/* * iop13xx PCI support * Copyright (c) 2005-2006, Intel Corporation. * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License along with * this program; if not, write to the Free Software Foundation, Inc., 59 Temple * Place - Suite 330, Boston, MA 02111-1307 USA. * */ #include #include #include #include #include #include #include #include #include #include #include #define IOP13XX_PCI_DEBUG 0 #define PRINTK(x...) ((void)(IOP13XX_PCI_DEBUG && printk(x))) u32 iop13xx_atux_pmmr_offset; /* This offset can change based on strapping */ u32 iop13xx_atue_pmmr_offset; /* This offset can change based on strapping */ static struct pci_bus *pci_bus_atux = 0; static struct pci_bus *pci_bus_atue = 0; void __iomem *iop13xx_atue_mem_base; void __iomem *iop13xx_atux_mem_base; size_t iop13xx_atue_mem_size; size_t iop13xx_atux_mem_size; EXPORT_SYMBOL(iop13xx_atue_mem_base); EXPORT_SYMBOL(iop13xx_atux_mem_base); EXPORT_SYMBOL(iop13xx_atue_mem_size); EXPORT_SYMBOL(iop13xx_atux_mem_size); int init_atu = 0; /* Flag to select which ATU(s) to initialize / disable */ static unsigned long atux_trhfa_timeout = 0; /* Trhfa = RST# high to first access */ /* Scan the initialized busses and ioremap the requested memory range */ void iop13xx_map_pci_memory(void) { int atu; struct pci_bus *bus; struct pci_dev *dev; resource_size_t end = 0; for (atu = 0; atu < 2; atu++) { bus = atu ? pci_bus_atue : pci_bus_atux; if (bus) { list_for_each_entry(dev, &bus->devices, bus_list) { int i; int max = 7; if (dev->subordinate) max = DEVICE_COUNT_RESOURCE; for (i = 0; i < max; i++) { struct resource *res = &dev->resource[i]; if (res->flags & IORESOURCE_MEM) end = max(res->end, end); } } switch(atu) { case 0: iop13xx_atux_mem_size = (end - IOP13XX_PCIX_LOWER_MEM_RA) + 1; /* 16MB align the request */ if (iop13xx_atux_mem_size & (SZ_16M - 1)) { iop13xx_atux_mem_size &= ~(SZ_16M - 1); iop13xx_atux_mem_size += SZ_16M; } if (end) { iop13xx_atux_mem_base = __arm_ioremap_pfn( __phys_to_pfn(IOP13XX_PCIX_LOWER_MEM_PA) , 0, iop13xx_atux_mem_size, MT_DEVICE); if (!iop13xx_atux_mem_base) { printk("%s: atux allocation " "failed\n", __func__); BUG(); } } else iop13xx_atux_mem_size = 0; PRINTK("%s: atu: %d bus_size: %d mem_base: %p\n", __func__, atu, iop13xx_atux_mem_size, iop13xx_atux_mem_base); break; case 1: iop13xx_atue_mem_size = (end - IOP13XX_PCIE_LOWER_MEM_RA) + 1; /* 16MB align the request */ if (iop13xx_atue_mem_size & (SZ_16M - 1)) { iop13xx_atue_mem_size &= ~(SZ_16M - 1); iop13xx_atue_mem_size += SZ_16M; } if (end) { iop13xx_atue_mem_base = __arm_ioremap_pfn( __phys_to_pfn(IOP13XX_PCIE_LOWER_MEM_PA) , 0, iop13xx_atue_mem_size, MT_DEVICE); if (!iop13xx_atue_mem_base) { printk("%s: atue allocation " "failed\n", __func__); BUG(); } } else iop13xx_atue_mem_size = 0; PRINTK("%s: atu: %d bus_size: %d mem_base: %p\n", __func__, atu, iop13xx_atue_mem_size, iop13xx_atue_mem_base); break; } printk("%s: Initialized (%uM @ resource/virtual: %08lx/%p)\n", atu ? "ATUE" : "ATUX", (atu ? iop13xx_atue_mem_size : iop13xx_atux_mem_size) / SZ_1M, atu ? IOP13XX_PCIE_LOWER_MEM_RA : IOP13XX_PCIX_LOWER_MEM_RA, atu ? iop13xx_atue_mem_base : iop13xx_atux_mem_base); end = 0; } } } static int iop13xx_atu_function(int atu) { int func = 0; /* the function number depends on the value of the * IOP13XX_INTERFACE_SEL_PCIX reset strap * see C-Spec section 3.17 */ switch(atu) { case IOP13XX_INIT_ATU_ATUX: if (__raw_readl(IOP13XX_ESSR0) & IOP13XX_INTERFACE_SEL_PCIX) func = 5; else func = 0; break; case IOP13XX_INIT_ATU_ATUE: if (__raw_readl(IOP13XX_ESSR0) & IOP13XX_INTERFACE_SEL_PCIX) func = 0; else func = 5; break; default: BUG(); } return func; } /* iop13xx_atux_cfg_address - format a configuration address for atux * @bus: Target bus to access * @devfn: Combined device number and function number * @where: Desired register's address offset * * Convert the parameters to a configuration address formatted * according the PCI-X 2.0 specification */ static u32 iop13xx_atux_cfg_address(struct pci_bus *bus, int devfn, int where) { struct pci_sys_data *sys = bus->sysdata; u32 addr; if (sys->busnr == bus->number) addr = 1 << (PCI_SLOT(devfn) + 16) | (PCI_SLOT(devfn) << 11); else addr = bus->number << 16 | PCI_SLOT(devfn) << 11 | 1; addr |= PCI_FUNC(devfn) << 8 | ((where & 0xff) & ~3); addr |= ((where & 0xf00) >> 8) << 24; /* upper register number */ return addr; } /* iop13xx_atue_cfg_address - format a configuration address for atue * @bus: Target bus to access * @devfn: Combined device number and function number * @where: Desired register's address offset * * Convert the parameters to an address usable by the ATUE_OCCAR */ static u32 iop13xx_atue_cfg_address(struct pci_bus *bus, int devfn, int where) { struct pci_sys_data *sys = bus->sysdata; u32 addr; PRINTK("iop13xx_atue_cfg_address: bus: %d dev: %d func: %d", bus->number, PCI_SLOT(devfn), PCI_FUNC(devfn)); addr = ((u32) bus->number) << IOP13XX_ATUE_OCCAR_BUS_NUM | ((u32) PCI_SLOT(devfn)) << IOP13XX_ATUE_OCCAR_DEV_NUM | ((u32) PCI_FUNC(devfn)) << IOP13XX_ATUE_OCCAR_FUNC_NUM | (where & ~0x3); if (sys->busnr != bus->number) addr |= 1; /* type 1 access */ return addr; } /* This routine checks the status of the last configuration cycle. If an error * was detected it returns >0, else it returns a 0. The errors being checked * are parity, master abort, target abort (master and target). These types of * errors occur during a config cycle where there is no device, like during * the discovery stage. */ static int iop13xx_atux_pci_status(int clear) { unsigned int status; int err = 0; /* * Check the status registers. */ status = __raw_readw(IOP13XX_ATUX_ATUSR); if (status & IOP_PCI_STATUS_ERROR) { PRINTK("\t\t\tPCI error: ATUSR %#08x", status); if(clear) __raw_writew(status & IOP_PCI_STATUS_ERROR, IOP13XX_ATUX_ATUSR); err = 1; } status = __raw_readl(IOP13XX_ATUX_ATUISR); if (status & IOP13XX_ATUX_ATUISR_ERROR) { PRINTK("\t\t\tPCI error interrupt: ATUISR %#08x", status); if(clear) __raw_writel(status & IOP13XX_ATUX_ATUISR_ERROR, IOP13XX_ATUX_ATUISR); err = 1; } return err; } /* Simply write the address register and read the configuration * data. Note that the data dependency on %0 encourages an abort * to be detected before we return. */ static u32 iop13xx_atux_read(unsigned long addr) { u32 val; __asm__ __volatile__( "str %1, [%2]\n\t" "ldr %0, [%3]\n\t" "mov %0, %0\n\t" : "=r" (val) : "r" (addr), "r" (IOP13XX_ATUX_OCCAR), "r" (IOP13XX_ATUX_OCCDR)); return val; } /* The read routines must check the error status of the last configuration * cycle. If there was an error, the routine returns all hex f's. */ static int iop13xx_atux_read_config(struct pci_bus *bus, unsigned int devfn, int where, int size, u32 *value) { unsigned long addr = iop13xx_atux_cfg_address(bus, devfn, where); u32 val = iop13xx_atux_read(addr) >> ((where & 3) * 8); if (iop13xx_atux_pci_status(1) || is_atux_occdr_error()) { __raw_writel(__raw_readl(IOP13XX_XBG_BECSR) & 3, IOP13XX_XBG_BECSR); val = 0xffffffff; } *value = val; return PCIBIOS_SUCCESSFUL; } static int iop13xx_atux_write_config(struct pci_bus *bus, unsigned int devfn, int where, int size, u32 value) { unsigned long addr = iop13xx_atux_cfg_address(bus, devfn, where); u32 val; if (size != 4) { val = iop13xx_atux_read(addr); if (!iop13xx_atux_pci_status(1) == 0) return PCIBIOS_SUCCESSFUL; where = (where & 3) * 8; if (size == 1) val &= ~(0xff << where); else val &= ~(0xffff << where); __raw_writel(val | value << where, IOP13XX_ATUX_OCCDR); } else { __raw_writel(addr, IOP13XX_ATUX_OCCAR); __raw_writel(value, IOP13XX_ATUX_OCCDR); } return PCIBIOS_SUCCESSFUL; } static struct pci_ops iop13xx_atux_ops = { .read = iop13xx_atux_read_config, .write = iop13xx_atux_write_config, }; /* This routine checks the status of the last configuration cycle. If an error * was detected it returns >0, else it returns a 0. The errors being checked * are parity, master abort, target abort (master and target). These types of * errors occur during a config cycle where there is no device, like during * the discovery stage. */ static int iop13xx_atue_pci_status(int clear) { unsigned int status; int err = 0; /* * Check the status registers. */ /* standard pci status register */ status = __raw_readw(IOP13XX_ATUE_ATUSR); if (status & IOP_PCI_STATUS_ERROR) { PRINTK("\t\t\tPCI error: ATUSR %#08x", status); if(clear) __raw_writew(status & IOP_PCI_STATUS_ERROR, IOP13XX_ATUE_ATUSR); err++; } /* check the normal status bits in the ATUISR */ status = __raw_readl(IOP13XX_ATUE_ATUISR); if (status & IOP13XX_ATUE_ATUISR_ERROR) { PRINTK("\t\t\tPCI error: ATUISR %#08x", status); if (clear) __raw_writew(status & IOP13XX_ATUE_ATUISR_ERROR, IOP13XX_ATUE_ATUISR); err++; /* check the PCI-E status if the ATUISR reports an interface error */ if (status & IOP13XX_ATUE_STAT_PCI_IFACE_ERR) { /* get the unmasked errors */ status = __raw_readl(IOP13XX_ATUE_PIE_STS) & ~(__raw_readl(IOP13XX_ATUE_PIE_MSK)); if (status) { PRINTK("\t\t\tPCI-E error: ATUE_PIE_STS %#08x", __raw_readl(IOP13XX_ATUE_PIE_STS)); err++; } else { PRINTK("\t\t\tPCI-E error: ATUE_PIE_STS %#08x", __raw_readl(IOP13XX_ATUE_PIE_STS)); PRINTK("\t\t\tPCI-E error: ATUE_PIE_MSK %#08x", __raw_readl(IOP13XX_ATUE_PIE_MSK)); BUG(); } if(clear) __raw_writel(status, IOP13XX_ATUE_PIE_STS); } } return err; } static int iop13xx_pcie_map_irq(const struct pci_dev *dev, u8 idsel, u8 pin) { WARN_ON(idsel != 0); switch (pin) { case 1: return ATUE_INTA; case 2: return ATUE_INTB; case 3: return ATUE_INTC; case 4: return ATUE_INTD; default: return -1; } } static u32 iop13xx_atue_read(unsigned long addr) { u32 val; __raw_writel(addr, IOP13XX_ATUE_OCCAR); val = __raw_readl(IOP13XX_ATUE_OCCDR); rmb(); return val; } /* The read routines must check the error status of the last configuration * cycle. If there was an error, the routine returns all hex f's. */ static int iop13xx_atue_read_config(struct pci_bus *bus, unsigned int devfn, int where, int size, u32 *value) { u32 val; unsigned long addr = iop13xx_atue_cfg_address(bus, devfn, where); /* Hide device numbers > 0 on the local PCI-E bus (Type 0 access) */ if (!PCI_SLOT(devfn) || (addr & 1)) { val = iop13xx_atue_read(addr) >> ((where & 3) * 8); if( iop13xx_atue_pci_status(1) || is_atue_occdr_error() ) { __raw_writel(__raw_readl(IOP13XX_XBG_BECSR) & 3, IOP13XX_XBG_BECSR); val = 0xffffffff; } PRINTK("addr=%#0lx, val=%#010x", addr, val); } else val = 0xffffffff; *value = val; return PCIBIOS_SUCCESSFUL; } static int iop13xx_atue_write_config(struct pci_bus *bus, unsigned int devfn, int where, int size, u32 value) { unsigned long addr = iop13xx_atue_cfg_address(bus, devfn, where); u32 val; if (size != 4) { val = iop13xx_atue_read(addr); if (!iop13xx_atue_pci_status(1) == 0) return PCIBIOS_SUCCESSFUL; where = (where & 3) * 8; if (size == 1) val &= ~(0xff << where); else val &= ~(0xffff << where); __raw_writel(val | value << where, IOP13XX_ATUE_OCCDR); } else { __raw_writel(addr, IOP13XX_ATUE_OCCAR); __raw_writel(value, IOP13XX_ATUE_OCCDR); } return PCIBIOS_SUCCESSFUL; } static struct pci_ops iop13xx_atue_ops = { .read = iop13xx_atue_read_config, .write = iop13xx_atue_write_config, }; /* When a PCI device does not exist during config cycles, the XScale gets a * bus error instead of returning 0xffffffff. We can't rely on the ATU status * bits to tell us that it was indeed a configuration cycle that caused this * error especially in the case when the ATUE link is down. Instead we rely * on data from the south XSI bridge to validate the abort */ int iop13xx_pci_abort(unsigned long addr, unsigned int fsr, struct pt_regs *regs) { PRINTK("Data abort: address = 0x%08lx " "fsr = 0x%03x PC = 0x%08lx LR = 0x%08lx", addr, fsr, regs->ARM_pc, regs->ARM_lr); PRINTK("IOP13XX_XBG_BECSR: %#10x", __raw_readl(IOP13XX_XBG_BECSR)); PRINTK("IOP13XX_XBG_BERAR: %#10x", __raw_readl(IOP13XX_XBG_BERAR)); PRINTK("IOP13XX_XBG_BERUAR: %#10x", __raw_readl(IOP13XX_XBG_BERUAR)); /* If it was an imprecise abort, then we need to correct the * return address to be _after_ the instruction. */ if (fsr & (1 << 10)) regs->ARM_pc += 4; if (is_atue_occdr_error() || is_atux_occdr_error()) return 0; else return 1; } /* Scan an IOP13XX PCI bus. nr selects which ATU we use. */ struct pci_bus *iop13xx_scan_bus(int nr, struct pci_sys_data *sys) { int which_atu; struct pci_bus *bus = NULL; switch (init_atu) { case IOP13XX_INIT_ATU_ATUX: which_atu = nr ? 0 : IOP13XX_INIT_ATU_ATUX; break; case IOP13XX_INIT_ATU_ATUE: which_atu = nr ? 0 : IOP13XX_INIT_ATU_ATUE; break; case (IOP13XX_INIT_ATU_ATUX | IOP13XX_INIT_ATU_ATUE): which_atu = nr ? IOP13XX_INIT_ATU_ATUE : IOP13XX_INIT_ATU_ATUX; break; default: which_atu = 0; } if (!which_atu) { BUG(); return NULL; } switch (which_atu) { case IOP13XX_INIT_ATU_ATUX: if (time_after_eq(jiffies + msecs_to_jiffies(1000), atux_trhfa_timeout)) /* ensure not wrap */ while(time_before(jiffies, atux_trhfa_timeout)) udelay(100); bus = pci_bus_atux = pci_scan_root_bus(NULL, sys->busnr, &iop13xx_atux_ops, sys, &sys->resources); break; case IOP13XX_INIT_ATU_ATUE: bus = pci_bus_atue = pci_scan_root_bus(NULL, sys->busnr, &iop13xx_atue_ops, sys, &sys->resources); break; } return bus; } /* This function is called from iop13xx_pci_init() after assigning valid * values to iop13xx_atue_pmmr_offset. This is the location for common * setup of ATUE for all IOP13XX implementations. */ void __init iop13xx_atue_setup(void) { int func = iop13xx_atu_function(IOP13XX_INIT_ATU_ATUE); u32 reg_val; #ifdef CONFIG_PCI_MSI /* BAR 0 (inbound msi window) */ __raw_writel(IOP13XX_MU_BASE_PHYS, IOP13XX_MU_MUBAR); __raw_writel(~(IOP13XX_MU_WINDOW_SIZE - 1), IOP13XX_ATUE_IALR0); __raw_writel(IOP13XX_MU_BASE_PHYS, IOP13XX_ATUE_IATVR0); __raw_writel(IOP13XX_MU_BASE_PCI, IOP13XX_ATUE_IABAR0); #endif /* BAR 1 (1:1 mapping with Physical RAM) */ /* Set limit and enable */ __raw_writel(~(IOP13XX_MAX_RAM_SIZE - PHYS_OFFSET - 1) & ~0x1, IOP13XX_ATUE_IALR1); __raw_writel(0x0, IOP13XX_ATUE_IAUBAR1); /* Set base at the top of the reserved address space */ __raw_writel(PHYS_OFFSET | PCI_BASE_ADDRESS_MEM_TYPE_64 | PCI_BASE_ADDRESS_MEM_PREFETCH, IOP13XX_ATUE_IABAR1); /* 1:1 mapping with physical ram * (leave big endian byte swap disabled) */ __raw_writel(0x0, IOP13XX_ATUE_IAUTVR1); __raw_writel(PHYS_OFFSET, IOP13XX_ATUE_IATVR1); /* Outbound window 1 (PCIX/PCIE memory window) */ /* 32 bit Address Space */ __raw_writel(0x0, IOP13XX_ATUE_OUMWTVR1); /* PA[35:32] */ __raw_writel(IOP13XX_ATUE_OUMBAR_ENABLE | (IOP13XX_PCIE_MEM_PHYS_OFFSET >> 32), IOP13XX_ATUE_OUMBAR1); /* Setup the I/O Bar * A[35-16] in 31-12 */ __raw_writel(((IOP13XX_PCIE_LOWER_IO_PA >> 0x4) & 0xfffff000), IOP13XX_ATUE_OIOBAR); __raw_writel(IOP13XX_PCIE_LOWER_IO_BA, IOP13XX_ATUE_OIOWTVR); /* clear startup errors */ iop13xx_atue_pci_status(1); /* OIOBAR function number */ reg_val = __raw_readl(IOP13XX_ATUE_OIOBAR); reg_val &= ~0x7; reg_val |= func; __raw_writel(reg_val, IOP13XX_ATUE_OIOBAR); /* OUMBAR function numbers */ reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR0); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR0); reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR1); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR1); reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR2); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR2); reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR3); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR3); /* Enable inbound and outbound cycles */ reg_val = __raw_readw(IOP13XX_ATUE_ATUCMD); reg_val |= PCI_COMMAND_MEMORY | PCI_COMMAND_MASTER | PCI_COMMAND_PARITY | PCI_COMMAND_SERR; __raw_writew(reg_val, IOP13XX_ATUE_ATUCMD); reg_val = __raw_readl(IOP13XX_ATUE_ATUCR); reg_val |= IOP13XX_ATUE_ATUCR_OUT_EN | IOP13XX_ATUE_ATUCR_IVM; __raw_writel(reg_val, IOP13XX_ATUE_ATUCR); } void __init iop13xx_atue_disable(void) { u32 reg_val; __raw_writew(0x0, IOP13XX_ATUE_ATUCMD); __raw_writel(IOP13XX_ATUE_ATUCR_IVM, IOP13XX_ATUE_ATUCR); /* wait for cycles to quiesce */ while (__raw_readl(IOP13XX_ATUE_PCSR) & (IOP13XX_ATUE_PCSR_OUT_Q_BUSY | IOP13XX_ATUE_PCSR_IN_Q_BUSY | IOP13XX_ATUE_PCSR_LLRB_BUSY)) cpu_relax(); /* BAR 0 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUE_IAUBAR0); __raw_writel(0x0, IOP13XX_ATUE_IABAR0); __raw_writel(0x0, IOP13XX_ATUE_IAUTVR0); __raw_writel(0x0, IOP13XX_ATUE_IATVR0); __raw_writel(0x0, IOP13XX_ATUE_IALR0); reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR0); reg_val &= ~IOP13XX_ATUE_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR0); /* BAR 1 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUE_IAUBAR1); __raw_writel(0x0, IOP13XX_ATUE_IABAR1); __raw_writel(0x0, IOP13XX_ATUE_IAUTVR1); __raw_writel(0x0, IOP13XX_ATUE_IATVR1); __raw_writel(0x0, IOP13XX_ATUE_IALR1); reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR1); reg_val &= ~IOP13XX_ATUE_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR1); /* BAR 2 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUE_IAUBAR2); __raw_writel(0x0, IOP13XX_ATUE_IABAR2); __raw_writel(0x0, IOP13XX_ATUE_IAUTVR2); __raw_writel(0x0, IOP13XX_ATUE_IATVR2); __raw_writel(0x0, IOP13XX_ATUE_IALR2); reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR2); reg_val &= ~IOP13XX_ATUE_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR2); /* BAR 3 ( Disabled ) */ reg_val = __raw_readl(IOP13XX_ATUE_OUMBAR3); reg_val &= ~IOP13XX_ATUE_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUE_OUMBAR3); /* Setup the I/O Bar * A[35-16] in 31-12 */ __raw_writel((IOP13XX_PCIE_LOWER_IO_PA >> 0x4) & 0xfffff000, IOP13XX_ATUE_OIOBAR); __raw_writel(IOP13XX_PCIE_LOWER_IO_BA, IOP13XX_ATUE_OIOWTVR); } /* This function is called from iop13xx_pci_init() after assigning valid * values to iop13xx_atux_pmmr_offset. This is the location for common * setup of ATUX for all IOP13XX implementations. */ void __init iop13xx_atux_setup(void) { u32 reg_val; int func = iop13xx_atu_function(IOP13XX_INIT_ATU_ATUX); /* Take PCI-X bus out of reset if bootloader hasn't already. * According to spec, we should wait for 2^25 PCI clocks to meet * the PCI timing parameter Trhfa (RST# high to first access). * This is rarely necessary and often ignored. */ reg_val = __raw_readl(IOP13XX_ATUX_PCSR); if (reg_val & IOP13XX_ATUX_PCSR_P_RSTOUT) { int msec = (reg_val >> IOP13XX_ATUX_PCSR_FREQ_OFFSET) & 0x7; msec = 1000 / (8-msec); /* bits 100=133MHz, 111=>33MHz */ __raw_writel(reg_val & ~IOP13XX_ATUX_PCSR_P_RSTOUT, IOP13XX_ATUX_PCSR); atux_trhfa_timeout = jiffies + msecs_to_jiffies(msec); } else atux_trhfa_timeout = jiffies; #ifdef CONFIG_PCI_MSI /* BAR 0 (inbound msi window) */ __raw_writel(IOP13XX_MU_BASE_PHYS, IOP13XX_MU_MUBAR); __raw_writel(~(IOP13XX_MU_WINDOW_SIZE - 1), IOP13XX_ATUX_IALR0); __raw_writel(IOP13XX_MU_BASE_PHYS, IOP13XX_ATUX_IATVR0); __raw_writel(IOP13XX_MU_BASE_PCI, IOP13XX_ATUX_IABAR0); #endif /* BAR 1 (1:1 mapping with Physical RAM) */ /* Set limit and enable */ __raw_writel(~(IOP13XX_MAX_RAM_SIZE - PHYS_OFFSET - 1) & ~0x1, IOP13XX_ATUX_IALR1); __raw_writel(0x0, IOP13XX_ATUX_IAUBAR1); /* Set base at the top of the reserved address space */ __raw_writel(PHYS_OFFSET | PCI_BASE_ADDRESS_MEM_TYPE_64 | PCI_BASE_ADDRESS_MEM_PREFETCH, IOP13XX_ATUX_IABAR1); /* 1:1 mapping with physical ram * (leave big endian byte swap disabled) */ __raw_writel(0x0, IOP13XX_ATUX_IAUTVR1); __raw_writel(PHYS_OFFSET, IOP13XX_ATUX_IATVR1); /* Outbound window 1 (PCIX/PCIE memory window) */ /* 32 bit Address Space */ __raw_writel(0x0, IOP13XX_ATUX_OUMWTVR1); /* PA[35:32] */ __raw_writel(IOP13XX_ATUX_OUMBAR_ENABLE | IOP13XX_PCIX_MEM_PHYS_OFFSET >> 32, IOP13XX_ATUX_OUMBAR1); /* Setup the I/O Bar * A[35-16] in 31-12 */ __raw_writel((IOP13XX_PCIX_LOWER_IO_PA >> 0x4) & 0xfffff000, IOP13XX_ATUX_OIOBAR); __raw_writel(IOP13XX_PCIX_LOWER_IO_BA, IOP13XX_ATUX_OIOWTVR); /* clear startup errors */ iop13xx_atux_pci_status(1); /* OIOBAR function number */ reg_val = __raw_readl(IOP13XX_ATUX_OIOBAR); reg_val &= ~0x7; reg_val |= func; __raw_writel(reg_val, IOP13XX_ATUX_OIOBAR); /* OUMBAR function numbers */ reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR0); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR0); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR1); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR1); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR2); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR2); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR3); reg_val &= ~(IOP13XX_ATU_OUMBAR_FUNC_NUM_MASK << IOP13XX_ATU_OUMBAR_FUNC_NUM); reg_val |= func << IOP13XX_ATU_OUMBAR_FUNC_NUM; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR3); /* Enable inbound and outbound cycles */ reg_val = __raw_readw(IOP13XX_ATUX_ATUCMD); reg_val |= PCI_COMMAND_MEMORY | PCI_COMMAND_MASTER | PCI_COMMAND_PARITY | PCI_COMMAND_SERR; __raw_writew(reg_val, IOP13XX_ATUX_ATUCMD); reg_val = __raw_readl(IOP13XX_ATUX_ATUCR); reg_val |= IOP13XX_ATUX_ATUCR_OUT_EN; __raw_writel(reg_val, IOP13XX_ATUX_ATUCR); } void __init iop13xx_atux_disable(void) { u32 reg_val; __raw_writew(0x0, IOP13XX_ATUX_ATUCMD); __raw_writel(0x0, IOP13XX_ATUX_ATUCR); /* wait for cycles to quiesce */ while (__raw_readl(IOP13XX_ATUX_PCSR) & (IOP13XX_ATUX_PCSR_OUT_Q_BUSY | IOP13XX_ATUX_PCSR_IN_Q_BUSY)) cpu_relax(); /* BAR 0 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUX_IAUBAR0); __raw_writel(0x0, IOP13XX_ATUX_IABAR0); __raw_writel(0x0, IOP13XX_ATUX_IAUTVR0); __raw_writel(0x0, IOP13XX_ATUX_IATVR0); __raw_writel(0x0, IOP13XX_ATUX_IALR0); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR0); reg_val &= ~IOP13XX_ATUX_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR0); /* BAR 1 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUX_IAUBAR1); __raw_writel(0x0, IOP13XX_ATUX_IABAR1); __raw_writel(0x0, IOP13XX_ATUX_IAUTVR1); __raw_writel(0x0, IOP13XX_ATUX_IATVR1); __raw_writel(0x0, IOP13XX_ATUX_IALR1); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR1); reg_val &= ~IOP13XX_ATUX_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR1); /* BAR 2 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUX_IAUBAR2); __raw_writel(0x0, IOP13XX_ATUX_IABAR2); __raw_writel(0x0, IOP13XX_ATUX_IAUTVR2); __raw_writel(0x0, IOP13XX_ATUX_IATVR2); __raw_writel(0x0, IOP13XX_ATUX_IALR2); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR2); reg_val &= ~IOP13XX_ATUX_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR2); /* BAR 3 ( Disabled ) */ __raw_writel(0x0, IOP13XX_ATUX_IAUBAR3); __raw_writel(0x0, IOP13XX_ATUX_IABAR3); __raw_writel(0x0, IOP13XX_ATUX_IAUTVR3); __raw_writel(0x0, IOP13XX_ATUX_IATVR3); __raw_writel(0x0, IOP13XX_ATUX_IALR3); reg_val = __raw_readl(IOP13XX_ATUX_OUMBAR3); reg_val &= ~IOP13XX_ATUX_OUMBAR_ENABLE; __raw_writel(reg_val, IOP13XX_ATUX_OUMBAR3); /* Setup the I/O Bar * A[35-16] in 31-12 */ __raw_writel((IOP13XX_PCIX_LOWER_IO_PA >> 0x4) & 0xfffff000, IOP13XX_ATUX_OIOBAR); __raw_writel(IOP13XX_PCIX_LOWER_IO_BA, IOP13XX_ATUX_OIOWTVR); } void __init iop13xx_set_atu_mmr_bases(void) { /* Based on ESSR0, determine the ATU X/E offsets */ switch(__raw_readl(IOP13XX_ESSR0) & (IOP13XX_CONTROLLER_ONLY | IOP13XX_INTERFACE_SEL_PCIX)) { /* both asserted */ case 0: iop13xx_atux_pmmr_offset = IOP13XX_ATU1_PMMR_OFFSET; iop13xx_atue_pmmr_offset = IOP13XX_ATU2_PMMR_OFFSET; break; /* IOP13XX_CONTROLLER_ONLY = deasserted * IOP13XX_INTERFACE_SEL_PCIX = asserted */ case IOP13XX_CONTROLLER_ONLY: iop13xx_atux_pmmr_offset = IOP13XX_ATU0_PMMR_OFFSET; iop13xx_atue_pmmr_offset = IOP13XX_ATU2_PMMR_OFFSET; break; /* IOP13XX_CONTROLLER_ONLY = asserted * IOP13XX_INTERFACE_SEL_PCIX = deasserted */ case IOP13XX_INTERFACE_SEL_PCIX: iop13xx_atux_pmmr_offset = IOP13XX_ATU1_PMMR_OFFSET; iop13xx_atue_pmmr_offset = IOP13XX_ATU2_PMMR_OFFSET; break; /* both deasserted */ case IOP13XX_CONTROLLER_ONLY | IOP13XX_INTERFACE_SEL_PCIX: iop13xx_atux_pmmr_offset = IOP13XX_ATU2_PMMR_OFFSET; iop13xx_atue_pmmr_offset = IOP13XX_ATU0_PMMR_OFFSET; break; default: BUG(); } } void __init iop13xx_atu_select(struct hw_pci *plat_pci) { int i; /* set system defaults * note: if "iop13xx_init_atu=" is specified this autodetect * sequence will be bypassed */ if (init_atu == IOP13XX_INIT_ATU_DEFAULT) { /* check for single/dual interface */ if (__raw_readl(IOP13XX_ESSR0) & IOP13XX_INTERFACE_SEL_PCIX) { /* ATUE must be present check the device id * to see if ATUX is present. */ init_atu |= IOP13XX_INIT_ATU_ATUE; switch (__raw_readw(IOP13XX_ATUE_DID) & 0xf0) { case 0x70: case 0x80: case 0xc0: init_atu |= IOP13XX_INIT_ATU_ATUX; break; } } else { /* ATUX must be present check the device id * to see if ATUE is present. */ init_atu |= IOP13XX_INIT_ATU_ATUX; switch (__raw_readw(IOP13XX_ATUX_DID) & 0xf0) { case 0x70: case 0x80: case 0xc0: init_atu |= IOP13XX_INIT_ATU_ATUE; break; } } /* check central resource and root complex capability */ if (init_atu & IOP13XX_INIT_ATU_ATUX) if (!(__raw_readl(IOP13XX_ATUX_PCSR) & IOP13XX_ATUX_PCSR_CENTRAL_RES)) init_atu &= ~IOP13XX_INIT_ATU_ATUX; if (init_atu & IOP13XX_INIT_ATU_ATUE) if (__raw_readl(IOP13XX_ATUE_PCSR) & IOP13XX_ATUE_PCSR_END_POINT) init_atu &= ~IOP13XX_INIT_ATU_ATUE; } for (i = 0; i < 2; i++) { if((init_atu & (1 << i)) == (1 << i)) plat_pci->nr_controllers++; } } void __init iop13xx_pci_init(void) { /* clear pre-existing south bridge errors */ __raw_writel(__raw_readl(IOP13XX_XBG_BECSR) & 3, IOP13XX_XBG_BECSR); /* Setup the Min Address for PCI memory... */ pcibios_min_mem = IOP13XX_PCIX_LOWER_MEM_BA; /* if Linux is given control of an ATU * clear out its prior configuration, * otherwise do not touch the registers */ if (init_atu & IOP13XX_INIT_ATU_ATUE) { iop13xx_atue_disable(); iop13xx_atue_setup(); } if (init_atu & IOP13XX_INIT_ATU_ATUX) { iop13xx_atux_disable(); iop13xx_atux_setup(); } hook_fault_code(16+6, iop13xx_pci_abort, SIGBUS, 0, "imprecise external abort"); } /* initialize the pci memory space. handle any combination of * atue and atux enabled/disabled */ int iop13xx_pci_setup(int nr, struct pci_sys_data *sys) { struct resource *res; int which_atu; u32 pcixsr, pcsr; if (nr > 1) return 0; res = kzalloc(sizeof(struct resource), GFP_KERNEL); if (!res) panic("PCI: unable to alloc resources"); /* 'nr' assumptions: * ATUX is always 0 * ATUE is 1 when ATUX is also enabled * ATUE is 0 when ATUX is disabled */ switch(init_atu) { case IOP13XX_INIT_ATU_ATUX: which_atu = nr ? 0 : IOP13XX_INIT_ATU_ATUX; break; case IOP13XX_INIT_ATU_ATUE: which_atu = nr ? 0 : IOP13XX_INIT_ATU_ATUE; break; case (IOP13XX_INIT_ATU_ATUX | IOP13XX_INIT_ATU_ATUE): which_atu = nr ? IOP13XX_INIT_ATU_ATUE : IOP13XX_INIT_ATU_ATUX; break; default: which_atu = 0; } if (!which_atu) { kfree(res); return 0; } switch(which_atu) { case IOP13XX_INIT_ATU_ATUX: pcixsr = __raw_readl(IOP13XX_ATUX_PCIXSR); pcixsr &= ~0xffff; pcixsr |= sys->busnr << IOP13XX_ATUX_PCIXSR_BUS_NUM | 0 << IOP13XX_ATUX_PCIXSR_DEV_NUM | iop13xx_atu_function(IOP13XX_INIT_ATU_ATUX) << IOP13XX_ATUX_PCIXSR_FUNC_NUM; __raw_writel(pcixsr, IOP13XX_ATUX_PCIXSR); pci_ioremap_io(0, IOP13XX_PCIX_LOWER_IO_PA); res->start = IOP13XX_PCIX_LOWER_MEM_RA; res->end = IOP13XX_PCIX_UPPER_MEM_RA; res->name = "IQ81340 ATUX PCI Memory Space"; res->flags = IORESOURCE_MEM; sys->mem_offset = IOP13XX_PCIX_MEM_OFFSET; break; case IOP13XX_INIT_ATU_ATUE: /* Note: the function number field in the PCSR is ro */ pcsr = __raw_readl(IOP13XX_ATUE_PCSR); pcsr &= ~(0xfff8 << 16); pcsr |= sys->busnr << IOP13XX_ATUE_PCSR_BUS_NUM | 0 << IOP13XX_ATUE_PCSR_DEV_NUM; __raw_writel(pcsr, IOP13XX_ATUE_PCSR); pci_ioremap_io(SZ_64K, IOP13XX_PCIE_LOWER_IO_PA); res->start = IOP13XX_PCIE_LOWER_MEM_RA; res->end = IOP13XX_PCIE_UPPER_MEM_RA; res->name = "IQ81340 ATUE PCI Memory Space"; res->flags = IORESOURCE_MEM; sys->mem_offset = IOP13XX_PCIE_MEM_OFFSET; sys->map_irq = iop13xx_pcie_map_irq; break; default: kfree(res); return 0; } request_resource(&iomem_resource, res); pci_add_resource_offset(&sys->resources, res, sys->mem_offset); return 1; } u16 iop13xx_dev_id(void) { if (__raw_readl(IOP13XX_ESSR0) & IOP13XX_INTERFACE_SEL_PCIX) return __raw_readw(IOP13XX_ATUE_DID); else return __raw_readw(IOP13XX_ATUX_DID); } static int __init iop13xx_init_atu_setup(char *str) { init_atu = IOP13XX_INIT_ATU_NONE; if (str) { while (*str != '\0') { switch (*str) { case 'x': case 'X': init_atu |= IOP13XX_INIT_ATU_ATUX; init_atu &= ~IOP13XX_INIT_ATU_NONE; break; case 'e': case 'E': init_atu |= IOP13XX_INIT_ATU_ATUE; init_atu &= ~IOP13XX_INIT_ATU_NONE; break; case ',': case '=': break; default: PRINTK("\"iop13xx_init_atu\" malformed at " "character: \'%c\'", *str); *(str + 1) = '\0'; init_atu = IOP13XX_INIT_ATU_DEFAULT; } str++; } } return 1; } __setup("iop13xx_init_atu", iop13xx_init_atu_setup);