/* $Id: USBProxyDevice-freebsd.cpp 37596 2011-06-22 19:30:06Z vboxsync $ */ /** @file * USB device proxy - the FreeBSD backend. */ /* * Copyright (C) 2006-2007 Oracle Corporation * Copyright (C) 2010 Hans Petter Selasky * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /******************************************************************************* * Header Files * *******************************************************************************/ #define LOG_GROUP LOG_GROUP_DRV_USBPROXY #ifdef VBOX # include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../USBProxyDevice.h" /** Maximum endpoints supported. */ #define USBFBSD_MAXENDPOINTS 127 #define USBFBSD_MAXFRAMES 56 /** This really needs to be defined in vusb.h! */ #ifndef VUSB_DIR_TO_DEV # define VUSB_DIR_TO_DEV 0x00 #endif /******************************************************************************* * Structures and Typedefs * *******************************************************************************/ typedef struct USBENDPOINTFBSD { /** Flag whether it is opened. */ bool fOpen; /** Flag whether it is cancelling. */ bool fCancelling; /** Buffer pointers. */ void *apvData[USBFBSD_MAXFRAMES]; /** Buffer lengths. */ uint32_t acbData[USBFBSD_MAXFRAMES]; /** Initial buffer length. */ uint32_t cbData0; /** Pointer to the URB. */ PVUSBURB pUrb; /** Copy of endpoint number. */ unsigned iEpNum; /** Maximum transfer length. */ unsigned cMaxIo; /** Maximum frame count. */ unsigned cMaxFrames; } USBENDPOINTFBSD, *PUSBENDPOINTFBSD; /** * Data for the FreeBSD usb proxy backend. */ typedef struct USBPROXYDEVFBSD { /** The open file. */ RTFILE hFile; /** Software endpoint structures */ USBENDPOINTFBSD aSwEndpoint[USBFBSD_MAXENDPOINTS]; /** Flag whether an URB is cancelling. */ bool fCancelling; /** Flag whether initialised or not */ bool fInit; /** Kernel endpoint structures */ struct usb_fs_endpoint aHwEndpoint[USBFBSD_MAXENDPOINTS]; } USBPROXYDEVFBSD, *PUSBPROXYDEVFBSD; /******************************************************************************* * Internal Functions * *******************************************************************************/ static int usbProxyFreeBSDEndpointClose(PUSBPROXYDEV pProxyDev, int Endpoint); /** * Wrapper for the ioctl call. * * This wrapper will repeat the call if we get an EINTR or EAGAIN. It can also * handle ENODEV (detached device) errors. * * @returns whatever ioctl returns. * @param pProxyDev The proxy device. * @param iCmd The ioctl command / function. * @param pvArg The ioctl argument / data. * @param fHandleNoDev Whether to handle ENXIO. * @internal */ static int usbProxyFreeBSDDoIoCtl(PUSBPROXYDEV pProxyDev, unsigned long iCmd, void *pvArg, bool fHandleNoDev) { int rc = VINF_SUCCESS; PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; LogFlow(("usbProxyFreeBSDDoIoCtl: iCmd=%#x\n", iCmd)); do { rc = ioctl(RTFileToNative(pDevFBSD->hFile), iCmd, pvArg); if (rc >= 0) return VINF_SUCCESS; } while (errno == EINTR); if (errno == ENXIO && fHandleNoDev) { Log(("usbProxyFreeBSDDoIoCtl: ENXIO -> unplugged. pProxyDev=%s\n", pProxyDev->pUsbIns->pszName)); errno = ENODEV; } else if (errno != EAGAIN) { LogFlow(("usbProxyFreeBSDDoIoCtl: Returned %d. pProxyDev=%s\n", errno, pProxyDev->pUsbIns->pszName)); } return RTErrConvertFromErrno(errno); } /** * Init USB subsystem. */ static int usbProxyFreeBSDFsInit(PUSBPROXYDEV pProxyDev) { struct usb_fs_init UsbFsInit; PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; int rc; LogFlow(("usbProxyFreeBSDFsInit: pProxyDev=%p\n", (void *)pProxyDev)); /* Sanity check */ AssertPtrReturn(pDevFBSD, VERR_INVALID_PARAMETER); if (pDevFBSD->fInit == true) return VINF_SUCCESS; /* Zero default */ memset(&UsbFsInit, 0, sizeof(UsbFsInit)); UsbFsInit.pEndpoints = pDevFBSD->aHwEndpoint; UsbFsInit.ep_index_max = USBFBSD_MAXENDPOINTS; /* Init USB subsystem */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_FS_INIT, &UsbFsInit, false); if (RT_SUCCESS(rc)) pDevFBSD->fInit = true; return rc; } /** * Uninit USB subsystem. */ static int usbProxyFreeBSDFsUnInit(PUSBPROXYDEV pProxyDev) { struct usb_fs_uninit UsbFsUninit; PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; int rc; LogFlow(("usbProxyFreeBSDFsUnInit: ProxyDev=%p\n", (void *)pProxyDev)); /* Sanity check */ AssertPtrReturn(pDevFBSD, VERR_INVALID_PARAMETER); if (pDevFBSD->fInit != true) return VINF_SUCCESS; /* Close any open endpoints. */ for (unsigned n = 0; n != USBFBSD_MAXENDPOINTS; n++) usbProxyFreeBSDEndpointClose(pProxyDev, n); /* Zero default */ memset(&UsbFsUninit, 0, sizeof(UsbFsUninit)); /* Uninit USB subsystem */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_FS_UNINIT, &UsbFsUninit, false); if (RT_SUCCESS(rc)) pDevFBSD->fInit = false; return rc; } /** * Setup a USB request packet. */ static void usbProxyFreeBSDSetupReq(struct usb_device_request *pSetupData, uint8_t bmRequestType, uint8_t bRequest, uint16_t wValue, uint16_t wIndex, uint16_t wLength) { LogFlow(("usbProxyFreeBSDSetupReq: pSetupData=%p bmRequestType=%x " "bRequest=%x wValue=%x wIndex=%x wLength=%x\n", (void *)pSetupData, bmRequestType, bRequest, wValue, wIndex, wLength)); pSetupData->bmRequestType = bmRequestType; pSetupData->bRequest = bRequest; /* Handle endianess here. Currently no swapping is needed. */ pSetupData->wValue[0] = wValue & 0xff; pSetupData->wValue[1] = (wValue >> 8) & 0xff; pSetupData->wIndex[0] = wIndex & 0xff; pSetupData->wIndex[1] = (wIndex >> 8) & 0xff; pSetupData->wLength[0] = wLength & 0xff; pSetupData->wLength[1] = (wLength >> 8) & 0xff; } static int usbProxyFreeBSDEndpointOpen(PUSBPROXYDEV pProxyDev, int Endpoint, bool fIsoc, int index) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; PUSBENDPOINTFBSD pEndpointFBSD = NULL; /* shut up gcc */ struct usb_fs_endpoint *pXferEndpoint; struct usb_fs_open UsbFsOpen; int rc; LogFlow(("usbProxyFreeBSDEndpointOpen: pProxyDev=%p Endpoint=%d\n", (void *)pProxyDev, Endpoint)); for (; index < USBFBSD_MAXENDPOINTS; index++) { pEndpointFBSD = &pDevFBSD->aSwEndpoint[index]; if (pEndpointFBSD->fCancelling) continue; if ( pEndpointFBSD->fOpen && !pEndpointFBSD->pUrb && (int)pEndpointFBSD->iEpNum == Endpoint) return index; } if (index == USBFBSD_MAXENDPOINTS) { for (index = 0; index != USBFBSD_MAXENDPOINTS; index++) { pEndpointFBSD = &pDevFBSD->aSwEndpoint[index]; if (pEndpointFBSD->fCancelling) continue; if (!pEndpointFBSD->fOpen) break; } if (index == USBFBSD_MAXENDPOINTS) return -1; } /* set ppBuffer and pLength */ pXferEndpoint = &pDevFBSD->aHwEndpoint[index]; pXferEndpoint->ppBuffer = &pEndpointFBSD->apvData[0]; pXferEndpoint->pLength = &pEndpointFBSD->acbData[0]; LogFlow(("usbProxyFreeBSDEndpointOpen: ep_index=%d ep_num=%d\n", index, Endpoint)); memset(&UsbFsOpen, 0, sizeof(UsbFsOpen)); UsbFsOpen.ep_index = index; UsbFsOpen.ep_no = Endpoint; UsbFsOpen.max_bufsize = 256 * 1024; /* Hardcoded assumption about the URBs we get. */ UsbFsOpen.max_frames = fIsoc ? USBFBSD_MAXFRAMES : 2; rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_FS_OPEN, &UsbFsOpen, true); if (RT_FAILURE(rc)) { if (rc == VERR_RESOURCE_BUSY) LogFlow(("usbProxyFreeBSDEndpointOpen: EBUSY\n")); return -1; } pEndpointFBSD->fOpen = true; pEndpointFBSD->pUrb = NULL; pEndpointFBSD->iEpNum = Endpoint; pEndpointFBSD->cMaxIo = UsbFsOpen.max_bufsize; pEndpointFBSD->cMaxFrames = UsbFsOpen.max_frames; return index; } /** * Close an endpoint. * * @returns VBox status code. */ static int usbProxyFreeBSDEndpointClose(PUSBPROXYDEV pProxyDev, int Endpoint) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; PUSBENDPOINTFBSD pEndpointFBSD = &pDevFBSD->aSwEndpoint[Endpoint]; struct usb_fs_close UsbFsClose; int rc = VINF_SUCCESS; LogFlow(("usbProxyFreeBSDEndpointClose: pProxyDev=%p Endpoint=%d\n", (void *)pProxyDev, Endpoint)); /* check for cancelling */ if (pEndpointFBSD->pUrb != NULL) { pEndpointFBSD->fCancelling = true; pDevFBSD->fCancelling = true; } /* check for opened */ if (pEndpointFBSD->fOpen) { pEndpointFBSD->fOpen = false; /* Zero default */ memset(&UsbFsClose, 0, sizeof(UsbFsClose)); /* Set endpoint index */ UsbFsClose.ep_index = Endpoint; /* Close endpoint */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_FS_CLOSE, &UsbFsClose, true); } return rc; } /** * Opens the device file. * * @returns VBox status code. * @param pProxyDev The device instance. * @param pszAddress If we are using usbfs, this is the path to the * device. If we are using sysfs, this is a string of * the form "sysfs://device:". * In the second case, the two paths are guaranteed * not to contain the substring "//". * @param pvBackend Backend specific pointer, unused for the linux backend. */ static int usbProxyFreeBSDOpen(PUSBPROXYDEV pProxyDev, const char *pszAddress, void *pvBackend) { int rc; LogFlow(("usbProxyFreeBSDOpen: pProxyDev=%p pszAddress=%s\n", pProxyDev, pszAddress)); /* * Try open the device node. */ RTFILE hFile; rc = RTFileOpen(&hFile, pszAddress, RTFILE_O_READWRITE | RTFILE_O_OPEN | RTFILE_O_DENY_NONE); if (RT_SUCCESS(rc)) { /* * Allocate and initialize the linux backend data. */ PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD)RTMemAllocZ(sizeof(USBPROXYDEVFBSD)); if (pDevFBSD) { pDevFBSD->hFile = hFile; pProxyDev->Backend.pv = pDevFBSD; rc = usbProxyFreeBSDFsInit(pProxyDev); if (RT_SUCCESS(rc)) { LogFlow(("usbProxyFreeBSDOpen(%p, %s): returns successfully hFile=%RTfile iActiveCfg=%d\n", pProxyDev, pszAddress, pDevFBSD->hFile, pProxyDev->iActiveCfg)); return VINF_SUCCESS; } RTMemFree(pDevFBSD); } else rc = VERR_NO_MEMORY; RTFileClose(hFile); } else if (rc == VERR_ACCESS_DENIED) rc = VERR_VUSB_USBFS_PERMISSION; Log(("usbProxyFreeBSDOpen(%p, %s) failed, rc=%d!\n", pProxyDev, pszAddress, rc)); pProxyDev->Backend.pv = NULL; NOREF(pvBackend); return rc; } /** * Claims all the interfaces and figures out the * current configuration. * * @returns VINF_SUCCESS. * @param pProxyDev The proxy device. */ static int usbProxyFreeBSDInit(PUSBPROXYDEV pProxyDev) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; int rc; LogFlow(("usbProxyFreeBSDInit: pProxyDev=%s\n", pProxyDev->pUsbIns->pszName)); /* Retrieve current active configuration. */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_GET_CONFIG, &pProxyDev->iActiveCfg, true); if (RT_FAILURE(rc) || pProxyDev->iActiveCfg == 255) { pProxyDev->cIgnoreSetConfigs = 0; pProxyDev->iActiveCfg = -1; } else { pProxyDev->cIgnoreSetConfigs = 1; pProxyDev->iActiveCfg++; } Log(("usbProxyFreeBSDInit: iActiveCfg=%d\n", pProxyDev->iActiveCfg)); return rc; } /** * Closes the proxy device. */ static void usbProxyFreeBSDClose(PUSBPROXYDEV pProxyDev) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD)pProxyDev->Backend.pv; LogFlow(("usbProxyFreeBSDClose: pProxyDev=%s\n", pProxyDev->pUsbIns->pszName)); /* sanity check */ AssertPtrReturnVoid(pDevFBSD); usbProxyFreeBSDFsUnInit(pProxyDev); RTFileClose(pDevFBSD->hFile); pDevFBSD->hFile = NIL_RTFILE; RTMemFree(pDevFBSD); pProxyDev->Backend.pv = NULL; LogFlow(("usbProxyFreeBSDClose: returns\n")); } /** * Reset a device. * * @returns VBox status code. * @param pDev The device to reset. */ static int usbProxyFreeBSDReset(PUSBPROXYDEV pProxyDev, bool fResetOnFreeBSD) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; int iParm; int rc = VINF_SUCCESS; LogFlow(("usbProxyFreeBSDReset: pProxyDev=%s\n", pProxyDev->pUsbIns->pszName)); if (!fResetOnFreeBSD) goto done; /* We need to release kernel ressources first. */ rc = usbProxyFreeBSDFsUnInit(pProxyDev); if (RT_FAILURE(rc)) goto done; /* Resetting is only possible as super-user, ignore any failures: */ iParm = 0; rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_DEVICEENUMERATE, &iParm, true); if (RT_FAILURE(rc)) { /* Set the config instead of bus reset */ iParm = 255; rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_SET_CONFIG, &iParm, true); if (RT_SUCCESS(rc)) { iParm = 0; rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_SET_CONFIG, &iParm, true); } } usleep(10000); /* nice it! */ /* Allocate kernel ressources again. */ rc = usbProxyFreeBSDFsInit(pProxyDev); if (RT_FAILURE(rc)) goto done; /* Retrieve current active configuration. */ rc = usbProxyFreeBSDInit(pProxyDev); done: pProxyDev->cIgnoreSetConfigs = 2; return rc; } /** * SET_CONFIGURATION. * * The caller makes sure that it's not called first time after open or reset * with the active interface. * * @returns success indicator. * @param pProxyDev The device instance data. * @param iCfg The configuration to set. */ static int usbProxyFreeBSDSetConfig(PUSBPROXYDEV pProxyDev, int iCfg) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; int iCfgIndex; int rc; LogFlow(("usbProxyFreeBSDSetConfig: pProxyDev=%s cfg=%x\n", pProxyDev->pUsbIns->pszName, iCfg)); /* We need to release kernel ressources first. */ rc = usbProxyFreeBSDFsUnInit(pProxyDev); if (RT_FAILURE(rc)) { LogFlow(("usbProxyFreeBSDSetInterface: Freeing kernel resources " "failed failed rc=%d\n", rc)); return false; } if (iCfg == 0) { /* Unconfigure */ iCfgIndex = 255; } else { /* Get the configuration index matching the value. */ for (iCfgIndex = 0; iCfgIndex < pProxyDev->DevDesc.bNumConfigurations; iCfgIndex++) { if (pProxyDev->paCfgDescs[iCfgIndex].Core.bConfigurationValue == iCfg) break; } if (iCfgIndex == pProxyDev->DevDesc.bNumConfigurations) { LogFlow(("usbProxyFreeBSDSetConfig: configuration " "%d not found\n", iCfg)); return false; } } /* Set the config */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_SET_CONFIG, &iCfgIndex, true); if (RT_FAILURE(rc)) return false; /* Allocate kernel ressources again. */ rc = usbProxyFreeBSDFsInit(pProxyDev); if (RT_FAILURE(rc)) return false; return true; } /** * Claims an interface. * @returns success indicator. */ static int usbProxyFreeBSDClaimInterface(PUSBPROXYDEV pProxyDev, int iIf) { int rc; LogFlow(("usbProxyFreeBSDClaimInterface: pProxyDev=%s " "ifnum=%x\n", pProxyDev->pUsbIns->pszName, iIf)); /* * Try to detach kernel driver on this interface, ignore any * failures */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_IFACE_DRIVER_DETACH, &iIf, true); /* Try to claim interface */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_CLAIM_INTERFACE, &iIf, true); if (RT_FAILURE(rc)) return false; return true; } /** * Releases an interface. * @returns success indicator. */ static int usbProxyFreeBSDReleaseInterface(PUSBPROXYDEV pProxyDev, int iIf) { int rc; LogFlow(("usbProxyFreeBSDReleaseInterface: pProxyDev=%s " "ifnum=%x\n", pProxyDev->pUsbIns->pszName, iIf)); rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_RELEASE_INTERFACE, &iIf, true); if (RT_FAILURE(rc)) return false; return true; } /** * SET_INTERFACE. * * @returns success indicator. */ static int usbProxyFreeBSDSetInterface(PUSBPROXYDEV pProxyDev, int iIf, int iAlt) { PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; struct usb_alt_interface UsbIntAlt; int rc; LogFlow(("usbProxyFreeBSDSetInterface: pProxyDev=%p iIf=%x iAlt=%x\n", pProxyDev, iIf, iAlt)); /* We need to release kernel ressources first. */ rc = usbProxyFreeBSDFsUnInit(pProxyDev); if (RT_FAILURE(rc)) { LogFlow(("usbProxyFreeBSDSetInterface: Freeing kernel resources " "failed failed rc=%d\n", rc)); return false; } memset(&UsbIntAlt, 0, sizeof(UsbIntAlt)); UsbIntAlt.uai_interface_index = iIf; UsbIntAlt.uai_alt_index = iAlt; rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_SET_ALTINTERFACE, &UsbIntAlt, true); if (RT_FAILURE(rc)) { LogFlow(("usbProxyFreeBSDSetInterface: Setting interface %d %d " "failed rc=%d\n", iIf, iAlt, rc)); return false; } rc = usbProxyFreeBSDFsInit(pProxyDev); if (RT_FAILURE(rc)) return false; return true; } /** * Clears the halted endpoint 'ep_num'. */ static bool usbProxyFreeBSDClearHaltedEp(PUSBPROXYDEV pProxyDev, unsigned int ep_num) { struct usb_ctl_request Req; int rc; LogFlow(("usbProxyFreeBSDClearHaltedEp: pProxyDev=%s ep_num=%u\n", pProxyDev->pUsbIns->pszName, ep_num)); /* * Clearing the zero control pipe doesn't make sense. * Just ignore it. */ if ((ep_num & 0xF) == 0) return true; memset(&Req, 0, sizeof(Req)); usbProxyFreeBSDSetupReq(&Req.ucr_request, VUSB_DIR_TO_DEV | VUSB_TO_ENDPOINT, VUSB_REQ_CLEAR_FEATURE, 0, ep_num, 0); rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_DO_REQUEST, &Req, true); LogFlow(("usbProxyFreeBSDClearHaltedEp: rc=%Rrc\n", rc)); if (RT_FAILURE(rc)) return false; return true; } /** * @copydoc USBPROXYBACK::pfnUrbQueue */ static int usbProxyFreeBSDUrbQueue(PVUSBURB pUrb) { PUSBPROXYDEV pProxyDev = PDMINS_2_DATA(pUrb->pUsbIns, PUSBPROXYDEV); PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; PUSBENDPOINTFBSD pEndpointFBSD; struct usb_fs_endpoint *pXferEndpoint; struct usb_fs_start UsbFsStart; unsigned cFrames; uint8_t *pbData; int index; int ep_num; int rc; LogFlow(("usbProxyFreeBSDUrbQueue: pUrb=%p EndPt=%u Dir=%u\n", pUrb, (unsigned)pUrb->EndPt, (unsigned)pUrb->enmDir)); ep_num = pUrb->EndPt; if ((pUrb->enmType != VUSBXFERTYPE_MSG) && (pUrb->enmDir == VUSBDIRECTION_IN)) ep_num |= 0x80; index = 0; retry: index = usbProxyFreeBSDEndpointOpen(pProxyDev, ep_num, (pUrb->enmType == VUSBXFERTYPE_ISOC), index); if (index < 0) return false; pEndpointFBSD = &pDevFBSD->aSwEndpoint[index]; pXferEndpoint = &pDevFBSD->aHwEndpoint[index]; pbData = pUrb->abData; switch (pUrb->enmType) { case VUSBXFERTYPE_MSG: { pEndpointFBSD->apvData[0] = pbData; pEndpointFBSD->acbData[0] = 8; /* check wLength */ if (pbData[6] || pbData[7]) { pEndpointFBSD->apvData[1] = pbData + 8; pEndpointFBSD->acbData[1] = pbData[6] | (pbData[7] << 8); cFrames = 2; } else { pEndpointFBSD->apvData[1] = NULL; pEndpointFBSD->acbData[1] = 0; cFrames = 1; } LogFlow(("usbProxyFreeBSDUrbQueue: pUrb->cbData=%u, 0x%02x, " "0x%02x, 0x%02x, 0x%02x, 0x%02x, 0x%02x, 0x%02x, 0x%02x\n", pUrb->cbData, pbData[0], pbData[1], pbData[2], pbData[3], pbData[4], pbData[5], pbData[6], pbData[7])); pXferEndpoint->timeout = USB_FS_TIMEOUT_NONE; pXferEndpoint->flags = USB_FS_FLAG_MULTI_SHORT_OK; break; } case VUSBXFERTYPE_ISOC: { unsigned i; for (i = 0; i < pUrb->cIsocPkts; i++) { if (i >= pEndpointFBSD->cMaxFrames) break; pEndpointFBSD->apvData[i] = pbData + pUrb->aIsocPkts[i].off; pEndpointFBSD->acbData[i] = pUrb->aIsocPkts[i].cb; } /* Timeout handling will be done during reap. */ pXferEndpoint->timeout = USB_FS_TIMEOUT_NONE; pXferEndpoint->flags = USB_FS_FLAG_MULTI_SHORT_OK; cFrames = i; break; } default: { pEndpointFBSD->apvData[0] = pbData; pEndpointFBSD->cbData0 = pUrb->cbData; /* XXX maybe we have to loop */ if (pUrb->cbData > pEndpointFBSD->cMaxIo) pEndpointFBSD->acbData[0] = pEndpointFBSD->cMaxIo; else pEndpointFBSD->acbData[0] = pUrb->cbData; /* Timeout handling will be done during reap. */ pXferEndpoint->timeout = USB_FS_TIMEOUT_NONE; pXferEndpoint->flags = pUrb->fShortNotOk ? 0 : USB_FS_FLAG_MULTI_SHORT_OK; cFrames = 1; break; } } /* store number of frames */ pXferEndpoint->nFrames = cFrames; /* zero-default */ memset(&UsbFsStart, 0, sizeof(UsbFsStart)); /* Start the transfer */ UsbFsStart.ep_index = index; rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_FS_START, &UsbFsStart, true); LogFlow(("usbProxyFreeBSDUrbQueue: USB_FS_START returned rc=%d " "len[0]=%u len[1]=%u cbData=%u index=%u ep_num=%u\n", rc, (unsigned)pEndpointFBSD->acbData[0], (unsigned)pEndpointFBSD->acbData[1], (unsigned)pUrb->cbData, (unsigned)index, (unsigned)ep_num)); if (RT_FAILURE(rc)) { if (rc == VERR_RESOURCE_BUSY) { index++; goto retry; } return false; } pUrb->Dev.pvPrivate = (void *)(long)(index + 1); pEndpointFBSD->pUrb = pUrb; return true; } /** * Reap URBs in-flight on a device. * * @returns Pointer to a completed URB. * @returns NULL if no URB was completed. * @param pProxyDev The device. * @param cMillies Number of milliseconds to wait. Use 0 to not wait at all. */ static PVUSBURB usbProxyFreeBSDUrbReap(PUSBPROXYDEV pProxyDev, RTMSINTERVAL cMillies) { struct usb_fs_endpoint *pXferEndpoint; PUSBPROXYDEVFBSD pDevFBSD = (PUSBPROXYDEVFBSD) pProxyDev->Backend.pv; PUSBENDPOINTFBSD pEndpointFBSD; PVUSBURB pUrb; struct usb_fs_complete UsbFsComplete; struct pollfd PollFd; int rc; LogFlow(("usbProxyFreeBSDUrbReap: pProxyDev=%p, cMillies=%u\n", pProxyDev, cMillies)); repeat: pUrb = NULL; /* check for cancelled transfers */ if (pDevFBSD->fCancelling) { for (unsigned n = 0; n < USBFBSD_MAXENDPOINTS; n++) { pEndpointFBSD = &pDevFBSD->aSwEndpoint[n]; if (pEndpointFBSD->fCancelling) { pEndpointFBSD->fCancelling = false; pUrb = pEndpointFBSD->pUrb; pEndpointFBSD->pUrb = NULL; if (pUrb != NULL) break; } } if (pUrb != NULL) { pUrb->enmStatus = VUSBSTATUS_INVALID; pUrb->Dev.pvPrivate = NULL; switch (pUrb->enmType) { case VUSBXFERTYPE_MSG: pUrb->cbData = 0; break; case VUSBXFERTYPE_ISOC: pUrb->cbData = 0; for (int n = 0; n < (int)pUrb->cIsocPkts; n++) pUrb->aIsocPkts[n].cb = 0; break; default: pUrb->cbData = 0; break; } return pUrb; } pDevFBSD->fCancelling = false; } /* Zero default */ memset(&UsbFsComplete, 0, sizeof(UsbFsComplete)); /* Check if any endpoints are complete */ rc = usbProxyFreeBSDDoIoCtl(pProxyDev, USB_FS_COMPLETE, &UsbFsComplete, true); if (RT_SUCCESS(rc)) { pXferEndpoint = &pDevFBSD->aHwEndpoint[UsbFsComplete.ep_index]; pEndpointFBSD = &pDevFBSD->aSwEndpoint[UsbFsComplete.ep_index]; LogFlow(("usbProxyFreeBSDUrbReap: Reaped " "URB %#p\n", pEndpointFBSD->pUrb)); if (pXferEndpoint->status == USB_ERR_CANCELLED) goto repeat; pUrb = pEndpointFBSD->pUrb; pEndpointFBSD->pUrb = NULL; if (pUrb == NULL) goto repeat; switch (pXferEndpoint->status) { case USB_ERR_NORMAL_COMPLETION: pUrb->enmStatus = VUSBSTATUS_OK; break; case USB_ERR_STALLED: pUrb->enmStatus = VUSBSTATUS_STALL; break; default: pUrb->enmStatus = VUSBSTATUS_INVALID; break; } pUrb->Dev.pvPrivate = NULL; switch (pUrb->enmType) { case VUSBXFERTYPE_MSG: pUrb->cbData = pEndpointFBSD->acbData[0] + pEndpointFBSD->acbData[1]; break; case VUSBXFERTYPE_ISOC: { int n; if (pUrb->enmDir == VUSBDIRECTION_OUT) break; pUrb->cbData = 0; for (n = 0; n < (int)pUrb->cIsocPkts; n++) { if (n >= (int)pEndpointFBSD->cMaxFrames) break; pUrb->cbData += pEndpointFBSD->acbData[n]; pUrb->aIsocPkts[n].cb = pEndpointFBSD->acbData[n]; } for (; n < (int)pUrb->cIsocPkts; n++) pUrb->aIsocPkts[n].cb = 0; break; } default: pUrb->cbData = pEndpointFBSD->acbData[0]; break; } LogFlow(("usbProxyFreeBSDUrbReap: Status=%d epindex=%u " "len[0]=%d len[1]=%d\n", (int)pXferEndpoint->status, (unsigned)UsbFsComplete.ep_index, (unsigned)pEndpointFBSD->acbData[0], (unsigned)pEndpointFBSD->acbData[1])); } else if (cMillies && rc == VERR_RESOURCE_BUSY) { /* Poll for finished transfers */ PollFd.fd = RTFileToNative(pDevFBSD->hFile); PollFd.events = POLLIN | POLLRDNORM; PollFd.revents = 0; rc = poll(&PollFd, 1, (cMillies == RT_INDEFINITE_WAIT) ? INFTIM : cMillies); if (rc >= 1) { goto repeat; } else { LogFlow(("usbProxyFreeBSDUrbReap: " "poll returned rc=%d\n", rc)); } } return pUrb; } /** * Cancels the URB. * The URB requires reaping, so we don't change its state. */ static void usbProxyFreeBSDUrbCancel(PVUSBURB pUrb) { PUSBPROXYDEV pProxyDev = PDMINS_2_DATA(pUrb->pUsbIns, PUSBPROXYDEV); int index; index = (int)(long)pUrb->Dev.pvPrivate - 1; if (index < 0 || index >= USBFBSD_MAXENDPOINTS) return; LogFlow(("usbProxyFreeBSDUrbCancel: epindex=%u\n", (unsigned)index)); usbProxyFreeBSDEndpointClose(pProxyDev, index); } /** * The FreeBSD USB Proxy Backend. */ extern const USBPROXYBACK g_USBProxyDeviceHost = { "host", usbProxyFreeBSDOpen, usbProxyFreeBSDInit, usbProxyFreeBSDClose, usbProxyFreeBSDReset, usbProxyFreeBSDSetConfig, usbProxyFreeBSDClaimInterface, usbProxyFreeBSDReleaseInterface, usbProxyFreeBSDSetInterface, usbProxyFreeBSDClearHaltedEp, usbProxyFreeBSDUrbQueue, usbProxyFreeBSDUrbCancel, usbProxyFreeBSDUrbReap, 0 }; /* * Local Variables: * mode: c * c-file-style: "bsd" * c-basic-offset: 4 * tab-width: 4 * indent-tabs-mode: s * End: */