/* * Copyright (c) 2017 Ondrej Hlavaty * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup drvusbxhci * @{ */ /** @file * @brief The host controller data bookkeeping. */ #include #include #include #include #include "debug.h" #include "hc.h" #include "rh.h" #include "hw_struct/trb.h" #include "commands.h" static const irq_cmd_t irq_commands[] = { { .cmd = CMD_PIO_READ_32, .dstarg = 1, .addr = NULL }, { .cmd = CMD_AND, .srcarg = 1, .dstarg = 2, .value = 0 }, { .cmd = CMD_PREDICATE, .srcarg = 2, .value = 2 }, { .cmd = CMD_PIO_WRITE_A_32, .srcarg = 1, .addr = NULL }, { .cmd = CMD_ACCEPT } }; /** * Default USB Speed ID mapping: Table 157 */ #define PSI_TO_BPS(psie, psim) (((uint64_t) psim) << (10 * psie)) #define PORT_SPEED(psie, psim) { \ .rx_bps = PSI_TO_BPS(psie, psim), \ .tx_bps = PSI_TO_BPS(psie, psim) \ } static const xhci_port_speed_t ps_default_full = PORT_SPEED(2, 12); static const xhci_port_speed_t ps_default_low = PORT_SPEED(1, 1500); static const xhci_port_speed_t ps_default_high = PORT_SPEED(2, 480); static const xhci_port_speed_t ps_default_super = PORT_SPEED(3, 5); /** * Walk the list of extended capabilities. */ static int hc_parse_ec(xhci_hc_t *hc) { unsigned psic, major; for (xhci_extcap_t *ec = hc->xecp; ec; ec = xhci_extcap_next(ec)) { xhci_dump_extcap(ec); switch (XHCI_REG_RD(ec, XHCI_EC_CAP_ID)) { case XHCI_EC_USB_LEGACY: assert(hc->legsup == NULL); hc->legsup = (xhci_legsup_t *) ec; break; case XHCI_EC_SUPPORTED_PROTOCOL: psic = XHCI_REG_RD(ec, XHCI_EC_SP_PSIC); major = XHCI_REG_RD(ec, XHCI_EC_SP_MAJOR); // "Implied" speed if (psic == 0) { /* * According to section 7.2.2.1.2, only USB 2.0 * and USB 3.0 can have psic == 0. So we * blindly assume the name == "USB " and minor * == 0. */ if (major == 2) { hc->speeds[1] = ps_default_full; hc->speeds[2] = ps_default_low; hc->speeds[3] = ps_default_high; } else if (major == 3) { hc->speeds[4] = ps_default_super; } else { return EINVAL; } usb_log_debug2("Implied speed of USB %u set up.", major); } else { for (unsigned i = 0; i < psic; i++) { xhci_psi_t *psi = xhci_extcap_psi(ec, i); unsigned sim = XHCI_REG_RD(psi, XHCI_PSI_PSIM); unsigned psiv = XHCI_REG_RD(psi, XHCI_PSI_PSIV); unsigned psie = XHCI_REG_RD(psi, XHCI_PSI_PSIE); unsigned psim = XHCI_REG_RD(psi, XHCI_PSI_PSIM); uint64_t bps = PSI_TO_BPS(psie, psim); if (sim == XHCI_PSI_PLT_SYMM || sim == XHCI_PSI_PLT_RX) hc->speeds[psiv].rx_bps = bps; if (sim == XHCI_PSI_PLT_SYMM || sim == XHCI_PSI_PLT_TX) { hc->speeds[psiv].tx_bps = bps; usb_log_debug2("Speed %u set up for bps %" PRIu64 " / %" PRIu64 ".", psiv, hc->speeds[psiv].rx_bps, hc->speeds[psiv].tx_bps); } } } } } return EOK; } int hc_init_mmio(xhci_hc_t *hc, const hw_res_list_parsed_t *hw_res) { int err; if (hw_res->mem_ranges.count != 1) { usb_log_error("Unexpected MMIO area, bailing out."); return EINVAL; } hc->mmio_range = hw_res->mem_ranges.ranges[0]; usb_log_debug("MMIO area at %p (size %zu), IRQ %d.\n", RNGABSPTR(hc->mmio_range), RNGSZ(hc->mmio_range), hw_res->irqs.irqs[0]); if (RNGSZ(hc->mmio_range) < sizeof(xhci_cap_regs_t)) return EOVERFLOW; void *base; if ((err = pio_enable_range(&hc->mmio_range, &base))) return err; hc->base = base; hc->cap_regs = (xhci_cap_regs_t *) base; hc->op_regs = (xhci_op_regs_t *) (base + XHCI_REG_RD(hc->cap_regs, XHCI_CAP_LENGTH)); hc->rt_regs = (xhci_rt_regs_t *) (base + XHCI_REG_RD(hc->cap_regs, XHCI_CAP_RTSOFF)); hc->db_arry = (xhci_doorbell_t *) (base + XHCI_REG_RD(hc->cap_regs, XHCI_CAP_DBOFF)); uintptr_t xec_offset = XHCI_REG_RD(hc->cap_regs, XHCI_CAP_XECP) * sizeof(xhci_dword_t); if (xec_offset > 0) hc->xecp = (xhci_extcap_t *) (base + xec_offset); usb_log_debug2("Initialized MMIO reg areas:"); usb_log_debug2("\tCapability regs: %p", hc->cap_regs); usb_log_debug2("\tOperational regs: %p", hc->op_regs); usb_log_debug2("\tRuntime regs: %p", hc->rt_regs); usb_log_debug2("\tDoorbell array base: %p", hc->db_arry); xhci_dump_cap_regs(hc->cap_regs); hc->ac64 = XHCI_REG_RD(hc->cap_regs, XHCI_CAP_AC64); hc->max_slots = XHCI_REG_RD(hc->cap_regs, XHCI_CAP_MAX_SLOTS); if ((err = hc_parse_ec(hc))) { pio_disable(hc->base, RNGSZ(hc->mmio_range)); return err; } return EOK; } int hc_init_memory(xhci_hc_t *hc) { int err; hc->dcbaa = malloc32((1 + hc->max_slots) * sizeof(xhci_device_ctx_t*)); if (!hc->dcbaa) return ENOMEM; if ((err = xhci_trb_ring_init(&hc->command_ring, hc))) goto err_dcbaa; if ((err = xhci_event_ring_init(&hc->event_ring, hc))) goto err_cmd_ring; if ((err = xhci_scratchpad_alloc(hc))) goto err_event_ring; return EOK; err_event_ring: xhci_event_ring_fini(&hc->event_ring); err_cmd_ring: xhci_trb_ring_fini(&hc->command_ring); err_dcbaa: free32(hc->dcbaa); return err; } /** * Generates code to accept interrupts. The xHCI is designed primarily for * MSI/MSI-X, but we use PCI Interrupt Pin. In this mode, all the Interrupters * (except 0) are disabled. */ int hc_irq_code_gen(irq_code_t *code, xhci_hc_t *hc, const hw_res_list_parsed_t *hw_res) { assert(code); assert(hw_res); if (hw_res->irqs.count != 1) { usb_log_info("Unexpected HW resources to enable interrupts."); return EINVAL; } code->ranges = malloc(sizeof(irq_pio_range_t)); if (code->ranges == NULL) return ENOMEM; code->cmds = malloc(sizeof(irq_commands)); if (code->cmds == NULL) { free(code->ranges); return ENOMEM; } code->rangecount = 1; code->ranges[0] = (irq_pio_range_t) { .base = RNGABS(hc->mmio_range), .size = RNGSZ(hc->mmio_range), }; code->cmdcount = ARRAY_SIZE(irq_commands); memcpy(code->cmds, irq_commands, sizeof(irq_commands)); void *intr0_iman = RNGABSPTR(hc->mmio_range) + XHCI_REG_RD(hc->cap_regs, XHCI_CAP_RTSOFF) + offsetof(xhci_rt_regs_t, ir[0]); code->cmds[0].addr = intr0_iman; code->cmds[3].addr = intr0_iman; code->cmds[1].value = host2xhci(32, 1); return hw_res->irqs.irqs[0]; } int hc_claim(xhci_hc_t *hc, ddf_dev_t *dev) { /* No legacy support capability, the controller is solely for us */ if (!hc->legsup) return EOK; /* * TODO: Implement handoff from BIOS, section 4.22.1 * QEMU does not support this, so we have to test on real HW. */ return ENOTSUP; } static int hc_reset(xhci_hc_t *hc) { /* Stop the HC: set R/S to 0 */ XHCI_REG_CLR(hc->op_regs, XHCI_OP_RS, 1); /* Wait 16 ms until the HC is halted */ async_usleep(16000); assert(XHCI_REG_RD(hc->op_regs, XHCI_OP_HCH)); /* Reset */ XHCI_REG_SET(hc->op_regs, XHCI_OP_HCRST, 1); /* Wait until the reset is complete */ while (XHCI_REG_RD(hc->op_regs, XHCI_OP_HCRST)) async_usleep(1000); return EOK; } /** * Initialize the HC: section 4.2 */ int hc_start(xhci_hc_t *hc, bool irq) { int err; if ((err = hc_reset(hc))) return err; while (XHCI_REG_RD(hc->op_regs, XHCI_OP_CNR)) async_usleep(1000); uint64_t dcbaaptr = addr_to_phys(hc->event_ring.erst); XHCI_REG_WR(hc->op_regs, XHCI_OP_DCBAAP_LO, LOWER32(dcbaaptr)); XHCI_REG_WR(hc->op_regs, XHCI_OP_DCBAAP_HI, UPPER32(dcbaaptr)); XHCI_REG_WR(hc->op_regs, XHCI_OP_MAX_SLOTS_EN, 0); uint64_t crptr = xhci_trb_ring_get_dequeue_ptr(&hc->command_ring); XHCI_REG_WR(hc->op_regs, XHCI_OP_CRCR_LO, LOWER32(crptr) >> 6); XHCI_REG_WR(hc->op_regs, XHCI_OP_CRCR_HI, UPPER32(crptr)); uint64_t erstptr = addr_to_phys(hc->event_ring.erst); xhci_interrupter_regs_t *intr0 = &hc->rt_regs->ir[0]; XHCI_REG_WR(intr0, XHCI_INTR_ERSTSZ, hc->event_ring.segment_count); XHCI_REG_WR(intr0, XHCI_INTR_ERDP_LO, LOWER32(erstptr)); XHCI_REG_WR(intr0, XHCI_INTR_ERDP_HI, UPPER32(erstptr)); XHCI_REG_WR(intr0, XHCI_INTR_ERSTBA_LO, LOWER32(erstptr)); XHCI_REG_WR(intr0, XHCI_INTR_ERSTBA_HI, UPPER32(erstptr)); // TODO: Setup scratchpad buffers if (irq) { XHCI_REG_SET(intr0, XHCI_INTR_IE, 1); XHCI_REG_SET(hc->op_regs, XHCI_OP_INTE, 1); } XHCI_REG_SET(hc->op_regs, XHCI_OP_RS, 1); return EOK; } int hc_status(xhci_hc_t *hc, uint32_t *status) { *status = XHCI_REG_RD(hc->op_regs, XHCI_OP_STATUS); XHCI_REG_WR(hc->op_regs, XHCI_OP_STATUS, *status & XHCI_STATUS_ACK_MASK); usb_log_debug2("HC(%p): Read status: %x", hc, *status); return EOK; } int hc_schedule(xhci_hc_t *hc, usb_transfer_batch_t *batch) { xhci_dump_state(hc); xhci_send_no_op_command(hc); async_usleep(1000); xhci_dump_state(hc); xhci_dump_trb(hc->event_ring.dequeue_trb); return EOK; } static void hc_handle_event(xhci_hc_t *hc, xhci_trb_t *trb) { usb_log_debug2("TRB event encountered."); switch (TRB_TYPE(*trb)) { case XHCI_TRB_TYPE_COMMAND_COMPLETION_EVENT: xhci_handle_command_completion(hc, trb); break; case XHCI_TRB_TYPE_PORT_STATUS_CHANGE_EVENT: xhci_handle_port_status_change_event(hc, trb); break; default: usb_log_debug2("Event type handling not implemented."); break; } } static void hc_run_event_ring(xhci_hc_t *hc, xhci_event_ring_t *event_ring, xhci_interrupter_regs_t *intr) { int err; xhci_trb_t trb; err = xhci_event_ring_dequeue(event_ring, &trb);; switch (err) { case EOK: usb_log_debug2("Dequeued from event ring."); xhci_dump_trb(&trb); hc_handle_event(hc, &trb); break; case ENOENT: usb_log_debug2("Event ring finished."); break; default: usb_log_warning("Error while accessing event ring: %s", str_error(err)); } /* Update the ERDP to make room in the ring */ uint64_t erstptr = addr_to_phys(hc->event_ring.erst); XHCI_REG_WR(intr, XHCI_INTR_ERDP_LO, LOWER32(erstptr)); XHCI_REG_WR(intr, XHCI_INTR_ERDP_HI, UPPER32(erstptr)); } void hc_interrupt(xhci_hc_t *hc, uint32_t status) { if (status & XHCI_REG_MASK(XHCI_OP_HSE)) { usb_log_error("Host controller error occured. Bad things gonna happen..."); } if (status & XHCI_REG_MASK(XHCI_OP_EINT)) { usb_log_debug2("Event interrupt."); xhci_interrupter_regs_t *intr0 = &hc->rt_regs->ir[0]; if (XHCI_REG_RD(intr0, XHCI_INTR_IP)) { XHCI_REG_SET(intr0, XHCI_INTR_IP, 1); hc_run_event_ring(hc, &hc->event_ring, intr0); } } if (status & XHCI_REG_MASK(XHCI_OP_PCD)) { usb_log_error("Port change detected. Not implemented yet!"); } if (status & XHCI_REG_MASK(XHCI_OP_SRE)) { usb_log_error("Save/Restore error occured. WTF, S/R mechanism not implemented!"); } } static void hc_dcbaa_fini(xhci_hc_t *hc) { xhci_scratchpad_free(hc); /* Idx 0 already deallocated by xhci_scratchpad_free. */ for (unsigned i = 1; i < hc->max_slots + 1; ++i) { if (hc->dcbaa[i] != NULL) { free32(hc->dcbaa[i]); hc->dcbaa[i] = NULL; } } free32(hc->dcbaa); } void hc_fini(xhci_hc_t *hc) { xhci_trb_ring_fini(&hc->command_ring); xhci_event_ring_fini(&hc->event_ring); hc_dcbaa_fini(hc); pio_disable(hc->base, RNGSZ(hc->mmio_range)); usb_log_info("HC(%p): Finalized.", hc); } /** * @} */