers. Wait 5 seconds and no more. */ timeout = handshake(op_reg_base + XHCI_STS_OFFSET, XHCI_STS_CNR, 0, 5000000, 10); /* Assume a buggy HC and start HC initialization anyway */ if (timeout) { val = readl(op_reg_base + XHCI_STS_OFFSET); dev_warn(&pdev->dev, "xHCI HW not ready after 5 sec (HC bug?) status = 0x%x\n", val); } /* Send the halt and disable interrupts command */ val = readl(op_reg_base + XHCI_CMD_OFFSET); val &= ~(XHCI_CMD_RUN | XHCI_IRQS); writel(val, op_reg_base + XHCI_CMD_OFFSET); /* Wait for the HC to halt - poll every 125 usec (one microframe). */ timeout = handshake(op_reg_base + XHCI_STS_OFFSET, XHCI_STS_HALT, 1, XHCI_MAX_HALT_USEC, 125); if (timeout) { val = readl(op_reg_base + XHCI_STS_OFFSET); dev_warn(&pdev->dev, "xHCI HW did not halt within %d usec status = 0x%x\n", XHCI_MAX_HALT_USEC, val); } iounmap: iounmap(base); } static void quirk_usb_early_handoff(struct pci_dev *pdev) { struct device_node *parent; bool is_rpi; /* Skip Netlogic mips SoC's internal PCI USB controller. * This device does not need/support EHCI/OHCI handoff */ if (pdev->vendor == 0x184e) /* vendor Netlogic */ return; /* * Bypass the Raspberry Pi 4 controller xHCI controller, things are * taken care of by the board's co-processor. */ if (pdev->vendor == PCI_VENDOR_ID_VIA && pdev->device == 0x3483) { parent = of_get_parent(pdev->bus->dev.of_node); is_rpi = of_device_is_compatible(parent, "brcm,bcm2711-pcie"); of_node_put(parent); if (is_rpi) return; } if (pdev->class != PCI_CLASS_SERIAL_USB_UHCI && pdev->class != PCI_CLASS_SERIAL_USB_OHCI && pdev->class != PCI_CLASS_SERIAL_USB_EHCI && pdev->class != PCI_CLASS_SERIAL_USB_XHCI) return; if (pci_enable_device(pdev) < 0) { dev_warn(&pdev->dev, "Can't enable PCI device, BIOS handoff failed.\n"); return; } if (pdev->class == PCI_CLASS_SERIAL_USB_UHCI) quirk_usb_handoff_uhci(pdev); else if (pdev->class == PCI_CLASS_SERIAL_USB_OHCI) quirk_usb_handoff_ohci(pdev); else if (pdev->class == PCI_CLASS_SERIAL_USB_EHCI) quirk_usb_disable_ehci(pdev); else if (pdev->class == PCI_CLASS_SERIAL_USB_XHCI) quirk_usb_handoff_xhci(pdev); pci_disable_device(pdev); } DECLARE_PCI_FIXUP_CLASS_FINAL(PCI_ANY_ID, PCI_ANY_ID, PCI_CLASS_SERIAL_USB, 8, quirk_usb_early_handoff); |