/* $OpenBSD: pci.c,v 1.23 2018/02/15 05:35:36 mlarkin Exp $ */ /* * Copyright (c) 2015 Mike Larkin * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include "vmd.h" #include "pci.h" #include "vmm.h" #include "atomicio.h" struct pci pci; extern char *__progname; /* PIC IRQs, assigned to devices in order */ const uint8_t pci_pic_irqs[PCI_MAX_PIC_IRQS] = {3, 5, 6, 7, 9, 10, 11, 12, 14, 15}; /* * pci_add_bar * * Adds a BAR for the PCI device 'id'. On access, 'barfn' will be * called, and passed 'cookie' as an identifier. * * BARs are fixed size, meaning all I/O BARs requested have the * same size and all MMIO BARs have the same size. * * Parameters: * id: PCI device to add the BAR to (local count, eg if id == 4, * this BAR is to be added to the VM's 5th PCI device) * type: type of the BAR to add (PCI_MAPREG_TYPE_xxx) * barfn: callback function invoked on BAR access * cookie: cookie passed to barfn on access * * Returns 0 if the BAR was added successfully, 1 otherwise. */ int pci_add_bar(uint8_t id, uint32_t type, void *barfn, void *cookie) { uint8_t bar_reg_idx, bar_ct; /* Check id */ if (id >= pci.pci_dev_ct) return (1); /* Can only add PCI_MAX_BARS BARs to any device */ bar_ct = pci.pci_devices[id].pd_bar_ct; if (bar_ct >= PCI_MAX_BARS) return (1); /* Compute BAR address and add */ bar_reg_idx = (PCI_MAPREG_START + (bar_ct * 4)) / 4; if (type == PCI_MAPREG_TYPE_MEM) { if (pci.pci_next_mmio_bar >= VMM_PCI_MMIO_BAR_END) return (1); pci.pci_devices[id].pd_cfg_space[bar_reg_idx] = PCI_MAPREG_MEM_ADDR(pci.pci_next_mmio_bar); pci.pci_next_mmio_bar += VMM_PCI_MMIO_BAR_SIZE; pci.pci_devices[id].pd_barfunc[bar_ct] = barfn; pci.pci_devices[id].pd_bar_cookie[bar_ct] = cookie; pci.pci_devices[id].pd_bartype[bar_ct] = PCI_BAR_TYPE_MMIO; pci.pci_devices[id].pd_barsize[bar_ct] = VMM_PCI_MMIO_BAR_SIZE; pci.pci_devices[id].pd_bar_ct++; } else if (type == PCI_MAPREG_TYPE_IO) { if (pci.pci_next_io_bar >= VMM_PCI_IO_BAR_END) return (1); pci.pci_devices[id].pd_cfg_space[bar_reg_idx] = PCI_MAPREG_IO_ADDR(pci.pci_next_io_bar) | PCI_MAPREG_TYPE_IO; pci.pci_next_io_bar += VMM_PCI_IO_BAR_SIZE; pci.pci_devices[id].pd_barfunc[bar_ct] = barfn; pci.pci_devices[id].pd_bar_cookie[bar_ct] = cookie; dprintf("%s: adding pci bar cookie for dev %d bar %d = %p", __progname, id, bar_ct, cookie); pci.pci_devices[id].pd_bartype[bar_ct] = PCI_BAR_TYPE_IO; pci.pci_devices[id].pd_barsize[bar_ct] = VMM_PCI_IO_BAR_SIZE; pci.pci_devices[id].pd_bar_ct++; } return (0); } int pci_set_bar_fn(uint8_t id, uint8_t bar_ct, void *barfn, void *cookie) { /* Check id */ if (id >= pci.pci_dev_ct) return (1); if (bar_ct >= PCI_MAX_BARS) return (1); pci.pci_devices[id].pd_barfunc[bar_ct] = barfn; pci.pci_devices[id].pd_bar_cookie[bar_ct] = cookie; return (0); } /* * pci_get_dev_irq * * Returns the IRQ for the specified PCI device * * Parameters: * id: PCI device id to return IRQ for * * Return values: * The IRQ for the device, or 0xff if no device IRQ assigned */ uint8_t pci_get_dev_irq(uint8_t id) { if (pci.pci_devices[id].pd_int) return pci.pci_devices[id].pd_irq; else return 0xFF; } /* * pci_add_device * * Adds a PCI device to the guest VM defined by the supplied parameters. * * Parameters: * id: the new PCI device ID (0 .. PCI_CONFIG_MAX_DEV) * vid: PCI VID of the new device * pid: PCI PID of the new device * class: PCI 'class' of the new device * subclass: PCI 'subclass' of the new device * subsys_vid: subsystem VID of the new device * subsys_id: subsystem ID of the new device * irq_needed: 1 if an IRQ should be assigned to this PCI device, 0 otherwise * csfunc: PCI config space callback function when the guest VM accesses * CS of this PCI device * * Return values: * 0: the PCI device was added successfully. The PCI device ID is in 'id'. * 1: the PCI device addition failed. */ int pci_add_device(uint8_t *id, uint16_t vid, uint16_t pid, uint8_t class, uint8_t subclass, uint16_t subsys_vid, uint16_t subsys_id, uint8_t irq_needed, pci_cs_fn_t csfunc) { /* Exceeded max devices? */ if (pci.pci_dev_ct >= PCI_CONFIG_MAX_DEV) return (1); /* Exceeded max IRQs? */ /* XXX we could share IRQs ... */ if (pci.pci_next_pic_irq >= PCI_MAX_PIC_IRQS && irq_needed) return (1); *id = pci.pci_dev_ct; pci.pci_devices[*id].pd_vid = vid; pci.pci_devices[*id].pd_did = pid; pci.pci_devices[*id].pd_class = class; pci.pci_devices[*id].pd_subclass = subclass; pci.pci_devices[*id].pd_subsys_vid = subsys_vid; pci.pci_devices[*id].pd_subsys_id = subsys_id; pci.pci_devices[*id].pd_csfunc = csfunc; if (irq_needed) { pci.pci_devices[*id].pd_irq = pci_pic_irqs[pci.pci_next_pic_irq]; pci.pci_devices[*id].pd_int = 1; pci.pci_next_pic_irq++; dprintf("assigned irq %d to pci dev %d", pci.pci_devices[*id].pd_irq, *id); } pci.pci_dev_ct ++; return (0); } /* * pci_init * * Initializes the PCI subsystem for the VM by adding a PCI host bridge * as the first PCI device. */ void pci_init(void) { uint8_t id; memset(&pci, 0, sizeof(pci)); pci.pci_next_mmio_bar = VMM_PCI_MMIO_BAR_BASE; pci.pci_next_io_bar = VMM_PCI_IO_BAR_BASE; if (pci_add_device(&id, PCI_VENDOR_OPENBSD, PCI_PRODUCT_OPENBSD_PCHB, PCI_CLASS_BRIDGE, PCI_SUBCLASS_BRIDGE_HOST, PCI_VENDOR_OPENBSD, 0, 0, NULL)) { log_warnx("%s: can't add PCI host bridge", __progname); return; } } void pci_handle_address_reg(struct vm_run_params *vrp) { union vm_exit *vei = vrp->vrp_exit; /* * vei_dir == VEI_DIR_OUT : out instruction * * The guest wrote to the address register. */ if (vei->vei.vei_dir == VEI_DIR_OUT) { get_input_data(vei, &pci.pci_addr_reg); } else { /* * vei_dir == VEI_DIR_IN : in instruction * * The guest read the address register */ set_return_data(vei, pci.pci_addr_reg); } } uint8_t pci_handle_io(struct vm_run_params *vrp) { int i, j, k, l; uint16_t reg, b_hi, b_lo; pci_iobar_fn_t fn; union vm_exit *vei = vrp->vrp_exit; uint8_t intr, dir; k = -1; l = -1; reg = vei->vei.vei_port; dir = vei->vei.vei_dir; intr = 0xFF; for (i = 0 ; i < pci.pci_dev_ct ; i++) { for (j = 0 ; j < pci.pci_devices[i].pd_bar_ct; j++) { b_lo = PCI_MAPREG_IO_ADDR(pci.pci_devices[i].pd_bar[j]); b_hi = b_lo + VMM_PCI_IO_BAR_SIZE; if (reg >= b_lo && reg < b_hi) { if (pci.pci_devices[i].pd_barfunc[j]) { k = j; l = i; } } } } if (k >= 0 && l >= 0) { fn = (pci_iobar_fn_t)pci.pci_devices[l].pd_barfunc[k]; if (fn(vei->vei.vei_dir, reg - PCI_MAPREG_IO_ADDR(pci.pci_devices[l].pd_bar[k]), &vei->vei.vei_data, &intr, pci.pci_devices[l].pd_bar_cookie[k], vei->vei.vei_size)) { log_warnx("%s: pci i/o access function failed", __progname); } } else { log_warnx("%s: no pci i/o function for reg 0x%llx", __progname, (uint64_t)reg); /* Reads from undefined ports return 0xFF */ if (dir == VEI_DIR_IN) set_return_data(vei, 0xFFFFFFFF); } if (intr != 0xFF) { intr = pci.pci_devices[l].pd_irq; } return (intr); } void pci_handle_data_reg(struct vm_run_params *vrp) { union vm_exit *vei = vrp->vrp_exit; uint8_t b, d, f, o, baridx, ofs, sz; int ret; pci_cs_fn_t csfunc; /* abort if the address register is wack */ if (!(pci.pci_addr_reg & PCI_MODE1_ENABLE)) { /* if read, return FFs */ if (vei->vei.vei_dir == VEI_DIR_IN) set_return_data(vei, 0xFFFFFFFF); log_warnx("invalid address register during pci read: " "0x%llx", (uint64_t)pci.pci_addr_reg); return; } /* I/Os to 0xCFC..0xCFF are permitted */ ofs = vei->vei.vei_port - 0xCFC; sz = vei->vei.vei_size; b = (pci.pci_addr_reg >> 16) & 0xff; d = (pci.pci_addr_reg >> 11) & 0x1f; f = (pci.pci_addr_reg >> 8) & 0x7; o = (pci.pci_addr_reg & 0xfc); csfunc = pci.pci_devices[d].pd_csfunc; if (csfunc != NULL) { ret = csfunc(vei->vei.vei_dir, (o / 4), &vei->vei.vei_data); if (ret) log_warnx("cfg space access function failed for " "pci device %d", d); return; } /* No config space function, fallback to default simple r/w impl. */ o += ofs; /* * vei_dir == VEI_DIR_OUT : out instruction * * The guest wrote to the config space location denoted by the current * value in the address register. */ if (vei->vei.vei_dir == VEI_DIR_OUT) { if ((o >= 0x10 && o <= 0x24) && vei->vei.vei_data == 0xffffffff) { /* * Compute BAR index: * o = 0x10 -> baridx = 0 * o = 0x14 -> baridx = 1 * o = 0x18 -> baridx = 2 * o = 0x1c -> baridx = 3 * o = 0x20 -> baridx = 4 * o = 0x24 -> baridx = 5 */ baridx = (o / 4) - 4; if (baridx < pci.pci_devices[d].pd_bar_ct) vei->vei.vei_data = 0xfffff000; else vei->vei.vei_data = 0; } /* IOBAR registers must have bit 0 set */ if (o >= 0x10 && o <= 0x24) { baridx = (o / 4) - 4; if (baridx < pci.pci_devices[d].pd_bar_ct && pci.pci_devices[d].pd_bartype[baridx] == PCI_BAR_TYPE_IO) vei->vei.vei_data |= 1; } /* * Discard writes to "option rom base address" as none of our * emulated devices have PCI option roms. Accept any other * writes and copy data to config space registers. */ if (o != PCI_EXROMADDR_0) get_input_data(vei, &pci.pci_devices[d].pd_cfg_space[o / 4]); } else { /* * vei_dir == VEI_DIR_IN : in instruction * * The guest read from the config space location determined by * the current value in the address register. */ if (d > pci.pci_dev_ct || b > 0 || f > 0) set_return_data(vei, 0xFFFFFFFF); else { switch (sz) { case 4: set_return_data(vei, pci.pci_devices[d].pd_cfg_space[o / 4]); break; case 2: if (ofs == 0) set_return_data(vei, pci.pci_devices[d].pd_cfg_space[o / 4]); else set_return_data(vei, pci.pci_devices[d].pd_cfg_space[o / 4] >> 16); break; case 1: set_return_data(vei, pci.pci_devices[d].pd_cfg_space[o / 4] >> (ofs * 8)); break; } } } } int pci_dump(int fd) { log_debug("%s: sending pci", __func__); if (atomicio(vwrite, fd, &pci, sizeof(pci)) != sizeof(pci)) { log_warnx("%s: error writing pci to fd", __func__); return (-1); } return (0); } int pci_restore(int fd) { log_debug("%s: receiving pci", __func__); if (atomicio(read, fd, &pci, sizeof(pci)) != sizeof(pci)) { log_warnx("%s: error reading pci from fd", __func__); return (-1); } return (0); }