Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/usie/@/amd64/compile/hs32/modules/usr/src/sys/modules/i2c/controllers/alpm/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/umoscom/@/dev/usb/controller/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/usie/@/amd64/compile/hs32/modules/usr/src/sys/modules/i2c/controllers/alpm/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/umoscom/@/dev/usb/controller/uss820dci.c |
/* $FreeBSD: release/9.1.0/sys/dev/usb/controller/uss820dci.c 235000 2012-05-04 15:05:30Z hselasky $ */ /*- * Copyright (c) 2008 Hans Petter Selasky <hselasky@FreeBSD.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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. */ /* * This file contains the driver for the USS820 series USB Device * Controller * * NOTE: The datasheet does not document everything. */ #include <sys/stdint.h> #include <sys/stddef.h> #include <sys/param.h> #include <sys/queue.h> #include <sys/types.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/bus.h> #include <sys/module.h> #include <sys/lock.h> #include <sys/mutex.h> #include <sys/condvar.h> #include <sys/sysctl.h> #include <sys/sx.h> #include <sys/unistd.h> #include <sys/callout.h> #include <sys/malloc.h> #include <sys/priv.h> #include <dev/usb/usb.h> #include <dev/usb/usbdi.h> #define USB_DEBUG_VAR uss820dcidebug #include <dev/usb/usb_core.h> #include <dev/usb/usb_debug.h> #include <dev/usb/usb_busdma.h> #include <dev/usb/usb_process.h> #include <dev/usb/usb_transfer.h> #include <dev/usb/usb_device.h> #include <dev/usb/usb_hub.h> #include <dev/usb/usb_util.h> #include <dev/usb/usb_controller.h> #include <dev/usb/usb_bus.h> #include <dev/usb/controller/uss820dci.h> #define USS820_DCI_BUS2SC(bus) \ ((struct uss820dci_softc *)(((uint8_t *)(bus)) - \ ((uint8_t *)&(((struct uss820dci_softc *)0)->sc_bus)))) #define USS820_DCI_PC2SC(pc) \ USS820_DCI_BUS2SC(USB_DMATAG_TO_XROOT((pc)->tag_parent)->bus) #ifdef USB_DEBUG static int uss820dcidebug = 0; SYSCTL_NODE(_hw_usb, OID_AUTO, uss820dci, CTLFLAG_RW, 0, "USB uss820dci"); SYSCTL_INT(_hw_usb_uss820dci, OID_AUTO, debug, CTLFLAG_RW, &uss820dcidebug, 0, "uss820dci debug level"); #endif #define USS820_DCI_INTR_ENDPT 1 /* prototypes */ struct usb_bus_methods uss820dci_bus_methods; struct usb_pipe_methods uss820dci_device_bulk_methods; struct usb_pipe_methods uss820dci_device_ctrl_methods; struct usb_pipe_methods uss820dci_device_intr_methods; struct usb_pipe_methods uss820dci_device_isoc_fs_methods; static uss820dci_cmd_t uss820dci_setup_rx; static uss820dci_cmd_t uss820dci_data_rx; static uss820dci_cmd_t uss820dci_data_tx; static uss820dci_cmd_t uss820dci_data_tx_sync; static void uss820dci_device_done(struct usb_xfer *, usb_error_t); static void uss820dci_do_poll(struct usb_bus *); static void uss820dci_standard_done(struct usb_xfer *); static void uss820dci_intr_set(struct usb_xfer *, uint8_t); static void uss820dci_update_shared_1(struct uss820dci_softc *, uint8_t, uint8_t, uint8_t); static void uss820dci_root_intr(struct uss820dci_softc *); /* * Here is a list of what the USS820D chip can support. The main * limitation is that the sum of the buffer sizes must be less than * 1120 bytes. */ static const struct usb_hw_ep_profile uss820dci_ep_profile[] = { [0] = { .max_in_frame_size = 32, .max_out_frame_size = 32, .is_simplex = 0, .support_control = 1, }, [1] = { .max_in_frame_size = 64, .max_out_frame_size = 64, .is_simplex = 0, .support_multi_buffer = 1, .support_bulk = 1, .support_interrupt = 1, .support_in = 1, .support_out = 1, }, [2] = { .max_in_frame_size = 8, .max_out_frame_size = 8, .is_simplex = 0, .support_multi_buffer = 1, .support_bulk = 1, .support_interrupt = 1, .support_in = 1, .support_out = 1, }, [3] = { .max_in_frame_size = 256, .max_out_frame_size = 256, .is_simplex = 0, .support_multi_buffer = 1, .support_isochronous = 1, .support_in = 1, .support_out = 1, }, }; static void uss820dci_update_shared_1(struct uss820dci_softc *sc, uint8_t reg, uint8_t keep_mask, uint8_t set_mask) { uint8_t temp; USS820_WRITE_1(sc, USS820_PEND, 1); temp = USS820_READ_1(sc, reg); temp &= (keep_mask); temp |= (set_mask); USS820_WRITE_1(sc, reg, temp); USS820_WRITE_1(sc, USS820_PEND, 0); } static void uss820dci_get_hw_ep_profile(struct usb_device *udev, const struct usb_hw_ep_profile **ppf, uint8_t ep_addr) { if (ep_addr == 0) { *ppf = uss820dci_ep_profile + 0; } else if (ep_addr < 5) { *ppf = uss820dci_ep_profile + 1; } else if (ep_addr < 7) { *ppf = uss820dci_ep_profile + 2; } else if (ep_addr == 7) { *ppf = uss820dci_ep_profile + 3; } else { *ppf = NULL; } } static void uss820dci_pull_up(struct uss820dci_softc *sc) { uint8_t temp; /* pullup D+, if possible */ if (!sc->sc_flags.d_pulled_up && sc->sc_flags.port_powered) { sc->sc_flags.d_pulled_up = 1; DPRINTF("\n"); temp = USS820_READ_1(sc, USS820_MCSR); temp |= USS820_MCSR_DPEN; USS820_WRITE_1(sc, USS820_MCSR, temp); } } static void uss820dci_pull_down(struct uss820dci_softc *sc) { uint8_t temp; /* pulldown D+, if possible */ if (sc->sc_flags.d_pulled_up) { sc->sc_flags.d_pulled_up = 0; DPRINTF("\n"); temp = USS820_READ_1(sc, USS820_MCSR); temp &= ~USS820_MCSR_DPEN; USS820_WRITE_1(sc, USS820_MCSR, temp); } } static void uss820dci_wakeup_peer(struct uss820dci_softc *sc) { if (!(sc->sc_flags.status_suspend)) { return; } DPRINTFN(0, "not supported\n"); } static void uss820dci_set_address(struct uss820dci_softc *sc, uint8_t addr) { DPRINTFN(5, "addr=%d\n", addr); USS820_WRITE_1(sc, USS820_FADDR, addr); } static uint8_t uss820dci_setup_rx(struct uss820dci_td *td) { struct uss820dci_softc *sc; struct usb_device_request req; uint16_t count; uint8_t rx_stat; uint8_t temp; /* select the correct endpoint */ bus_space_write_1(td->io_tag, td->io_hdl, USS820_EPINDEX, td->ep_index); /* read out FIFO status */ rx_stat = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXSTAT); /* get pointer to softc */ sc = USS820_DCI_PC2SC(td->pc); DPRINTFN(5, "rx_stat=0x%02x rem=%u\n", rx_stat, td->remainder); if (!(rx_stat & USS820_RXSTAT_RXSETUP)) { goto not_complete; } /* clear did stall */ td->did_stall = 0; /* clear stall and all I/O */ uss820dci_update_shared_1(sc, USS820_EPCON, 0xFF ^ (USS820_EPCON_TXSTL | USS820_EPCON_RXSTL | USS820_EPCON_RXIE | USS820_EPCON_TXOE), 0); /* clear end overwrite flag */ uss820dci_update_shared_1(sc, USS820_RXSTAT, 0xFF ^ USS820_RXSTAT_EDOVW, 0); /* get the packet byte count */ count = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCNTL); count |= (bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCNTH) << 8); count &= 0x3FF; /* verify data length */ if (count != td->remainder) { DPRINTFN(0, "Invalid SETUP packet " "length, %d bytes\n", count); goto setup_not_complete; } if (count != sizeof(req)) { DPRINTFN(0, "Unsupported SETUP packet " "length, %d bytes\n", count); goto setup_not_complete; } /* receive data */ bus_space_read_multi_1(td->io_tag, td->io_hdl, USS820_RXDAT, (void *)&req, sizeof(req)); /* read out FIFO status */ rx_stat = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXSTAT); if (rx_stat & (USS820_RXSTAT_EDOVW | USS820_RXSTAT_STOVW)) { DPRINTF("new SETUP packet received\n"); return (1); /* not complete */ } /* clear receive setup bit */ uss820dci_update_shared_1(sc, USS820_RXSTAT, 0xFF ^ (USS820_RXSTAT_RXSETUP | USS820_RXSTAT_EDOVW | USS820_RXSTAT_STOVW), 0); /* set RXFFRC bit */ temp = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCON); temp |= USS820_RXCON_RXFFRC; bus_space_write_1(td->io_tag, td->io_hdl, USS820_RXCON, temp); /* copy data into real buffer */ usbd_copy_in(td->pc, 0, &req, sizeof(req)); td->offset = sizeof(req); td->remainder = 0; /* sneak peek the set address */ if ((req.bmRequestType == UT_WRITE_DEVICE) && (req.bRequest == UR_SET_ADDRESS)) { sc->sc_dv_addr = req.wValue[0] & 0x7F; } else { sc->sc_dv_addr = 0xFF; } /* reset TX FIFO */ temp = USS820_READ_1(sc, USS820_TXCON); temp |= USS820_TXCON_TXCLR; USS820_WRITE_1(sc, USS820_TXCON, temp); temp &= ~USS820_TXCON_TXCLR; USS820_WRITE_1(sc, USS820_TXCON, temp); return (0); /* complete */ setup_not_complete: /* set RXFFRC bit */ temp = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCON); temp |= USS820_RXCON_RXFFRC; bus_space_write_1(td->io_tag, td->io_hdl, USS820_RXCON, temp); /* FALLTHROUGH */ not_complete: /* abort any ongoing transfer */ if (!td->did_stall) { DPRINTFN(5, "stalling\n"); /* set stall */ uss820dci_update_shared_1(sc, USS820_EPCON, 0xFF, (USS820_EPCON_TXSTL | USS820_EPCON_RXSTL)); td->did_stall = 1; } /* clear end overwrite flag, if any */ if (rx_stat & USS820_RXSTAT_RXSETUP) { uss820dci_update_shared_1(sc, USS820_RXSTAT, 0xFF ^ (USS820_RXSTAT_EDOVW | USS820_RXSTAT_STOVW | USS820_RXSTAT_RXSETUP), 0); } return (1); /* not complete */ } static uint8_t uss820dci_data_rx(struct uss820dci_td *td) { struct usb_page_search buf_res; uint16_t count; uint8_t rx_flag; uint8_t rx_stat; uint8_t rx_cntl; uint8_t to; uint8_t got_short; to = 2; /* don't loop forever! */ got_short = 0; /* select the correct endpoint */ bus_space_write_1(td->io_tag, td->io_hdl, USS820_EPINDEX, td->ep_index); /* check if any of the FIFO banks have data */ repeat: /* read out FIFO flag */ rx_flag = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXFLG); /* read out FIFO status */ rx_stat = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXSTAT); DPRINTFN(5, "rx_stat=0x%02x rx_flag=0x%02x rem=%u\n", rx_stat, rx_flag, td->remainder); if (rx_stat & (USS820_RXSTAT_RXSETUP | USS820_RXSTAT_RXSOVW | USS820_RXSTAT_EDOVW)) { if (td->remainder == 0) { /* * We are actually complete and have * received the next SETUP */ DPRINTFN(5, "faking complete\n"); return (0); /* complete */ } /* * USB Host Aborted the transfer. */ td->error = 1; return (0); /* complete */ } /* check for errors */ if (rx_flag & (USS820_RXFLG_RXOVF | USS820_RXFLG_RXURF)) { DPRINTFN(5, "overflow or underflow\n"); /* should not happen */ td->error = 1; return (0); /* complete */ } /* check status */ if (!(rx_flag & (USS820_RXFLG_RXFIF0 | USS820_RXFLG_RXFIF1))) { /* read out EPCON register */ /* enable RX input */ if (!td->did_enable) { uss820dci_update_shared_1(USS820_DCI_PC2SC(td->pc), USS820_EPCON, 0xFF, USS820_EPCON_RXIE); td->did_enable = 1; } return (1); /* not complete */ } /* get the packet byte count */ count = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCNTL); count |= (bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCNTH) << 8); count &= 0x3FF; DPRINTFN(5, "count=0x%04x\n", count); /* verify the packet byte count */ if (count != td->max_packet_size) { if (count < td->max_packet_size) { /* we have a short packet */ td->short_pkt = 1; got_short = 1; } else { /* invalid USB packet */ td->error = 1; return (0); /* we are complete */ } } /* verify the packet byte count */ if (count > td->remainder) { /* invalid USB packet */ td->error = 1; return (0); /* we are complete */ } while (count > 0) { usbd_get_page(td->pc, td->offset, &buf_res); /* get correct length */ if (buf_res.length > count) { buf_res.length = count; } /* receive data */ bus_space_read_multi_1(td->io_tag, td->io_hdl, USS820_RXDAT, buf_res.buffer, buf_res.length); /* update counters */ count -= buf_res.length; td->offset += buf_res.length; td->remainder -= buf_res.length; } /* set RXFFRC bit */ rx_cntl = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXCON); rx_cntl |= USS820_RXCON_RXFFRC; bus_space_write_1(td->io_tag, td->io_hdl, USS820_RXCON, rx_cntl); /* check if we are complete */ if ((td->remainder == 0) || got_short) { if (td->short_pkt) { /* we are complete */ return (0); } /* else need to receive a zero length packet */ } if (--to) { goto repeat; } return (1); /* not complete */ } static uint8_t uss820dci_data_tx(struct uss820dci_td *td) { struct usb_page_search buf_res; uint16_t count; uint16_t count_copy; uint8_t rx_stat; uint8_t tx_flag; uint8_t to; /* select the correct endpoint */ bus_space_write_1(td->io_tag, td->io_hdl, USS820_EPINDEX, td->ep_index); to = 2; /* don't loop forever! */ repeat: /* read out TX FIFO flags */ tx_flag = bus_space_read_1(td->io_tag, td->io_hdl, USS820_TXFLG); /* read out RX FIFO status last */ rx_stat = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXSTAT); DPRINTFN(5, "rx_stat=0x%02x tx_flag=0x%02x rem=%u\n", rx_stat, tx_flag, td->remainder); if (rx_stat & (USS820_RXSTAT_RXSETUP | USS820_RXSTAT_RXSOVW | USS820_RXSTAT_EDOVW)) { /* * The current transfer was aborted * by the USB Host */ td->error = 1; return (0); /* complete */ } if (tx_flag & (USS820_TXFLG_TXOVF | USS820_TXFLG_TXURF)) { td->error = 1; return (0); /* complete */ } if (tx_flag & USS820_TXFLG_TXFIF0) { if (tx_flag & USS820_TXFLG_TXFIF1) { return (1); /* not complete */ } } if ((!td->support_multi_buffer) && (tx_flag & (USS820_TXFLG_TXFIF0 | USS820_TXFLG_TXFIF1))) { return (1); /* not complete */ } count = td->max_packet_size; if (td->remainder < count) { /* we have a short packet */ td->short_pkt = 1; count = td->remainder; } count_copy = count; while (count > 0) { usbd_get_page(td->pc, td->offset, &buf_res); /* get correct length */ if (buf_res.length > count) { buf_res.length = count; } /* transmit data */ bus_space_write_multi_1(td->io_tag, td->io_hdl, USS820_TXDAT, buf_res.buffer, buf_res.length); /* update counters */ count -= buf_res.length; td->offset += buf_res.length; td->remainder -= buf_res.length; } /* post-write high packet byte count first */ bus_space_write_1(td->io_tag, td->io_hdl, USS820_TXCNTH, count_copy >> 8); /* post-write low packet byte count last */ bus_space_write_1(td->io_tag, td->io_hdl, USS820_TXCNTL, count_copy); /* * Enable TX output, which must happen after that we have written * data into the FIFO. This is undocumented. */ if (!td->did_enable) { uss820dci_update_shared_1(USS820_DCI_PC2SC(td->pc), USS820_EPCON, 0xFF, USS820_EPCON_TXOE); td->did_enable = 1; } /* check remainder */ if (td->remainder == 0) { if (td->short_pkt) { return (0); /* complete */ } /* else we need to transmit a short packet */ } if (--to) { goto repeat; } return (1); /* not complete */ } static uint8_t uss820dci_data_tx_sync(struct uss820dci_td *td) { struct uss820dci_softc *sc; uint8_t rx_stat; uint8_t tx_flag; /* select the correct endpoint */ bus_space_write_1(td->io_tag, td->io_hdl, USS820_EPINDEX, td->ep_index); /* read out TX FIFO flag */ tx_flag = bus_space_read_1(td->io_tag, td->io_hdl, USS820_TXFLG); /* read out RX FIFO status last */ rx_stat = bus_space_read_1(td->io_tag, td->io_hdl, USS820_RXSTAT); DPRINTFN(5, "rx_stat=0x%02x rem=%u\n", rx_stat, td->remainder); if (rx_stat & (USS820_RXSTAT_RXSETUP | USS820_RXSTAT_RXSOVW | USS820_RXSTAT_EDOVW)) { DPRINTFN(5, "faking complete\n"); /* Race condition */ return (0); /* complete */ } DPRINTFN(5, "tx_flag=0x%02x rem=%u\n", tx_flag, td->remainder); if (tx_flag & (USS820_TXFLG_TXOVF | USS820_TXFLG_TXURF)) { td->error = 1; return (0); /* complete */ } if (tx_flag & (USS820_TXFLG_TXFIF0 | USS820_TXFLG_TXFIF1)) { return (1); /* not complete */ } sc = USS820_DCI_PC2SC(td->pc); if (sc->sc_dv_addr != 0xFF) { /* write function address */ uss820dci_set_address(sc, sc->sc_dv_addr); } return (0); /* complete */ } static uint8_t uss820dci_xfer_do_fifo(struct usb_xfer *xfer) { struct uss820dci_td *td; DPRINTFN(9, "\n"); td = xfer->td_transfer_cache; while (1) { if ((td->func) (td)) { /* operation in progress */ break; } if (((void *)td) == xfer->td_transfer_last) { goto done; } if (td->error) { goto done; } else if (td->remainder > 0) { /* * We had a short transfer. If there is no alternate * next, stop processing ! */ if (!td->alt_next) { goto done; } } /* * Fetch the next transfer descriptor. */ td = td->obj_next; xfer->td_transfer_cache = td; } return (1); /* not complete */ done: /* compute all actual lengths */ uss820dci_standard_done(xfer); return (0); /* complete */ } static void uss820dci_interrupt_poll(struct uss820dci_softc *sc) { struct usb_xfer *xfer; repeat: TAILQ_FOREACH(xfer, &sc->sc_bus.intr_q.head, wait_entry) { if (!uss820dci_xfer_do_fifo(xfer)) { /* queue has been modified */ goto repeat; } } } static void uss820dci_wait_suspend(struct uss820dci_softc *sc, uint8_t on) { uint8_t scr; uint8_t scratch; scr = USS820_READ_1(sc, USS820_SCR); scratch = USS820_READ_1(sc, USS820_SCRATCH); if (on) { scr |= USS820_SCR_IE_SUSP; scratch &= ~USS820_SCRATCH_IE_RESUME; } else { scr &= ~USS820_SCR_IE_SUSP; scratch |= USS820_SCRATCH_IE_RESUME; } USS820_WRITE_1(sc, USS820_SCR, scr); USS820_WRITE_1(sc, USS820_SCRATCH, scratch); } void uss820dci_interrupt(struct uss820dci_softc *sc) { uint8_t ssr; uint8_t event; USB_BUS_LOCK(&sc->sc_bus); ssr = USS820_READ_1(sc, USS820_SSR); ssr &= (USS820_SSR_SUSPEND | USS820_SSR_RESUME | USS820_SSR_RESET); /* acknowledge all interrupts */ uss820dci_update_shared_1(sc, USS820_SSR, 0, 0); /* check for any bus state change interrupts */ if (ssr) { event = 0; if (ssr & USS820_SSR_RESET) { sc->sc_flags.status_bus_reset = 1; sc->sc_flags.status_suspend = 0; sc->sc_flags.change_suspend = 0; sc->sc_flags.change_connect = 1; /* disable resume interrupt */ uss820dci_wait_suspend(sc, 1); event = 1; } /* * If "RESUME" and "SUSPEND" is set at the same time * we interpret that like "RESUME". Resume is set when * there is at least 3 milliseconds of inactivity on * the USB BUS. */ if (ssr & USS820_SSR_RESUME) { if (sc->sc_flags.status_suspend) { sc->sc_flags.status_suspend = 0; sc->sc_flags.change_suspend = 1; /* disable resume interrupt */ uss820dci_wait_suspend(sc, 1); event = 1; } } else if (ssr & USS820_SSR_SUSPEND) { if (!sc->sc_flags.status_suspend) { sc->sc_flags.status_suspend = 1; sc->sc_flags.change_suspend = 1; /* enable resume interrupt */ uss820dci_wait_suspend(sc, 0); event = 1; } } if (event) { DPRINTF("real bus interrupt 0x%02x\n", ssr); /* complete root HUB interrupt endpoint */ uss820dci_root_intr(sc); } } /* acknowledge all SBI interrupts */ uss820dci_update_shared_1(sc, USS820_SBI, 0, 0); /* acknowledge all SBI1 interrupts */ uss820dci_update_shared_1(sc, USS820_SBI1, 0, 0); /* poll all active transfers */ uss820dci_interrupt_poll(sc); USB_BUS_UNLOCK(&sc->sc_bus); } static void uss820dci_setup_standard_chain_sub(struct uss820_std_temp *temp) { struct uss820dci_td *td; /* get current Transfer Descriptor */ td = temp->td_next; temp->td = td; /* prepare for next TD */ temp->td_next = td->obj_next; /* fill out the Transfer Descriptor */ td->func = temp->func; td->pc = temp->pc; td->offset = temp->offset; td->remainder = temp->len; td->error = 0; td->did_enable = 0; td->did_stall = temp->did_stall; td->short_pkt = temp->short_pkt; td->alt_next = temp->setup_alt_next; } static void uss820dci_setup_standard_chain(struct usb_xfer *xfer) { struct uss820_std_temp temp; struct uss820dci_softc *sc; struct uss820dci_td *td; uint32_t x; uint8_t ep_no; DPRINTFN(9, "addr=%d endpt=%d sumlen=%d speed=%d\n", xfer->address, UE_GET_ADDR(xfer->endpointno), xfer->sumlen, usbd_get_speed(xfer->xroot->udev)); temp.max_frame_size = xfer->max_frame_size; td = xfer->td_start[0]; xfer->td_transfer_first = td; xfer->td_transfer_cache = td; /* setup temp */ temp.pc = NULL; temp.td = NULL; temp.td_next = xfer->td_start[0]; temp.offset = 0; temp.setup_alt_next = xfer->flags_int.short_frames_ok; temp.did_stall = !xfer->flags_int.control_stall; sc = USS820_DCI_BUS2SC(xfer->xroot->bus); ep_no = (xfer->endpointno & UE_ADDR); /* check if we should prepend a setup message */ if (xfer->flags_int.control_xfr) { if (xfer->flags_int.control_hdr) { temp.func = &uss820dci_setup_rx; temp.len = xfer->frlengths[0]; temp.pc = xfer->frbuffers + 0; temp.short_pkt = temp.len ? 1 : 0; /* check for last frame */ if (xfer->nframes == 1) { /* no STATUS stage yet, SETUP is last */ if (xfer->flags_int.control_act) temp.setup_alt_next = 0; } uss820dci_setup_standard_chain_sub(&temp); } x = 1; } else { x = 0; } if (x != xfer->nframes) { if (xfer->endpointno & UE_DIR_IN) { temp.func = &uss820dci_data_tx; } else { temp.func = &uss820dci_data_rx; } /* setup "pc" pointer */ temp.pc = xfer->frbuffers + x; } while (x != xfer->nframes) { /* DATA0 / DATA1 message */ temp.len = xfer->frlengths[x]; x++; if (x == xfer->nframes) { if (xfer->flags_int.control_xfr) { if (xfer->flags_int.control_act) { temp.setup_alt_next = 0; } } else { temp.setup_alt_next = 0; } } if (temp.len == 0) { /* make sure that we send an USB packet */ temp.short_pkt = 0; } else { /* regular data transfer */ temp.short_pkt = (xfer->flags.force_short_xfer) ? 0 : 1; } uss820dci_setup_standard_chain_sub(&temp); if (xfer->flags_int.isochronous_xfr) { temp.offset += temp.len; } else { /* get next Page Cache pointer */ temp.pc = xfer->frbuffers + x; } } /* check for control transfer */ if (xfer->flags_int.control_xfr) { uint8_t need_sync; /* always setup a valid "pc" pointer for status and sync */ temp.pc = xfer->frbuffers + 0; temp.len = 0; temp.short_pkt = 0; temp.setup_alt_next = 0; /* check if we should append a status stage */ if (!xfer->flags_int.control_act) { /* * Send a DATA1 message and invert the current * endpoint direction. */ if (xfer->endpointno & UE_DIR_IN) { temp.func = &uss820dci_data_rx; need_sync = 0; } else { temp.func = &uss820dci_data_tx; need_sync = 1; } temp.len = 0; temp.short_pkt = 0; uss820dci_setup_standard_chain_sub(&temp); if (need_sync) { /* we need a SYNC point after TX */ temp.func = &uss820dci_data_tx_sync; uss820dci_setup_standard_chain_sub(&temp); } } } /* must have at least one frame! */ td = temp.td; xfer->td_transfer_last = td; } static void uss820dci_timeout(void *arg) { struct usb_xfer *xfer = arg; DPRINTF("xfer=%p\n", xfer); USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); /* transfer is transferred */ uss820dci_device_done(xfer, USB_ERR_TIMEOUT); } static void uss820dci_intr_set(struct usb_xfer *xfer, uint8_t set) { struct uss820dci_softc *sc = USS820_DCI_BUS2SC(xfer->xroot->bus); uint8_t ep_no = (xfer->endpointno & UE_ADDR); uint8_t ep_reg; uint8_t temp; DPRINTFN(15, "endpoint 0x%02x\n", xfer->endpointno); if (ep_no > 3) { ep_reg = USS820_SBIE1; } else { ep_reg = USS820_SBIE; } ep_no &= 3; ep_no = 1 << (2 * ep_no); if (xfer->flags_int.control_xfr) { if (xfer->flags_int.control_hdr) { ep_no <<= 1; /* RX interrupt only */ } else { ep_no |= (ep_no << 1); /* RX and TX interrupt */ } } else { if (!(xfer->endpointno & UE_DIR_IN)) { ep_no <<= 1; } } temp = USS820_READ_1(sc, ep_reg); if (set) { temp |= ep_no; } else { temp &= ~ep_no; } USS820_WRITE_1(sc, ep_reg, temp); } static void uss820dci_start_standard_chain(struct usb_xfer *xfer) { DPRINTFN(9, "\n"); /* poll one time */ if (uss820dci_xfer_do_fifo(xfer)) { /* * Only enable the endpoint interrupt when we are * actually waiting for data, hence we are dealing * with level triggered interrupts ! */ uss820dci_intr_set(xfer, 1); /* put transfer on interrupt queue */ usbd_transfer_enqueue(&xfer->xroot->bus->intr_q, xfer); /* start timeout, if any */ if (xfer->timeout != 0) { usbd_transfer_timeout_ms(xfer, &uss820dci_timeout, xfer->timeout); } } } static void uss820dci_root_intr(struct uss820dci_softc *sc) { DPRINTFN(9, "\n"); USB_BUS_LOCK_ASSERT(&sc->sc_bus, MA_OWNED); /* set port bit */ sc->sc_hub_idata[0] = 0x02; /* we only have one port */ uhub_root_intr(&sc->sc_bus, sc->sc_hub_idata, sizeof(sc->sc_hub_idata)); } static usb_error_t uss820dci_standard_done_sub(struct usb_xfer *xfer) { struct uss820dci_td *td; uint32_t len; uint8_t error; DPRINTFN(9, "\n"); td = xfer->td_transfer_cache; do { len = td->remainder; if (xfer->aframes != xfer->nframes) { /* * Verify the length and subtract * the remainder from "frlengths[]": */ if (len > xfer->frlengths[xfer->aframes]) { td->error = 1; } else { xfer->frlengths[xfer->aframes] -= len; } } /* Check for transfer error */ if (td->error) { /* the transfer is finished */ error = 1; td = NULL; break; } /* Check for short transfer */ if (len > 0) { if (xfer->flags_int.short_frames_ok) { /* follow alt next */ if (td->alt_next) { td = td->obj_next; } else { td = NULL; } } else { /* the transfer is finished */ td = NULL; } error = 0; break; } td = td->obj_next; /* this USB frame is complete */ error = 0; break; } while (0); /* update transfer cache */ xfer->td_transfer_cache = td; return (error ? USB_ERR_STALLED : USB_ERR_NORMAL_COMPLETION); } static void uss820dci_standard_done(struct usb_xfer *xfer) { usb_error_t err = 0; DPRINTFN(13, "xfer=%p endpoint=%p transfer done\n", xfer, xfer->endpoint); /* reset scanner */ xfer->td_transfer_cache = xfer->td_transfer_first; if (xfer->flags_int.control_xfr) { if (xfer->flags_int.control_hdr) { err = uss820dci_standard_done_sub(xfer); } xfer->aframes = 1; if (xfer->td_transfer_cache == NULL) { goto done; } } while (xfer->aframes != xfer->nframes) { err = uss820dci_standard_done_sub(xfer); xfer->aframes++; if (xfer->td_transfer_cache == NULL) { goto done; } } if (xfer->flags_int.control_xfr && !xfer->flags_int.control_act) { err = uss820dci_standard_done_sub(xfer); } done: uss820dci_device_done(xfer, err); } /*------------------------------------------------------------------------* * uss820dci_device_done * * NOTE: this function can be called more than one time on the * same USB transfer! *------------------------------------------------------------------------*/ static void uss820dci_device_done(struct usb_xfer *xfer, usb_error_t error) { USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); DPRINTFN(2, "xfer=%p, endpoint=%p, error=%d\n", xfer, xfer->endpoint, error); if (xfer->flags_int.usb_mode == USB_MODE_DEVICE) { uss820dci_intr_set(xfer, 0); } /* dequeue transfer and start next transfer */ usbd_transfer_done(xfer, error); } static void uss820dci_set_stall(struct usb_device *udev, struct usb_xfer *xfer, struct usb_endpoint *ep, uint8_t *did_stall) { struct uss820dci_softc *sc; uint8_t ep_no; uint8_t ep_type; uint8_t ep_dir; uint8_t temp; USB_BUS_LOCK_ASSERT(udev->bus, MA_OWNED); DPRINTFN(5, "endpoint=%p\n", ep); if (xfer) { /* cancel any ongoing transfers */ uss820dci_device_done(xfer, USB_ERR_STALLED); } /* set FORCESTALL */ sc = USS820_DCI_BUS2SC(udev->bus); ep_no = (ep->edesc->bEndpointAddress & UE_ADDR); ep_dir = (ep->edesc->bEndpointAddress & (UE_DIR_IN | UE_DIR_OUT)); ep_type = (ep->edesc->bmAttributes & UE_XFERTYPE); if (ep_type == UE_CONTROL) { /* should not happen */ return; } USS820_WRITE_1(sc, USS820_EPINDEX, ep_no); if (ep_dir == UE_DIR_IN) { temp = USS820_EPCON_TXSTL; } else { temp = USS820_EPCON_RXSTL; } uss820dci_update_shared_1(sc, USS820_EPCON, 0xFF, temp); } static void uss820dci_clear_stall_sub(struct uss820dci_softc *sc, uint8_t ep_no, uint8_t ep_type, uint8_t ep_dir) { uint8_t temp; if (ep_type == UE_CONTROL) { /* clearing stall is not needed */ return; } /* select endpoint index */ USS820_WRITE_1(sc, USS820_EPINDEX, ep_no); /* clear stall and disable I/O transfers */ if (ep_dir == UE_DIR_IN) { temp = 0xFF ^ (USS820_EPCON_TXOE | USS820_EPCON_TXSTL); } else { temp = 0xFF ^ (USS820_EPCON_RXIE | USS820_EPCON_RXSTL); } uss820dci_update_shared_1(sc, USS820_EPCON, temp, 0); if (ep_dir == UE_DIR_IN) { /* reset data toggle */ USS820_WRITE_1(sc, USS820_TXSTAT, USS820_TXSTAT_TXSOVW); /* reset FIFO */ temp = USS820_READ_1(sc, USS820_TXCON); temp |= USS820_TXCON_TXCLR; USS820_WRITE_1(sc, USS820_TXCON, temp); temp &= ~USS820_TXCON_TXCLR; USS820_WRITE_1(sc, USS820_TXCON, temp); } else { /* reset data toggle */ uss820dci_update_shared_1(sc, USS820_RXSTAT, 0, USS820_RXSTAT_RXSOVW); /* reset FIFO */ temp = USS820_READ_1(sc, USS820_RXCON); temp |= USS820_RXCON_RXCLR; temp &= ~USS820_RXCON_RXFFRC; USS820_WRITE_1(sc, USS820_RXCON, temp); temp &= ~USS820_RXCON_RXCLR; USS820_WRITE_1(sc, USS820_RXCON, temp); } } static void uss820dci_clear_stall(struct usb_device *udev, struct usb_endpoint *ep) { struct uss820dci_softc *sc; struct usb_endpoint_descriptor *ed; USB_BUS_LOCK_ASSERT(udev->bus, MA_OWNED); DPRINTFN(5, "endpoint=%p\n", ep); /* check mode */ if (udev->flags.usb_mode != USB_MODE_DEVICE) { /* not supported */ return; } /* get softc */ sc = USS820_DCI_BUS2SC(udev->bus); /* get endpoint descriptor */ ed = ep->edesc; /* reset endpoint */ uss820dci_clear_stall_sub(sc, (ed->bEndpointAddress & UE_ADDR), (ed->bmAttributes & UE_XFERTYPE), (ed->bEndpointAddress & (UE_DIR_IN | UE_DIR_OUT))); } usb_error_t uss820dci_init(struct uss820dci_softc *sc) { const struct usb_hw_ep_profile *pf; uint8_t n; uint8_t temp; DPRINTF("start\n"); /* set up the bus structure */ sc->sc_bus.usbrev = USB_REV_1_1; sc->sc_bus.methods = &uss820dci_bus_methods; USB_BUS_LOCK(&sc->sc_bus); /* we always have VBUS */ sc->sc_flags.status_vbus = 1; /* reset the chip */ USS820_WRITE_1(sc, USS820_SCR, USS820_SCR_SRESET); DELAY(100); USS820_WRITE_1(sc, USS820_SCR, 0); /* wait for reset to complete */ for (n = 0;; n++) { temp = USS820_READ_1(sc, USS820_MCSR); if (temp & USS820_MCSR_INIT) { break; } if (n == 100) { USB_BUS_UNLOCK(&sc->sc_bus); return (USB_ERR_INVAL); } /* wait a little for things to stabilise */ DELAY(100); } /* do a pulldown */ uss820dci_pull_down(sc); /* wait 10ms for pulldown to stabilise */ usb_pause_mtx(&sc->sc_bus.bus_mtx, hz / 100); /* check hardware revision */ temp = USS820_READ_1(sc, USS820_REV); if (temp < 0x13) { USB_BUS_UNLOCK(&sc->sc_bus); return (USB_ERR_INVAL); } /* enable interrupts */ USS820_WRITE_1(sc, USS820_SCR, USS820_SCR_T_IRQ | USS820_SCR_IE_RESET | /* USS820_SCR_RWUPE | */ USS820_SCR_IE_SUSP | USS820_SCR_IRQPOL); /* enable interrupts */ USS820_WRITE_1(sc, USS820_SCRATCH, USS820_SCRATCH_IE_RESUME); /* enable features */ USS820_WRITE_1(sc, USS820_MCSR, USS820_MCSR_BDFEAT | USS820_MCSR_FEAT); sc->sc_flags.mcsr_feat = 1; /* disable interrupts */ USS820_WRITE_1(sc, USS820_SBIE, 0); /* disable interrupts */ USS820_WRITE_1(sc, USS820_SBIE1, 0); /* disable all endpoints */ for (n = 0; n != USS820_EP_MAX; n++) { /* select endpoint */ USS820_WRITE_1(sc, USS820_EPINDEX, n); /* disable endpoint */ uss820dci_update_shared_1(sc, USS820_EPCON, 0, 0); } /* * Initialise default values for some registers that cannot be * changed during operation! */ for (n = 0; n != USS820_EP_MAX; n++) { uss820dci_get_hw_ep_profile(NULL, &pf, n); /* the maximum frame sizes should be the same */ if (pf->max_in_frame_size != pf->max_out_frame_size) { DPRINTF("Max frame size mismatch %u != %u\n", pf->max_in_frame_size, pf->max_out_frame_size); } if (pf->support_isochronous) { if (pf->max_in_frame_size <= 64) { temp = (USS820_TXCON_FFSZ_16_64 | USS820_TXCON_TXISO | USS820_TXCON_ATM); } else if (pf->max_in_frame_size <= 256) { temp = (USS820_TXCON_FFSZ_64_256 | USS820_TXCON_TXISO | USS820_TXCON_ATM); } else if (pf->max_in_frame_size <= 512) { temp = (USS820_TXCON_FFSZ_8_512 | USS820_TXCON_TXISO | USS820_TXCON_ATM); } else { /* 1024 bytes */ temp = (USS820_TXCON_FFSZ_32_1024 | USS820_TXCON_TXISO | USS820_TXCON_ATM); } } else { if ((pf->max_in_frame_size <= 8) && (sc->sc_flags.mcsr_feat)) { temp = (USS820_TXCON_FFSZ_8_512 | USS820_TXCON_ATM); } else if (pf->max_in_frame_size <= 16) { temp = (USS820_TXCON_FFSZ_16_64 | USS820_TXCON_ATM); } else if ((pf->max_in_frame_size <= 32) && (sc->sc_flags.mcsr_feat)) { temp = (USS820_TXCON_FFSZ_32_1024 | USS820_TXCON_ATM); } else { /* 64 bytes */ temp = (USS820_TXCON_FFSZ_64_256 | USS820_TXCON_ATM); } } /* need to configure the chip early */ USS820_WRITE_1(sc, USS820_EPINDEX, n); USS820_WRITE_1(sc, USS820_TXCON, temp); USS820_WRITE_1(sc, USS820_RXCON, temp); if (pf->support_control) { temp = USS820_EPCON_CTLEP | USS820_EPCON_RXSPM | USS820_EPCON_RXIE | USS820_EPCON_RXEPEN | USS820_EPCON_TXOE | USS820_EPCON_TXEPEN; } else { temp = USS820_EPCON_RXEPEN | USS820_EPCON_TXEPEN; } uss820dci_update_shared_1(sc, USS820_EPCON, 0xFF, temp); } USB_BUS_UNLOCK(&sc->sc_bus); /* catch any lost interrupts */ uss820dci_do_poll(&sc->sc_bus); return (0); /* success */ } void uss820dci_uninit(struct uss820dci_softc *sc) { uint8_t temp; USB_BUS_LOCK(&sc->sc_bus); /* disable all interrupts */ temp = USS820_READ_1(sc, USS820_SCR); temp &= ~USS820_SCR_T_IRQ; USS820_WRITE_1(sc, USS820_SCR, temp); sc->sc_flags.port_powered = 0; sc->sc_flags.status_vbus = 0; sc->sc_flags.status_bus_reset = 0; sc->sc_flags.status_suspend = 0; sc->sc_flags.change_suspend = 0; sc->sc_flags.change_connect = 1; uss820dci_pull_down(sc); USB_BUS_UNLOCK(&sc->sc_bus); } static void uss820dci_suspend(struct uss820dci_softc *sc) { /* TODO */ } static void uss820dci_resume(struct uss820dci_softc *sc) { /* TODO */ } static void uss820dci_do_poll(struct usb_bus *bus) { struct uss820dci_softc *sc = USS820_DCI_BUS2SC(bus); USB_BUS_LOCK(&sc->sc_bus); uss820dci_interrupt_poll(sc); USB_BUS_UNLOCK(&sc->sc_bus); } /*------------------------------------------------------------------------* * at91dci bulk support *------------------------------------------------------------------------*/ static void uss820dci_device_bulk_open(struct usb_xfer *xfer) { return; } static void uss820dci_device_bulk_close(struct usb_xfer *xfer) { uss820dci_device_done(xfer, USB_ERR_CANCELLED); } static void uss820dci_device_bulk_enter(struct usb_xfer *xfer) { return; } static void uss820dci_device_bulk_start(struct usb_xfer *xfer) { /* setup TDs */ uss820dci_setup_standard_chain(xfer); uss820dci_start_standard_chain(xfer); } struct usb_pipe_methods uss820dci_device_bulk_methods = { .open = uss820dci_device_bulk_open, .close = uss820dci_device_bulk_close, .enter = uss820dci_device_bulk_enter, .start = uss820dci_device_bulk_start, }; /*------------------------------------------------------------------------* * at91dci control support *------------------------------------------------------------------------*/ static void uss820dci_device_ctrl_open(struct usb_xfer *xfer) { return; } static void uss820dci_device_ctrl_close(struct usb_xfer *xfer) { uss820dci_device_done(xfer, USB_ERR_CANCELLED); } static void uss820dci_device_ctrl_enter(struct usb_xfer *xfer) { return; } static void uss820dci_device_ctrl_start(struct usb_xfer *xfer) { /* setup TDs */ uss820dci_setup_standard_chain(xfer); uss820dci_start_standard_chain(xfer); } struct usb_pipe_methods uss820dci_device_ctrl_methods = { .open = uss820dci_device_ctrl_open, .close = uss820dci_device_ctrl_close, .enter = uss820dci_device_ctrl_enter, .start = uss820dci_device_ctrl_start, }; /*------------------------------------------------------------------------* * at91dci interrupt support *------------------------------------------------------------------------*/ static void uss820dci_device_intr_open(struct usb_xfer *xfer) { return; } static void uss820dci_device_intr_close(struct usb_xfer *xfer) { uss820dci_device_done(xfer, USB_ERR_CANCELLED); } static void uss820dci_device_intr_enter(struct usb_xfer *xfer) { return; } static void uss820dci_device_intr_start(struct usb_xfer *xfer) { /* setup TDs */ uss820dci_setup_standard_chain(xfer); uss820dci_start_standard_chain(xfer); } struct usb_pipe_methods uss820dci_device_intr_methods = { .open = uss820dci_device_intr_open, .close = uss820dci_device_intr_close, .enter = uss820dci_device_intr_enter, .start = uss820dci_device_intr_start, }; /*------------------------------------------------------------------------* * at91dci full speed isochronous support *------------------------------------------------------------------------*/ static void uss820dci_device_isoc_fs_open(struct usb_xfer *xfer) { return; } static void uss820dci_device_isoc_fs_close(struct usb_xfer *xfer) { uss820dci_device_done(xfer, USB_ERR_CANCELLED); } static void uss820dci_device_isoc_fs_enter(struct usb_xfer *xfer) { struct uss820dci_softc *sc = USS820_DCI_BUS2SC(xfer->xroot->bus); uint32_t temp; uint32_t nframes; DPRINTFN(6, "xfer=%p next=%d nframes=%d\n", xfer, xfer->endpoint->isoc_next, xfer->nframes); /* get the current frame index - we don't need the high bits */ nframes = USS820_READ_1(sc, USS820_SOFL); /* * check if the frame index is within the window where the * frames will be inserted */ temp = (nframes - xfer->endpoint->isoc_next) & USS820_SOFL_MASK; if ((xfer->endpoint->is_synced == 0) || (temp < xfer->nframes)) { /* * If there is data underflow or the pipe queue is * empty we schedule the transfer a few frames ahead * of the current frame position. Else two isochronous * transfers might overlap. */ xfer->endpoint->isoc_next = (nframes + 3) & USS820_SOFL_MASK; xfer->endpoint->is_synced = 1; DPRINTFN(3, "start next=%d\n", xfer->endpoint->isoc_next); } /* * compute how many milliseconds the insertion is ahead of the * current frame position: */ temp = (xfer->endpoint->isoc_next - nframes) & USS820_SOFL_MASK; /* * pre-compute when the isochronous transfer will be finished: */ xfer->isoc_time_complete = usb_isoc_time_expand(&sc->sc_bus, nframes) + temp + xfer->nframes; /* compute frame number for next insertion */ xfer->endpoint->isoc_next += xfer->nframes; /* setup TDs */ uss820dci_setup_standard_chain(xfer); } static void uss820dci_device_isoc_fs_start(struct usb_xfer *xfer) { /* start TD chain */ uss820dci_start_standard_chain(xfer); } struct usb_pipe_methods uss820dci_device_isoc_fs_methods = { .open = uss820dci_device_isoc_fs_open, .close = uss820dci_device_isoc_fs_close, .enter = uss820dci_device_isoc_fs_enter, .start = uss820dci_device_isoc_fs_start, }; /*------------------------------------------------------------------------* * at91dci root control support *------------------------------------------------------------------------* * Simulate a hardware HUB by handling all the necessary requests. *------------------------------------------------------------------------*/ static const struct usb_device_descriptor uss820dci_devd = { .bLength = sizeof(struct usb_device_descriptor), .bDescriptorType = UDESC_DEVICE, .bcdUSB = {0x00, 0x02}, .bDeviceClass = UDCLASS_HUB, .bDeviceSubClass = UDSUBCLASS_HUB, .bDeviceProtocol = UDPROTO_FSHUB, .bMaxPacketSize = 64, .bcdDevice = {0x00, 0x01}, .iManufacturer = 1, .iProduct = 2, .bNumConfigurations = 1, }; static const struct usb_device_qualifier uss820dci_odevd = { .bLength = sizeof(struct usb_device_qualifier), .bDescriptorType = UDESC_DEVICE_QUALIFIER, .bcdUSB = {0x00, 0x02}, .bDeviceClass = UDCLASS_HUB, .bDeviceSubClass = UDSUBCLASS_HUB, .bDeviceProtocol = UDPROTO_FSHUB, .bMaxPacketSize0 = 0, .bNumConfigurations = 0, }; static const struct uss820dci_config_desc uss820dci_confd = { .confd = { .bLength = sizeof(struct usb_config_descriptor), .bDescriptorType = UDESC_CONFIG, .wTotalLength[0] = sizeof(uss820dci_confd), .bNumInterface = 1, .bConfigurationValue = 1, .iConfiguration = 0, .bmAttributes = UC_SELF_POWERED, .bMaxPower = 0, }, .ifcd = { .bLength = sizeof(struct usb_interface_descriptor), .bDescriptorType = UDESC_INTERFACE, .bNumEndpoints = 1, .bInterfaceClass = UICLASS_HUB, .bInterfaceSubClass = UISUBCLASS_HUB, .bInterfaceProtocol = 0, }, .endpd = { .bLength = sizeof(struct usb_endpoint_descriptor), .bDescriptorType = UDESC_ENDPOINT, .bEndpointAddress = (UE_DIR_IN | USS820_DCI_INTR_ENDPT), .bmAttributes = UE_INTERRUPT, .wMaxPacketSize[0] = 8, .bInterval = 255, }, }; #define HSETW(ptr, val) ptr = { (uint8_t)(val), (uint8_t)((val) >> 8) } static const struct usb_hub_descriptor_min uss820dci_hubd = { .bDescLength = sizeof(uss820dci_hubd), .bDescriptorType = UDESC_HUB, .bNbrPorts = 1, HSETW(.wHubCharacteristics, (UHD_PWR_NO_SWITCH | UHD_OC_INDIVIDUAL)), .bPwrOn2PwrGood = 50, .bHubContrCurrent = 0, .DeviceRemovable = {0}, /* port is removable */ }; #define STRING_LANG \ 0x09, 0x04, /* American English */ #define STRING_VENDOR \ 'A', 0, 'G', 0, 'E', 0, 'R', 0, 'E', 0 #define STRING_PRODUCT \ 'D', 0, 'C', 0, 'I', 0, ' ', 0, 'R', 0, \ 'o', 0, 'o', 0, 't', 0, ' ', 0, 'H', 0, \ 'U', 0, 'B', 0, USB_MAKE_STRING_DESC(STRING_LANG, uss820dci_langtab); USB_MAKE_STRING_DESC(STRING_VENDOR, uss820dci_vendor); USB_MAKE_STRING_DESC(STRING_PRODUCT, uss820dci_product); static usb_error_t uss820dci_roothub_exec(struct usb_device *udev, struct usb_device_request *req, const void **pptr, uint16_t *plength) { struct uss820dci_softc *sc = USS820_DCI_BUS2SC(udev->bus); const void *ptr; uint16_t len; uint16_t value; uint16_t index; usb_error_t err; USB_BUS_LOCK_ASSERT(&sc->sc_bus, MA_OWNED); /* buffer reset */ ptr = (const void *)&sc->sc_hub_temp; len = 0; err = 0; value = UGETW(req->wValue); index = UGETW(req->wIndex); /* demultiplex the control request */ switch (req->bmRequestType) { case UT_READ_DEVICE: switch (req->bRequest) { case UR_GET_DESCRIPTOR: goto tr_handle_get_descriptor; case UR_GET_CONFIG: goto tr_handle_get_config; case UR_GET_STATUS: goto tr_handle_get_status; default: goto tr_stalled; } break; case UT_WRITE_DEVICE: switch (req->bRequest) { case UR_SET_ADDRESS: goto tr_handle_set_address; case UR_SET_CONFIG: goto tr_handle_set_config; case UR_CLEAR_FEATURE: goto tr_valid; /* nop */ case UR_SET_DESCRIPTOR: goto tr_valid; /* nop */ case UR_SET_FEATURE: default: goto tr_stalled; } break; case UT_WRITE_ENDPOINT: switch (req->bRequest) { case UR_CLEAR_FEATURE: switch (UGETW(req->wValue)) { case UF_ENDPOINT_HALT: goto tr_handle_clear_halt; case UF_DEVICE_REMOTE_WAKEUP: goto tr_handle_clear_wakeup; default: goto tr_stalled; } break; case UR_SET_FEATURE: switch (UGETW(req->wValue)) { case UF_ENDPOINT_HALT: goto tr_handle_set_halt; case UF_DEVICE_REMOTE_WAKEUP: goto tr_handle_set_wakeup; default: goto tr_stalled; } break; case UR_SYNCH_FRAME: goto tr_valid; /* nop */ default: goto tr_stalled; } break; case UT_READ_ENDPOINT: switch (req->bRequest) { case UR_GET_STATUS: goto tr_handle_get_ep_status; default: goto tr_stalled; } break; case UT_WRITE_INTERFACE: switch (req->bRequest) { case UR_SET_INTERFACE: goto tr_handle_set_interface; case UR_CLEAR_FEATURE: goto tr_valid; /* nop */ case UR_SET_FEATURE: default: goto tr_stalled; } break; case UT_READ_INTERFACE: switch (req->bRequest) { case UR_GET_INTERFACE: goto tr_handle_get_interface; case UR_GET_STATUS: goto tr_handle_get_iface_status; default: goto tr_stalled; } break; case UT_WRITE_CLASS_INTERFACE: case UT_WRITE_VENDOR_INTERFACE: /* XXX forward */ break; case UT_READ_CLASS_INTERFACE: case UT_READ_VENDOR_INTERFACE: /* XXX forward */ break; case UT_WRITE_CLASS_DEVICE: switch (req->bRequest) { case UR_CLEAR_FEATURE: goto tr_valid; case UR_SET_DESCRIPTOR: case UR_SET_FEATURE: break; default: goto tr_stalled; } break; case UT_WRITE_CLASS_OTHER: switch (req->bRequest) { case UR_CLEAR_FEATURE: goto tr_handle_clear_port_feature; case UR_SET_FEATURE: goto tr_handle_set_port_feature; case UR_CLEAR_TT_BUFFER: case UR_RESET_TT: case UR_STOP_TT: goto tr_valid; default: goto tr_stalled; } break; case UT_READ_CLASS_OTHER: switch (req->bRequest) { case UR_GET_TT_STATE: goto tr_handle_get_tt_state; case UR_GET_STATUS: goto tr_handle_get_port_status; default: goto tr_stalled; } break; case UT_READ_CLASS_DEVICE: switch (req->bRequest) { case UR_GET_DESCRIPTOR: goto tr_handle_get_class_descriptor; case UR_GET_STATUS: goto tr_handle_get_class_status; default: goto tr_stalled; } break; default: goto tr_stalled; } goto tr_valid; tr_handle_get_descriptor: switch (value >> 8) { case UDESC_DEVICE: if (value & 0xff) { goto tr_stalled; } len = sizeof(uss820dci_devd); ptr = (const void *)&uss820dci_devd; goto tr_valid; case UDESC_CONFIG: if (value & 0xff) { goto tr_stalled; } len = sizeof(uss820dci_confd); ptr = (const void *)&uss820dci_confd; goto tr_valid; case UDESC_STRING: switch (value & 0xff) { case 0: /* Language table */ len = sizeof(uss820dci_langtab); ptr = (const void *)&uss820dci_langtab; goto tr_valid; case 1: /* Vendor */ len = sizeof(uss820dci_vendor); ptr = (const void *)&uss820dci_vendor; goto tr_valid; case 2: /* Product */ len = sizeof(uss820dci_product); ptr = (const void *)&uss820dci_product; goto tr_valid; default: break; } break; default: goto tr_stalled; } goto tr_stalled; tr_handle_get_config: len = 1; sc->sc_hub_temp.wValue[0] = sc->sc_conf; goto tr_valid; tr_handle_get_status: len = 2; USETW(sc->sc_hub_temp.wValue, UDS_SELF_POWERED); goto tr_valid; tr_handle_set_address: if (value & 0xFF00) { goto tr_stalled; } sc->sc_rt_addr = value; goto tr_valid; tr_handle_set_config: if (value >= 2) { goto tr_stalled; } sc->sc_conf = value; goto tr_valid; tr_handle_get_interface: len = 1; sc->sc_hub_temp.wValue[0] = 0; goto tr_valid; tr_handle_get_tt_state: tr_handle_get_class_status: tr_handle_get_iface_status: tr_handle_get_ep_status: len = 2; USETW(sc->sc_hub_temp.wValue, 0); goto tr_valid; tr_handle_set_halt: tr_handle_set_interface: tr_handle_set_wakeup: tr_handle_clear_wakeup: tr_handle_clear_halt: goto tr_valid; tr_handle_clear_port_feature: if (index != 1) { goto tr_stalled; } DPRINTFN(9, "UR_CLEAR_PORT_FEATURE on port %d\n", index); switch (value) { case UHF_PORT_SUSPEND: uss820dci_wakeup_peer(sc); break; case UHF_PORT_ENABLE: sc->sc_flags.port_enabled = 0; break; case UHF_PORT_TEST: case UHF_PORT_INDICATOR: case UHF_C_PORT_ENABLE: case UHF_C_PORT_OVER_CURRENT: case UHF_C_PORT_RESET: /* nops */ break; case UHF_PORT_POWER: sc->sc_flags.port_powered = 0; uss820dci_pull_down(sc); break; case UHF_C_PORT_CONNECTION: sc->sc_flags.change_connect = 0; break; case UHF_C_PORT_SUSPEND: sc->sc_flags.change_suspend = 0; break; default: err = USB_ERR_IOERROR; goto done; } goto tr_valid; tr_handle_set_port_feature: if (index != 1) { goto tr_stalled; } DPRINTFN(9, "UR_SET_PORT_FEATURE\n"); switch (value) { case UHF_PORT_ENABLE: sc->sc_flags.port_enabled = 1; break; case UHF_PORT_SUSPEND: case UHF_PORT_RESET: case UHF_PORT_TEST: case UHF_PORT_INDICATOR: /* nops */ break; case UHF_PORT_POWER: sc->sc_flags.port_powered = 1; break; default: err = USB_ERR_IOERROR; goto done; } goto tr_valid; tr_handle_get_port_status: DPRINTFN(9, "UR_GET_PORT_STATUS\n"); if (index != 1) { goto tr_stalled; } if (sc->sc_flags.status_vbus) { uss820dci_pull_up(sc); } else { uss820dci_pull_down(sc); } /* Select FULL-speed and Device Side Mode */ value = UPS_PORT_MODE_DEVICE; if (sc->sc_flags.port_powered) { value |= UPS_PORT_POWER; } if (sc->sc_flags.port_enabled) { value |= UPS_PORT_ENABLED; } if (sc->sc_flags.status_vbus && sc->sc_flags.status_bus_reset) { value |= UPS_CURRENT_CONNECT_STATUS; } if (sc->sc_flags.status_suspend) { value |= UPS_SUSPEND; } USETW(sc->sc_hub_temp.ps.wPortStatus, value); value = 0; if (sc->sc_flags.change_connect) { value |= UPS_C_CONNECT_STATUS; } if (sc->sc_flags.change_suspend) { value |= UPS_C_SUSPEND; } USETW(sc->sc_hub_temp.ps.wPortChange, value); len = sizeof(sc->sc_hub_temp.ps); goto tr_valid; tr_handle_get_class_descriptor: if (value & 0xFF) { goto tr_stalled; } ptr = (const void *)&uss820dci_hubd; len = sizeof(uss820dci_hubd); goto tr_valid; tr_stalled: err = USB_ERR_STALLED; tr_valid: done: *plength = len; *pptr = ptr; return (err); } static void uss820dci_xfer_setup(struct usb_setup_params *parm) { const struct usb_hw_ep_profile *pf; struct uss820dci_softc *sc; struct usb_xfer *xfer; void *last_obj; uint32_t ntd; uint32_t n; uint8_t ep_no; sc = USS820_DCI_BUS2SC(parm->udev->bus); xfer = parm->curr_xfer; /* * NOTE: This driver does not use any of the parameters that * are computed from the following values. Just set some * reasonable dummies: */ parm->hc_max_packet_size = 0x500; parm->hc_max_packet_count = 1; parm->hc_max_frame_size = 0x500; usbd_transfer_setup_sub(parm); /* * compute maximum number of TDs */ if (parm->methods == &uss820dci_device_ctrl_methods) { ntd = xfer->nframes + 1 /* STATUS */ + 1 /* SYNC */ ; } else if (parm->methods == &uss820dci_device_bulk_methods) { ntd = xfer->nframes + 1 /* SYNC */ ; } else if (parm->methods == &uss820dci_device_intr_methods) { ntd = xfer->nframes + 1 /* SYNC */ ; } else if (parm->methods == &uss820dci_device_isoc_fs_methods) { ntd = xfer->nframes + 1 /* SYNC */ ; } else { ntd = 0; } /* * check if "usbd_transfer_setup_sub" set an error */ if (parm->err) { return; } /* * allocate transfer descriptors */ last_obj = NULL; /* * get profile stuff */ if (ntd) { ep_no = xfer->endpointno & UE_ADDR; uss820dci_get_hw_ep_profile(parm->udev, &pf, ep_no); if (pf == NULL) { /* should not happen */ parm->err = USB_ERR_INVAL; return; } } else { ep_no = 0; pf = NULL; } /* align data */ parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); for (n = 0; n != ntd; n++) { struct uss820dci_td *td; if (parm->buf) { td = USB_ADD_BYTES(parm->buf, parm->size[0]); /* init TD */ td->io_tag = sc->sc_io_tag; td->io_hdl = sc->sc_io_hdl; td->max_packet_size = xfer->max_packet_size; td->ep_index = ep_no; if (pf->support_multi_buffer && (parm->methods != &uss820dci_device_ctrl_methods)) { td->support_multi_buffer = 1; } td->obj_next = last_obj; last_obj = td; } parm->size[0] += sizeof(*td); } xfer->td_start[0] = last_obj; } static void uss820dci_xfer_unsetup(struct usb_xfer *xfer) { return; } static void uss820dci_ep_init(struct usb_device *udev, struct usb_endpoint_descriptor *edesc, struct usb_endpoint *ep) { struct uss820dci_softc *sc = USS820_DCI_BUS2SC(udev->bus); DPRINTFN(2, "endpoint=%p, addr=%d, endpt=%d, mode=%d (%d)\n", ep, udev->address, edesc->bEndpointAddress, udev->flags.usb_mode, sc->sc_rt_addr); if (udev->device_index != sc->sc_rt_addr) { if (udev->flags.usb_mode != USB_MODE_DEVICE) { /* not supported */ return; } if (udev->speed != USB_SPEED_FULL) { /* not supported */ return; } switch (edesc->bmAttributes & UE_XFERTYPE) { case UE_CONTROL: ep->methods = &uss820dci_device_ctrl_methods; break; case UE_INTERRUPT: ep->methods = &uss820dci_device_intr_methods; break; case UE_ISOCHRONOUS: ep->methods = &uss820dci_device_isoc_fs_methods; break; case UE_BULK: ep->methods = &uss820dci_device_bulk_methods; break; default: /* do nothing */ break; } } } static void uss820dci_set_hw_power_sleep(struct usb_bus *bus, uint32_t state) { struct uss820dci_softc *sc = USS820_DCI_BUS2SC(bus); switch (state) { case USB_HW_POWER_SUSPEND: uss820dci_suspend(sc); break; case USB_HW_POWER_SHUTDOWN: uss820dci_uninit(sc); break; case USB_HW_POWER_RESUME: uss820dci_resume(sc); break; default: break; } } struct usb_bus_methods uss820dci_bus_methods = { .endpoint_init = &uss820dci_ep_init, .xfer_setup = &uss820dci_xfer_setup, .xfer_unsetup = &uss820dci_xfer_unsetup, .get_hw_ep_profile = &uss820dci_get_hw_ep_profile, .set_stall = &uss820dci_set_stall, .clear_stall = &uss820dci_clear_stall, .roothub_exec = &uss820dci_roothub_exec, .xfer_poll = &uss820dci_do_poll, .set_hw_power_sleep = uss820dci_set_hw_power_sleep, };