/** @file * * VBox frontends: Basic Frontend (BFE): * Implementation of USBProxyServiceLinux class */ /* * Copyright (C) 2006-2007 innotek GmbH * * 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 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 * *******************************************************************************/ #include "USBProxyService.h" #include "Logging.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef VBOX_WITHOUT_LINUX_COMPILER_H # include #endif #include /******************************************************************************* * Structures and Typedefs * *******************************************************************************/ /** Suffix translation. */ typedef struct USBSUFF { char szSuff[4]; unsigned cchSuff; unsigned uMul; unsigned uDiv; } USBSUFF, *PUSBSUFF; typedef const USBSUFF *PCUSBSUFF; /******************************************************************************* * Global Variables * *******************************************************************************/ /** * Suffixes for the endpoint polling interval. */ static const USBSUFF s_aIntervalSuff[] = { { "ms", 2, 1, 0 }, { "us", 2, 1, 1000 }, { "ns", 2, 1, 1000000 }, { "s", 1, 1000, 0 }, { "", 0, 0, 0 } /* term */ }; /** * Initialize data members. */ USBProxyServiceLinux::USBProxyServiceLinux (HostUSB *aHost, const char *aUsbfsRoot /* = "/proc/bus/usb" */) : USBProxyService (aHost), mFile (NIL_RTFILE), mStream (NULL), mWakeupPipeR (NIL_RTFILE), mWakeupPipeW (NIL_RTFILE), mUsbfsRoot (aUsbfsRoot) { LogFlowMember (("USBProxyServiceLinux::USBProxyServiceLinux: aHost=%p aUsbfsRoot=%p:{%s}\n", aHost, aUsbfsRoot, aUsbfsRoot)); /* * Open the devices file. */ int rc = VERR_NO_MEMORY; char *pszDevices; RTStrAPrintf (&pszDevices, "%s/devices", aUsbfsRoot); if (pszDevices) { rc = RTFileOpen (&mFile, pszDevices, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_NONE); if (VBOX_SUCCESS (rc)) { /* * Check that we're actually on the usbfs. */ struct statfs StFS; if (!fstatfs (mFile, &StFS)) { if (StFS.f_type == USBDEVICE_SUPER_MAGIC) { int pipes[2]; if (!pipe (pipes)) { mWakeupPipeR = pipes[0]; mWakeupPipeW = pipes[1]; mStream = fdopen (mFile, "r"); if (mStream) { /* * Start the poller thread. */ rc = start(); if (VBOX_SUCCESS (rc)) { RTStrFree (pszDevices); LogFlowMember (("USBProxyServiceLinux::USBProxyServiceLinux: returns successfully - mFile=%d mStream=%p mWakeupPipeR/W=%d/%d\n", mFile, mStream, mWakeupPipeR, mWakeupPipeW)); return; } fclose (mStream); mStream = NULL; mFile = NIL_RTFILE; } RTFileClose (mWakeupPipeR); RTFileClose (mWakeupPipeW); mWakeupPipeW = mWakeupPipeR = NIL_RTFILE; } } else { Log (("USBProxyServiceLinux::USBProxyServiceLinux: StFS.f_type=%d expected=%d\n", StFS.f_type, USBDEVICE_SUPER_MAGIC)); rc = VERR_INVALID_PARAMETER; } } else { rc = RTErrConvertFromErrno (errno); Log (("USBProxyServiceLinux::USBProxyServiceLinux: fstatfs failed, errno=%d\n", errno)); } RTFileClose (mFile); mFile = NIL_RTFILE; } else { #ifndef DEBUG_fm3 /* I'm currently using Linux with disabled USB support */ AssertRC (rc); #endif Log (("USBProxyServiceLinux::USBProxyServiceLinux: RTFileOpen(,%s,,) -> %Vrc\n", pszDevices, rc)); } RTStrFree (pszDevices); } else Log (("USBProxyServiceLinux::USBProxyServiceLinux: out of memory!\n")); mLastError = rc; LogFlowMember (("USBProxyServiceLinux::USBProxyServiceLinux: returns failure!!! (rc=%Vrc)\n", rc)); } /** * Stop all service threads and free the device chain. */ USBProxyServiceLinux::~USBProxyServiceLinux() { LogFlowMember (("USBProxyServiceLinux::~USBProxyServiceLinux:\n")); /* * Stop the service. */ if (isActive()) stop(); /* * Free resources. */ if (mStream) { fclose (mStream); mStream = NULL; mFile = NIL_RTFILE; } else if (mFile != NIL_RTFILE) { RTFileClose (mFile); mFile = NIL_RTFILE; } RTFileClose (mWakeupPipeR); RTFileClose (mWakeupPipeW); mWakeupPipeW = mWakeupPipeR = NIL_RTFILE; } int USBProxyServiceLinux::captureDevice (HostUSBDevice *aDevice) { /* * Don't think we need to do anything when the device is held... */ return VINF_SUCCESS; } int USBProxyServiceLinux::holdDevice (HostUSBDevice *pDevice) { /* * This isn't really implemented, we can usually wrestle * any user when we need it... Anyway, I don't have anywhere to store * any info per device atm. */ return VINF_SUCCESS; } int USBProxyServiceLinux::releaseDevice (HostUSBDevice *aDevice) { /* * We're not really holding it atm. */ return VINF_SUCCESS; } int USBProxyServiceLinux::resetDevice (HostUSBDevice *aDevice) { /* * We don't dare reset anything, but the USB Proxy Device * will reset upon detach, so this should be ok. */ return VINF_SUCCESS; } int USBProxyServiceLinux::wait (unsigned aMillies) { struct pollfd PollFds[2]; memset(&PollFds, 0, sizeof(PollFds)); PollFds[0].fd = mFile; PollFds[0].events = POLLIN; PollFds[1].fd = mWakeupPipeR; PollFds[1].events = POLLIN | POLLERR | POLLHUP; int rc = poll (&PollFds[0], 2, aMillies); if (rc == 0) return VERR_TIMEOUT; if (rc > 0) return VINF_SUCCESS; return RTErrConvertFromErrno (errno); } int USBProxyServiceLinux::interruptWait (void) { int rc = RTFileWrite (mWakeupPipeW, "Wakeup!", sizeof("Wakeup!") - 1, NULL); if (VBOX_SUCCESS (rc)) fsync (mWakeupPipeW); return rc; } /** * "reads" the number suffix. It's more like validating it and * skipping the necessary number of chars. */ static int usbReadSkipSuffix (char **ppszNext) { char *pszNext = *ppszNext; if (!isspace (*pszNext) && *pszNext) { /* skip unit */ if (pszNext[0] == 'm' && pszNext[1] == 's') pszNext += 2; else if (pszNext[0] == 'm' && pszNext[1] == 'A') pszNext += 2; /* skip parenthesis */ if (*pszNext == '(') { pszNext = strchr (pszNext, ')'); if (!pszNext++) { AssertMsgFailed (("*ppszNext=%s\n", *ppszNext)); return VERR_PARSE_ERROR; } } /* blank or end of the line. */ if (!isspace (*pszNext) && *pszNext) { AssertMsgFailed (("pszNext=%s\n", pszNext)); return VERR_PARSE_ERROR; } /* it's ok. */ *ppszNext = pszNext; } return VINF_SUCCESS; } /** * Reads a USB number returning the number and the position of the next character to parse. */ static int usbReadNum (const char *pszValue, unsigned uBase, uint32_t u32Mask, PCUSBSUFF paSuffs, void *pvNum, char **ppszNext) { /* * Initialize return value to zero and strip leading spaces. */ switch (u32Mask) { case 0xff: *(uint8_t *)pvNum = 0; break; case 0xffff: *(uint16_t *)pvNum = 0; break; case 0xffffffff: *(uint32_t *)pvNum = 0; break; } pszValue = RTStrStripL (pszValue); if (*pszValue) { /* * Try convert the number. */ char *pszNext; uint32_t u32 = 0; RTStrToUInt32Ex (pszValue, &pszNext, uBase, &u32); if (pszNext == pszValue) { AssertMsgFailed (("pszValue=%d\n", pszValue)); return VERR_NO_DATA; } /* * Check the range. */ if (u32 & ~u32Mask) { AssertMsgFailed (("pszValue=%d u32=%#x lMask=%#x\n", pszValue, u32, u32Mask)); return VERR_OUT_OF_RANGE; } /* * Validate and skip stuff following the number. */ if (paSuffs) { if (!isspace (*pszNext) && *pszNext) { for (PCUSBSUFF pSuff = paSuffs; pSuff->szSuff[0]; pSuff++) { if ( !strncmp (pSuff->szSuff, pszNext, pSuff->cchSuff) && (!pszNext[pSuff->cchSuff] || isspace (pszNext[pSuff->cchSuff]))) { if (pSuff->uDiv) u32 /= pSuff->uDiv; else u32 *= pSuff->uMul; break; } } } } else { int rc = usbReadSkipSuffix (&pszNext); if (VBOX_FAILURE (rc)) return rc; } *ppszNext = pszNext; /* * Set the value. */ switch (u32Mask) { case 0xff: *(uint8_t *)pvNum = (uint8_t)u32; break; case 0xffff: *(uint16_t *)pvNum = (uint16_t)u32; break; case 0xffffffff: *(uint32_t *)pvNum = (uint32_t)u32; break; } } return VINF_SUCCESS; } static int usbRead8 (const char *pszValue, unsigned uBase, uint8_t *pu8, char **ppszNext) { return usbReadNum (pszValue, uBase, 0xff, NULL, pu8, ppszNext); } static int usbRead16 (const char *pszValue, unsigned uBase, uint16_t *pu16, char **ppszNext) { return usbReadNum (pszValue, uBase, 0xffff, NULL, pu16, ppszNext); } static int usbRead16Suff (const char *pszValue, unsigned uBase, PCUSBSUFF paSuffs, uint16_t *pu16, char **ppszNext) { return usbReadNum (pszValue, uBase, 0xffff, paSuffs, pu16, ppszNext); } /** * Reads a USB BCD number returning the number and the position of the next character to parse. * The returned number contains the integer part in the high byte and the decimal part in the low byte. */ static int usbReadBCD (const char *pszValue, unsigned uBase, uint16_t *pu16, char **ppszNext) { /* * Initialize return value to zero and strip leading spaces. */ *pu16 = 0; pszValue = RTStrStripL (pszValue); if (*pszValue) { /* * Try convert the number. */ /* integer part */ char *pszNext; uint32_t u32Int = 0; RTStrToUInt32Ex (pszValue, &pszNext, uBase, &u32Int); if (pszNext == pszValue) { AssertMsgFailed (("pszValue=%s\n", pszValue)); return VERR_NO_DATA; } if (u32Int & ~0xff) { AssertMsgFailed (("pszValue=%s u32Int=%#x (int)\n", pszValue, u32Int)); return VERR_OUT_OF_RANGE; } /* skip dot and read decimal part */ if (*pszNext != '.') { AssertMsgFailed (("pszValue=%s pszNext=%s (int)\n", pszValue, pszNext)); return VERR_PARSE_ERROR; } char *pszValue2 = RTStrStripL (pszNext + 1); uint32_t u32Dec = 0; RTStrToUInt32Ex (pszValue2, &pszNext, uBase, &u32Dec); if (pszNext == pszValue) { AssertMsgFailed (("pszValue=%s\n", pszValue)); return VERR_NO_DATA; } if (u32Dec & ~0xff) { AssertMsgFailed (("pszValue=%s u32Dec=%#x\n", pszValue, u32Dec)); return VERR_OUT_OF_RANGE; } /* * Validate and skip stuff following the number. */ int rc = usbReadSkipSuffix (&pszNext); if (VBOX_FAILURE (rc)) return rc; *ppszNext = pszNext; /* * Set the value. */ *pu16 = (uint16_t)u32Int << 8 | (uint16_t)u32Dec; } return VINF_SUCCESS; } /** * Reads a string, i.e. allocates memory and copies it. * * We assume that a string is pure ASCII, if that's not the case * tell me how to figure out the codeset please. */ static int usbReadStr (const char *pszValue, const char **ppsz) { if (*ppsz) RTStrFree ((char *)*ppsz); *ppsz = RTStrDup (pszValue); if (*ppsz) return VINF_SUCCESS; return VERR_NO_MEMORY; } /** * Skips the current property. */ static char * usbReadSkip (const char *pszValue) { char *psz = strchr (pszValue, '='); if (psz) psz = strchr (psz + 1, '='); if (!psz) return strchr (pszValue, '\0'); while (psz > pszValue && !isspace (psz[-1])) psz--; Assert (psz > pszValue); return psz; } /** * Compare a prefix and returns pointer to the char following it if it matches. */ static char *usbPrefix (char *psz, const char *pszPref, size_t cchPref) { if (strncmp (psz, pszPref, cchPref)) return NULL; return psz + cchPref; } /** * Checks which state the device is in. */ static USBDEVICESTATE usbDeterminState (PCUSBDEVICE pDevice) { if (!pDevice->idVendor) return USBDEVICESTATE_UNSUPPORTED; /* * We cannot distinguish between USED_BY_HOST_CAPTURABLE and * USED_BY_GUEST, HELD_BY_PROXY all that well and it shouldn't be * necessary either. */ USBDEVICESTATE enmState = USBDEVICESTATE_UNUSED; for (int iCfg = pDevice->bNumConfigurations - 1; iCfg >= 0; iCfg--) for (int iIf = pDevice->paConfigurations[iCfg].bConfigurationValue - 1; iIf >= 0; iIf--) { const char *pszDriver = pDevice->paConfigurations[iCfg].paInterfaces[iIf].pszDriver; if (pszDriver) { if (!strcmp (pszDriver, "hub")) { enmState = USBDEVICESTATE_USED_BY_HOST; break; } enmState = USBDEVICESTATE_USED_BY_HOST_CAPTURABLE; } } return enmState; } PUSBDEVICE USBProxyServiceLinux::getDevices (void) { PUSBDEVICE pFirst = NULL; if (mStream) { PUSBDEVICE *ppNext = NULL; USBDEVICE Dev = {0}; int cHits = 0; int iCfg = 0; PUSBCONFIG pCfg = NULL; PUSBINTERFACE pIf = NULL; int iEp = 0; PUSBENDPOINT pEp = NULL; char szLine[1024]; rewind (mStream); int rc = VINF_SUCCESS; while ( VBOX_SUCCESS (rc) && fgets (szLine, sizeof (szLine), mStream)) { char *psz; char *pszValue; /* validate and remove the trailing newline. */ psz = strchr (szLine, '\0'); if (psz[-1] != '\n' && !feof (mStream)) { AssertMsgFailed (("Line too long. (cch=%d)\n", strlen (szLine))); continue; } /* strip */ psz = RTStrStrip (szLine); if (!*psz) continue; /* * Interpret the line. * (Ordered by normal occurence.) */ char ch = psz[0]; if (psz[1] != ':') continue; psz = RTStrStripL (psz + 3); #define PREFIX(str) ( (pszValue = usbPrefix (psz, str, sizeof (str) - 1)) != NULL ) switch (ch) { /* * T: Bus=dd Lev=dd Prnt=dd Port=dd Cnt=dd Dev#=ddd Spd=ddd MxCh=dd * | | | | | | | | |__MaxChildren * | | | | | | | |__Device Speed in Mbps * | | | | | | |__DeviceNumber * | | | | | |__Count of devices at this level * | | | | |__Connector/Port on Parent for this device * | | | |__Parent DeviceNumber * | | |__Level in topology for this bus * | |__Bus number * |__Topology info tag */ case 'T': /* add */ AssertMsg (cHits >= 3 || cHits == 0, ("cHits=%d\n", cHits)); if (cHits >= 3) { Dev.enmState = usbDeterminState (&Dev); PUSBDEVICE pDev = (PUSBDEVICE) RTMemAlloc (sizeof(*pDev)); if (pDev) { *pDev = Dev; if (Dev.enmState != USBDEVICESTATE_UNSUPPORTED) { RTStrAPrintf((char **)&pDev->pszAddress, "%s/%03d/%03d", mUsbfsRoot.c_str(), pDev->bBus, pDev->bDevNum); if (pDev->pszAddress) { if (ppNext) *ppNext = pDev; else pFirst = pDev; ppNext = &pDev->pNext; } else { freeDevice (pDev); rc = VERR_NO_MEMORY; } } else freeDevice (pDev); memset (&Dev, 0, sizeof (Dev)); } else rc = VERR_NO_MEMORY; } /* Reset device state */ cHits = 1; iCfg = 0; pCfg = NULL; pIf = NULL; iEp = 0; pEp = NULL; /* parse the line. */ while (*psz && VBOX_SUCCESS (rc)) { if (PREFIX ("Bus=")) rc = usbRead8 (pszValue, 10, &Dev.bBus, &psz); else if (PREFIX ("Lev=")) rc = usbRead8 (pszValue, 10, &Dev.bLevel, &psz); else if (PREFIX ("Dev#=")) rc = usbRead8 (pszValue, 10, &Dev.bDevNum, &psz); else if (PREFIX ("Prnt=")) rc = usbRead8 (pszValue, 10, &Dev.bDevNumParent, &psz); else if (PREFIX ("Port=")) rc = usbRead8 (pszValue, 10, &Dev.bPort, &psz); else if (PREFIX ("Cnt=")) rc = usbRead8 (pszValue, 10, &Dev.bNumDevices, &psz); //else if (PREFIX ("Spd=")) // rc = usbReadSpeed (pszValue, &Dev.cbSpeed, &psz); else if (PREFIX ("MxCh=")) rc = usbRead8 (pszValue, 10, &Dev.bMaxChildren, &psz); else psz = usbReadSkip (psz); psz = RTStrStripL (psz); } break; /* * Bandwidth info: * B: Alloc=ddd/ddd us (xx%), #Int=ddd, #Iso=ddd * | | | |__Number of isochronous requests * | | |__Number of interrupt requests * | |__Total Bandwidth allocated to this bus * |__Bandwidth info tag */ case 'B': break; /* * D: Ver=x.xx Cls=xx(sssss) Sub=xx Prot=xx MxPS=dd #Cfgs=dd * | | | | | | |__NumberConfigurations * | | | | | |__MaxPacketSize of Default Endpoint * | | | | |__DeviceProtocol * | | | |__DeviceSubClass * | | |__DeviceClass * | |__Device USB version * |__Device info tag #1 */ case 'D': while (*psz && VBOX_SUCCESS (rc)) { if (PREFIX ("Ver=")) rc = usbReadBCD (pszValue, 16, &Dev.bcdUSB, &psz); else if (PREFIX ("Cls=")) rc = usbRead8 (pszValue, 16, &Dev.bDeviceClass, &psz); else if (PREFIX ("Sub=")) rc = usbRead8 (pszValue, 16, &Dev.bDeviceSubClass, &psz); else if (PREFIX ("Prot=")) rc = usbRead8 (pszValue, 16, &Dev.bDeviceProtocol, &psz); //else if (PREFIX ("MxPS=")) // rc = usbRead16 (pszValue, 10, &Dev.wMaxPacketSize, &psz); else if (PREFIX ("#Cfgs=")) rc = usbRead8 (pszValue, 10, &Dev.bNumConfigurations, &psz); else psz = usbReadSkip (psz); psz = RTStrStripL (psz); } cHits++; break; /* * P: Vendor=xxxx ProdID=xxxx Rev=xx.xx * | | | |__Product revision number * | | |__Product ID code * | |__Vendor ID code * |__Device info tag #2 */ case 'P': while (*psz && VBOX_SUCCESS (rc)) { if (PREFIX ("Vendor=")) rc = usbRead16 (pszValue, 16, &Dev.idVendor, &psz); else if (PREFIX ("ProdID=")) rc = usbRead16 (pszValue, 16, &Dev.idProduct, &psz); else if (PREFIX ("Rev=")) rc = usbReadBCD (pszValue, 16, &Dev.bcdDevice, &psz); else psz = usbReadSkip (psz); psz = RTStrStripL (psz); } cHits++; break; /* * String. */ case 'S': if (PREFIX ("Manufacturer=")) rc = usbReadStr (pszValue, &Dev.pszManufacturer); else if (PREFIX ("Product=")) rc = usbReadStr (pszValue, &Dev.pszProduct); else if (PREFIX ("SerialNumber=")) { rc = usbReadStr (pszValue, &Dev.pszSerialNumber); if (VBOX_SUCCESS (rc)) Dev.u64SerialHash = calcSerialHash (pszValue); } break; /* * C:* #Ifs=dd Cfg#=dd Atr=xx MPwr=dddmA * | | | | | |__MaxPower in mA * | | | | |__Attributes * | | | |__ConfiguratioNumber * | | |__NumberOfInterfaces * | |__ "*" indicates the active configuration (others are " ") * |__Config info tag */ case 'C': { USBCONFIG Cfg = {0}; Cfg.fActive = psz[-2] == '*'; while (*psz && VBOX_SUCCESS (rc)) { if (PREFIX ("#Ifs=")) rc = usbRead8 (pszValue, 10, &Cfg.bNumInterfaces, &psz); else if (PREFIX ("Cfg#=")) rc = usbRead8 (pszValue, 10, &Cfg.bConfigurationValue, &psz); else if (PREFIX ("Atr=")) rc = usbRead8 (pszValue, 16, &Cfg.bmAttributes, &psz); else if (PREFIX ("MxPwr=")) rc = usbRead16 (pszValue, 10, &Cfg.u16MaxPower, &psz); else psz = usbReadSkip (psz); psz = RTStrStripL (psz); } if (VBOX_SUCCESS (rc)) { if (iCfg < Dev.bNumConfigurations) { /* Add the config. */ if (!Dev.paConfigurations) { Dev.paConfigurations = pCfg = (PUSBCONFIG) RTMemAllocZ (sizeof (Cfg) * Dev.bNumConfigurations); if (pCfg) { *pCfg = Cfg; iCfg = 1; } else rc = VERR_NO_MEMORY; } else { *++pCfg = Cfg; iCfg++; } } else { AssertMsgFailed (("iCfg=%d bNumConfigurations=%d\n", iCfg, Dev.bNumConfigurations)); rc = VERR_INTERNAL_ERROR; } } /* new config, so, start anew with interfaces and endpoints. */ pIf = NULL; iEp = 0; pEp = NULL; break; } /* * I: If#=dd Alt=dd #EPs=dd Cls=xx(sssss) Sub=xx Prot=xx Driver=ssss * | | | | | | | |__Driver name * | | | | | | | or "(none)" * | | | | | | |__InterfaceProtocol * | | | | | |__InterfaceSubClass * | | | | |__InterfaceClass * | | | |__NumberOfEndpoints * | | |__AlternateSettingNumber * | |__InterfaceNumber * |__Interface info tag */ case 'I': { USBINTERFACE If = {0}; while (*psz && VBOX_SUCCESS (rc)) { if (PREFIX ("If#=")) rc = usbRead8 (pszValue, 10, &If.bInterfaceNumber, &psz); else if (PREFIX ("Alt=")) rc = usbRead8 (pszValue, 10, &If.bAlternateSetting, &psz); else if (PREFIX ("#EPs=")) rc = usbRead8 (pszValue, 10, &If.bNumEndpoints, &psz); else if (PREFIX ("Cls=")) rc = usbRead8 (pszValue, 16, &If.bInterfaceClass, &psz); else if (PREFIX ("Sub=")) rc = usbRead8 (pszValue, 16, &If.bInterfaceSubClass, &psz); else if (PREFIX ("Prot=")) rc = usbRead8 (pszValue, 16, &If.bInterfaceProtocol, &psz); else if (PREFIX ("Driver=")) { rc = usbReadStr (pszValue, &If.pszDriver); if ( If.pszDriver && ( !strcmp (If.pszDriver, "(none)") || !strcmp (If.pszDriver, "(no driver)")) || !*If.pszDriver) { RTStrFree ((char *)If.pszDriver); If.pszDriver = NULL; } break; } else psz = usbReadSkip (psz); psz = RTStrStripL (psz); } if (VBOX_SUCCESS (rc)) { if (pCfg && If.bInterfaceNumber < pCfg->bNumInterfaces) { /* Add the config. */ if (!pCfg->paInterfaces) { pCfg->paInterfaces = pIf = (PUSBINTERFACE) RTMemAllocZ (sizeof (If) * pCfg->bNumInterfaces); if (pIf) { Assert (!If.bInterfaceNumber); Assert (!If.bAlternateSetting); *pIf = If; } else rc = VERR_NO_MEMORY; } else { /* * Alternate settings makes life *difficult*! * ASSUMES: ORDER ASC bInterfaceNumber, bAlternateSetting */ pIf = &pCfg->paInterfaces[If.bInterfaceNumber]; if (!If.bAlternateSetting) *pIf = If; else { PUSBINTERFACE paAlts = (PUSBINTERFACE) RTMemRealloc (pIf->paAlts, (pIf->cAlts + 1) * sizeof(*pIf)); if (paAlts) { pIf->paAlts = paAlts; pIf = &paAlts[pIf->cAlts++]; *pIf = If; } else rc = VERR_NO_MEMORY; } } } else { AssertMsgFailed (("iCfg=%d bInterfaceNumber=%d bNumInterfaces=%d\n", iCfg, If.bInterfaceNumber, pCfg->bNumInterfaces)); rc = VERR_INTERNAL_ERROR; } } /* start anew with endpoints. */ iEp = 0; pEp = NULL; break; } /* * E: Ad=xx(s) Atr=xx(ssss) MxPS=dddd Ivl=dddms * | | | | |__Interval (max) between transfers * | | | |__EndpointMaxPacketSize * | | |__Attributes(EndpointType) * | |__EndpointAddress(I=In,O=Out) * |__Endpoint info tag */ case 'E': { USBENDPOINT Ep = {0}; while (*psz && VBOX_SUCCESS (rc)) { if (PREFIX ("Ad=")) rc = usbRead8 (pszValue, 16, &Ep.bEndpointAddress, &psz); else if (PREFIX ("Atr=")) rc = usbRead8 (pszValue, 16, &Ep.bmAttributes, &psz); else if (PREFIX ("MxPS=")) rc = usbRead16 (pszValue, 10, &Ep.wMaxPacketSize, &psz); else if (PREFIX ("Ivl=")) rc = usbRead16Suff (pszValue, 10, &s_aIntervalSuff[0], &Ep.u16Interval, &psz); else psz = usbReadSkip (psz); psz = RTStrStripL (psz); } if (VBOX_SUCCESS (rc)) { if (pIf && iEp < pIf->bNumEndpoints) { /* Add the config. */ if (!pIf->paEndpoints) { pIf->paEndpoints = pEp = (PUSBENDPOINT) RTMemAllocZ (sizeof (Ep) * pIf->bNumEndpoints); if (pEp) { *pEp = Ep; iEp = 1; } else rc = VERR_NO_MEMORY; } else { *++pEp = Ep; iEp++; } } else { AssertMsgFailed (("iCfg=%d bInterfaceNumber=%d iEp=%d bNumInterfaces=%d\n", iCfg, pIf->bInterfaceNumber, iEp, pIf->bNumEndpoints)); rc = VERR_INTERNAL_ERROR; } } break; } } #undef PREFIX } /* parse loop */ /* * Add the current entry. */ AssertMsg (cHits >= 3 || cHits == 0, ("cHits=%d\n", cHits)); if (cHits >= 3) { Dev.enmState = usbDeterminState (&Dev); PUSBDEVICE pDev = (PUSBDEVICE) RTMemAlloc (sizeof(*pDev)); if (pDev) { *pDev = Dev; if (Dev.enmState != USBDEVICESTATE_UNSUPPORTED) { RTStrAPrintf((char **)&pDev->pszAddress, "%s/%03d/%03d", mUsbfsRoot.c_str(), pDev->bBus, pDev->bDevNum); if (pDev->pszAddress) { if (ppNext) *ppNext = pDev; else pFirst = pDev; ppNext = &pDev->pNext; } else { rc = VERR_NO_MEMORY; freeDevice (pDev); } } else freeDevice (pDev); } else rc = VERR_NO_MEMORY; } /* * Success? */ if (VBOX_FAILURE (rc)) { LogFlow (("USBProxyServiceLinux::getDevices: rc=%Vrc\n", rc)); while (pFirst) { PUSBDEVICE pFree = pFirst; pFirst = pFirst->pNext; freeDevice (pFree); } } } return pFirst; }