/* * Copyright (c) 2015 Wind River Systems, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file * @brief PCI legacy bridge device driver * * Module provides routines for utilizing the PCI legacy bridge, including * detection of the bridge and using the bridge to configure the routing between * PCI interrupt pins and IRQs. */ #include #include #include #include #include #define PCI_LEGACY_BRIDGE_REG (0xF0 / 4) /* RCBA offset in 32-bit words */ #define PCI_ADDR_IRQAGENT0 0x3140 #define PCI_ADDR_IRQAGENT1 0x3142 #define PCI_ADDR_IRQAGENT2 0x3144 #define PCI_ADDR_IRQAGENT3 0x3146 /** * * @brief Return the address mask for the specified root complex * * The routine checks for the memory present at the specified register * and fills in base address mask. * Routine should be called in single thread mode during the system * initialization. * * @param pci_ctrl_addr PCI device configuration register address * @param mask Pointer to the base address mask * * @return 0 if root complex is implemented, -1 if not. */ static int pci_rcba_mask_get(union pci_addr_reg pci_ctrl_addr, uint32_t *mask) { uint32_t old_value; /* save the current setting */ pci_read(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, sizeof(old_value), &old_value); /* write to the RCBA to see how large it is */ pci_write(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, sizeof(uint32_t), 0xffffffff); pci_read(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, sizeof(*mask), mask); /* put back the old configuration */ pci_write(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, sizeof(old_value), old_value); /* check if this RCBA is implemented */ if (*mask != 0xffffffff && *mask != 0) { /* clear the least address unrelated bit */ *mask &= ~0x01; return 0; } /* RCBA not supported */ return -1; } /** * * @brief Retrieves the device information for the PCI legacy bridge, if present * * @param dev_info device information structure that the routine fills in * * @return 0 if legacy bridge is detected and -1 otherwise */ int pci_legacy_bridge_detect(struct pci_dev_info *dev_info) { union pci_addr_reg pci_ctrl_addr; static union pci_dev pci_dev_header; uint32_t pci_data; /* temporary data to read */ uint32_t rcba; /* root complex base address */ uint32_t rcba_mask; /* bits set for RCBA */ /* initialise the PCI controller address register value */ pci_ctrl_addr.value = 0; pci_ctrl_addr.field.bus = CONFIG_PCI_LEGACY_BRIDGE_BUS; pci_ctrl_addr.field.device = CONFIG_PCI_LEGACY_BRIDGE_DEV; /* verify first if there is a valid device at this point */ pci_ctrl_addr.field.func = 0; pci_read(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, sizeof(pci_data), &pci_data); if (pci_data == 0xffffffff) { return -1; } /* get the PCI header from the device */ pci_header_get(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, &pci_dev_header); if (pci_dev_header.field.vendor_id != CONFIG_PCI_LEGACY_BRIDGE_VENDOR_ID || pci_dev_header.field.device_id != CONFIG_PCI_LEGACY_BRIDGE_DEVICE_ID) { return -1; } pci_ctrl_addr.field.reg = PCI_LEGACY_BRIDGE_REG; /* read RCBA PCI register */ pci_read(DEFAULT_PCI_CONTROLLER, pci_ctrl_addr, sizeof(rcba), &rcba); if (pci_rcba_mask_get(pci_ctrl_addr, &rcba_mask) != 0) { return -1; } dev_info->addr = rcba & rcba_mask; if (dev_info->addr != 0) { /* calculate the size of the root complex memory required */ dev_info->size = 1 << (find_lsb_set(rcba_mask) - 1); } dev_info->irq = -1; dev_info->bus = CONFIG_PCI_LEGACY_BRIDGE_BUS; dev_info->dev = CONFIG_PCI_LEGACY_BRIDGE_DEV; dev_info->function = 0; dev_info->mem_type = BAR_SPACE_MEM; dev_info->class_type = pci_dev_header.field.class; dev_info->bar = 0; dev_info->vendor_id = pci_dev_header.field.vendor_id; dev_info->device_id = pci_dev_header.field.device_id; return 0; } /** * * @brief Configures the route from INTx to IRQx on specified I/O block * * I/O block 0 includes devices connected to PCIe, I/O block 1 includes * UART, SPI, GPIO, I2C * * @param dev_info device information structure that the routine fills in * @param io_block_num number on I/O block * @param pci_interrupt_pin PCI interrupt pin * @param irq_number IRQ number that corresponds the PCI interrupt pin * * @return N/A */ void pci_legacy_bridge_configure(struct pci_dev_info *dev_info, int io_block_num, int pci_interrupt_pin, int irq_number) { uint32_t addr = (io_block_num == 0) ? PCI_ADDR_IRQAGENT1 : PCI_ADDR_IRQAGENT3; /* * Each interrupt queue agent register in PCI legacy * bridge has the following format: * Bits 15:12 indicates which IRQ is used for INTD. Valid numbers are * 0-7, which corresponds IRQ 16 - IRQ 23 * Bits 11:8 indicates which IRQ is used for INTC. * Bits 7:4 indicates which IRQ is used for INTB. * Bits 3:0 indicates which IRQ is used for INTA. */ int offset = (pci_interrupt_pin - 1) * 4; uint16_t irq_routing = sys_read16(dev_info->addr + addr); irq_routing &= ~(0x0f << offset); irq_routing |= (irq_number - NUM_STD_IRQS) << offset; sys_write16(irq_routing, dev_info->addr + addr); }