/* $Id: VBoxGuest-solaris.c $ */ /** @file * VirtualBox Guest Additions Driver for Solaris. */ /* * Copyright (C) 2007-2019 Oracle Corporation * * 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. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #undef u /* /usr/include/sys/user.h:249:1 is where this is defined to (curproc->p_user). very cool. */ #include "VBoxGuestInternal.h" #include #include #include #include #include #include #include #include /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /** The module name. */ #define DEVICE_NAME "vboxguest" /** The module description as seen in 'modinfo'. */ #define DEVICE_DESC "VirtualBox GstDrv" /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ static int vgdrvSolarisOpen(dev_t *pDev, int fFlag, int fType, cred_t *pCred); static int vgdrvSolarisClose(dev_t Dev, int fFlag, int fType, cred_t *pCred); static int vgdrvSolarisRead(dev_t Dev, struct uio *pUio, cred_t *pCred); static int vgdrvSolarisWrite(dev_t Dev, struct uio *pUio, cred_t *pCred); static int vgdrvSolarisIOCtl(dev_t Dev, int iCmd, intptr_t pArg, int Mode, cred_t *pCred, int *pVal); static int vgdrvSolarisIOCtlSlow(PVBOXGUESTSESSION pSession, int iCmd, int Mode, intptr_t iArgs); static int vgdrvSolarisPoll(dev_t Dev, short fEvents, int fAnyYet, short *pReqEvents, struct pollhead **ppPollHead); static int vgdrvSolarisGetInfo(dev_info_t *pDip, ddi_info_cmd_t enmCmd, void *pArg, void **ppResult); static int vgdrvSolarisAttach(dev_info_t *pDip, ddi_attach_cmd_t enmCmd); static int vgdrvSolarisDetach(dev_info_t *pDip, ddi_detach_cmd_t enmCmd); static int vgdrvSolarisQuiesce(dev_info_t *pDip); static int vgdrvSolarisAddIRQ(dev_info_t *pDip); static void vgdrvSolarisRemoveIRQ(dev_info_t *pDip); static uint_t vgdrvSolarisHighLevelISR(caddr_t Arg); static uint_t vgdrvSolarisISR(caddr_t Arg); /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** * cb_ops: for drivers that support char/block entry points */ static struct cb_ops g_vgdrvSolarisCbOps = { vgdrvSolarisOpen, vgdrvSolarisClose, nodev, /* b strategy */ nodev, /* b dump */ nodev, /* b print */ vgdrvSolarisRead, vgdrvSolarisWrite, vgdrvSolarisIOCtl, nodev, /* c devmap */ nodev, /* c mmap */ nodev, /* c segmap */ vgdrvSolarisPoll, ddi_prop_op, /* property ops */ NULL, /* streamtab */ D_NEW | D_MP, /* compat. flag */ CB_REV /* revision */ }; /** * dev_ops: for driver device operations */ static struct dev_ops g_vgdrvSolarisDevOps = { DEVO_REV, /* driver build revision */ 0, /* ref count */ vgdrvSolarisGetInfo, nulldev, /* identify */ nulldev, /* probe */ vgdrvSolarisAttach, vgdrvSolarisDetach, nodev, /* reset */ &g_vgdrvSolarisCbOps, (struct bus_ops *)0, nodev, /* power */ vgdrvSolarisQuiesce }; /** * modldrv: export driver specifics to the kernel */ static struct modldrv g_vgdrvSolarisModule = { &mod_driverops, /* extern from kernel */ DEVICE_DESC " " VBOX_VERSION_STRING "r" RT_XSTR(VBOX_SVN_REV), &g_vgdrvSolarisDevOps }; /** * modlinkage: export install/remove/info to the kernel */ static struct modlinkage g_vgdrvSolarisModLinkage = { MODREV_1, /* loadable module system revision */ &g_vgdrvSolarisModule, NULL /* terminate array of linkage structures */ }; /** * State info for each open file handle. */ typedef struct { /** Pointer to the session handle. */ PVBOXGUESTSESSION pSession; /** The process reference for posting signals */ void *pvProcRef; } vboxguest_state_t; /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ /** Device handle (we support only one instance). */ static dev_info_t *g_pDip = NULL; /** Opaque pointer to file-descriptor states */ static void *g_pvgdrvSolarisState = NULL; /** Device extention & session data association structure. */ static VBOXGUESTDEVEXT g_DevExt; /** IO port handle. */ static ddi_acc_handle_t g_PciIOHandle; /** MMIO handle. */ static ddi_acc_handle_t g_PciMMIOHandle; /** IO Port. */ static uint16_t g_uIOPortBase; /** Address of the MMIO region.*/ static caddr_t g_pMMIOBase; /** Size of the MMIO region. */ static off_t g_cbMMIO; /** Pointer to an array of interrupt handles. */ static ddi_intr_handle_t *g_pahIntrs; /** Handle to the soft interrupt. */ static ddi_softint_handle_t g_hSoftIntr; /** The pollhead structure */ static pollhead_t g_PollHead; /** The IRQ Mutex */ static kmutex_t g_IrqMtx; /** The IRQ high-level Mutex. */ static kmutex_t g_HighLevelIrqMtx; /** Whether soft-ints are setup. */ static bool g_fSoftIntRegistered = false; /** Additional IPRT function we need to drag in for vboxfs. */ PFNRT g_Deps[] = { (PFNRT)RTErrConvertToErrno, }; /** * Kernel entry points */ int _init(void) { /* * Initialize IPRT R0 driver, which internally calls OS-specific r0 init. */ int rc = RTR0Init(0); if (RT_SUCCESS(rc)) { PRTLOGGER pRelLogger; static const char * const s_apszGroups[] = VBOX_LOGGROUP_NAMES; rc = RTLogCreate(&pRelLogger, 0 /* fFlags */, "all", "VBOX_RELEASE_LOG", RT_ELEMENTS(s_apszGroups), s_apszGroups, RTLOGDEST_STDOUT | RTLOGDEST_DEBUGGER, NULL); if (RT_SUCCESS(rc)) RTLogRelSetDefaultInstance(pRelLogger); else cmn_err(CE_NOTE, "failed to initialize driver logging rc=%d!\n", rc); /* * Prevent module autounloading. */ modctl_t *pModCtl = mod_getctl(&g_vgdrvSolarisModLinkage); if (pModCtl) pModCtl->mod_loadflags |= MOD_NOAUTOUNLOAD; else LogRel((DEVICE_NAME ": failed to disable autounloading!\n")); rc = ddi_soft_state_init(&g_pvgdrvSolarisState, sizeof(vboxguest_state_t), 1); if (!rc) { rc = mod_install(&g_vgdrvSolarisModLinkage); if (rc) ddi_soft_state_fini(&g_pvgdrvSolarisState); } } else { cmn_err(CE_NOTE, "_init: RTR0Init failed. rc=%d\n", rc); return EINVAL; } return rc; } int _fini(void) { LogFlow((DEVICE_NAME ":_fini\n")); int rc = mod_remove(&g_vgdrvSolarisModLinkage); if (!rc) ddi_soft_state_fini(&g_pvgdrvSolarisState); RTLogDestroy(RTLogRelSetDefaultInstance(NULL)); RTLogDestroy(RTLogSetDefaultInstance(NULL)); if (!rc) RTR0Term(); return rc; } int _info(struct modinfo *pModInfo) { /* LogFlow((DEVICE_NAME ":_info\n")); - Called too early, causing RTThreadPreemtIsEnabled warning. */ return mod_info(&g_vgdrvSolarisModLinkage, pModInfo); } /** * Attach entry point, to attach a device to the system or resume it. * * @param pDip The module structure instance. * @param enmCmd Attach type (ddi_attach_cmd_t) * * @return corresponding solaris error code. */ static int vgdrvSolarisAttach(dev_info_t *pDip, ddi_attach_cmd_t enmCmd) { LogFlow(("vgdrvSolarisAttach:\n")); switch (enmCmd) { case DDI_ATTACH: { if (g_pDip) { LogRel(("vgdrvSolarisAttach: Only one instance supported.\n")); return DDI_FAILURE; } int instance = ddi_get_instance(pDip); /* * Enable resources for PCI access. */ ddi_acc_handle_t PciHandle; int rc = pci_config_setup(pDip, &PciHandle); if (rc == DDI_SUCCESS) { /* * Map the register address space. */ caddr_t baseAddr; ddi_device_acc_attr_t deviceAttr; deviceAttr.devacc_attr_version = DDI_DEVICE_ATTR_V0; deviceAttr.devacc_attr_endian_flags = DDI_NEVERSWAP_ACC; deviceAttr.devacc_attr_dataorder = DDI_STRICTORDER_ACC; deviceAttr.devacc_attr_access = DDI_DEFAULT_ACC; rc = ddi_regs_map_setup(pDip, 1, &baseAddr, 0, 0, &deviceAttr, &g_PciIOHandle); if (rc == DDI_SUCCESS) { /* * Read size of the MMIO region. */ g_uIOPortBase = (uintptr_t)baseAddr; rc = ddi_dev_regsize(pDip, 2, &g_cbMMIO); if (rc == DDI_SUCCESS) { rc = ddi_regs_map_setup(pDip, 2, &g_pMMIOBase, 0, g_cbMMIO, &deviceAttr, &g_PciMMIOHandle); if (rc == DDI_SUCCESS) { /* * Call the common device extension initializer. */ rc = VGDrvCommonInitDevExt(&g_DevExt, g_uIOPortBase, g_pMMIOBase, g_cbMMIO, #if ARCH_BITS == 64 VBOXOSTYPE_Solaris_x64, #else VBOXOSTYPE_Solaris, #endif VMMDEV_EVENT_MOUSE_POSITION_CHANGED); if (RT_SUCCESS(rc)) { /* * Add IRQ of VMMDev. */ rc = vgdrvSolarisAddIRQ(pDip); if (rc == DDI_SUCCESS) { /* * Read host configuration. */ VGDrvCommonProcessOptionsFromHost(&g_DevExt); rc = ddi_create_minor_node(pDip, DEVICE_NAME, S_IFCHR, instance, DDI_PSEUDO, 0 /* fFlags */); if (rc == DDI_SUCCESS) { g_pDip = pDip; pci_config_teardown(&PciHandle); return DDI_SUCCESS; } LogRel((DEVICE_NAME "::Attach: ddi_create_minor_node failed.\n")); vgdrvSolarisRemoveIRQ(pDip); } else LogRel((DEVICE_NAME "::Attach: vgdrvSolarisAddIRQ failed.\n")); VGDrvCommonDeleteDevExt(&g_DevExt); } else LogRel((DEVICE_NAME "::Attach: VGDrvCommonInitDevExt failed.\n")); ddi_regs_map_free(&g_PciMMIOHandle); } else LogRel((DEVICE_NAME "::Attach: ddi_regs_map_setup for MMIO region failed.\n")); } else LogRel((DEVICE_NAME "::Attach: ddi_dev_regsize for MMIO region failed.\n")); ddi_regs_map_free(&g_PciIOHandle); } else LogRel((DEVICE_NAME "::Attach: ddi_regs_map_setup for IOport failed.\n")); pci_config_teardown(&PciHandle); } else LogRel((DEVICE_NAME "::Attach: pci_config_setup failed rc=%d.\n", rc)); return DDI_FAILURE; } case DDI_RESUME: { /** @todo implement resume for guest driver. */ return DDI_SUCCESS; } default: return DDI_FAILURE; } } /** * Detach entry point, to detach a device to the system or suspend it. * * @param pDip The module structure instance. * @param enmCmd Attach type (ddi_attach_cmd_t) * * @return corresponding solaris error code. */ static int vgdrvSolarisDetach(dev_info_t *pDip, ddi_detach_cmd_t enmCmd) { LogFlow(("vgdrvSolarisDetach:\n")); switch (enmCmd) { case DDI_DETACH: { vgdrvSolarisRemoveIRQ(pDip); ddi_regs_map_free(&g_PciIOHandle); ddi_regs_map_free(&g_PciMMIOHandle); ddi_remove_minor_node(pDip, NULL); VGDrvCommonDeleteDevExt(&g_DevExt); g_pDip = NULL; return DDI_SUCCESS; } case DDI_SUSPEND: { /** @todo implement suspend for guest driver. */ return DDI_SUCCESS; } default: return DDI_FAILURE; } } /** * Quiesce entry point, called by solaris kernel for disabling the device from * generating any interrupts or doing in-bound DMA. * * @param pDip The module structure instance. * * @return corresponding solaris error code. */ static int vgdrvSolarisQuiesce(dev_info_t *pDip) { int rc = ddi_intr_disable(g_pahIntrs[0]); if (rc != DDI_SUCCESS) return DDI_FAILURE; /** @todo What about HGCM/HGSMI touching guest-memory? */ return DDI_SUCCESS; } /** * Info entry point, called by solaris kernel for obtaining driver info. * * @param pDip The module structure instance (do not use). * @param enmCmd Information request type. * @param pvArg Type specific argument. * @param ppvResult Where to store the requested info. * * @return corresponding solaris error code. */ static int vgdrvSolarisGetInfo(dev_info_t *pDip, ddi_info_cmd_t enmCmd, void *pvArg, void **ppvResult) { LogFlow(("vgdrvSolarisGetInfo:\n")); int rc = DDI_SUCCESS; switch (enmCmd) { case DDI_INFO_DEVT2DEVINFO: *ppvResult = (void *)g_pDip; break; case DDI_INFO_DEVT2INSTANCE: *ppvResult = (void *)(uintptr_t)ddi_get_instance(g_pDip); break; default: rc = DDI_FAILURE; break; } NOREF(pvArg); return rc; } /** * User context entry points * * @remarks fFlags are the flags passed to open() or to ldi_open_by_name. In * the latter case the FKLYR flag is added to indicate that the caller * is a kernel component rather than user land. */ static int vgdrvSolarisOpen(dev_t *pDev, int fFlags, int fType, cred_t *pCred) { int rc; PVBOXGUESTSESSION pSession = NULL; LogFlow(("vgdrvSolarisOpen:\n")); /* * Verify we are being opened as a character device. */ if (fType != OTYP_CHR) return EINVAL; vboxguest_state_t *pState = NULL; unsigned iOpenInstance; for (iOpenInstance = 0; iOpenInstance < 4096; iOpenInstance++) { if ( !ddi_get_soft_state(g_pvgdrvSolarisState, iOpenInstance) /* faster */ && ddi_soft_state_zalloc(g_pvgdrvSolarisState, iOpenInstance) == DDI_SUCCESS) { pState = ddi_get_soft_state(g_pvgdrvSolarisState, iOpenInstance); break; } } if (!pState) { Log(("vgdrvSolarisOpen: too many open instances.")); return ENXIO; } /* * Create a new session. * * Note! The devfs inode with the gid isn't readily available here, so we cannot easily * to the vbox group detection like on linux. Read config instead? */ if (!(fFlags & FKLYR)) { uint32_t fRequestor = VMMDEV_REQUESTOR_USERMODE | VMMDEV_REQUESTOR_TRUST_NOT_GIVEN; if (crgetruid(pCred) == 0) fRequestor |= VMMDEV_REQUESTOR_USR_ROOT; else fRequestor |= VMMDEV_REQUESTOR_USR_USER; if (secpolicy_coreadm(pCred) == 0) fRequestor |= VMMDEV_REQUESTOR_GRP_WHEEL; /** @todo is there any way of detecting that the process belongs to someone on the physical console? * secpolicy_console() [== PRIV_SYS_DEVICES] doesn't look quite right, or does it? */ fRequestor |= VMMDEV_REQUESTOR_CON_DONT_KNOW; fRequestor |= VMMDEV_REQUESTOR_NO_USER_DEVICE; /** @todo implement vboxuser device node. */ rc = VGDrvCommonCreateUserSession(&g_DevExt, fRequestor, &pSession); } else rc = VGDrvCommonCreateKernelSession(&g_DevExt, &pSession); if (RT_SUCCESS(rc)) { if (!(fFlags & FKLYR)) pState->pvProcRef = proc_ref(); else pState->pvProcRef = NULL; pState->pSession = pSession; *pDev = makedevice(getmajor(*pDev), iOpenInstance); Log(("vgdrvSolarisOpen: pSession=%p pState=%p pid=%d\n", pSession, pState, (int)RTProcSelf())); return 0; } /* Failed, clean up. */ ddi_soft_state_free(g_pvgdrvSolarisState, iOpenInstance); LogRel((DEVICE_NAME "::Open: VGDrvCommonCreateUserSession failed. rc=%d\n", rc)); return EFAULT; } static int vgdrvSolarisClose(dev_t Dev, int flag, int fType, cred_t *pCred) { LogFlow(("vgdrvSolarisClose: pid=%d\n", (int)RTProcSelf())); PVBOXGUESTSESSION pSession = NULL; vboxguest_state_t *pState = ddi_get_soft_state(g_pvgdrvSolarisState, getminor(Dev)); if (!pState) { Log(("vgdrvSolarisClose: failed to get pState.\n")); return EFAULT; } if (pState->pvProcRef != NULL) { proc_unref(pState->pvProcRef); pState->pvProcRef = NULL; } pSession = pState->pSession; pState->pSession = NULL; Log(("vgdrvSolarisClose: pSession=%p pState=%p\n", pSession, pState)); ddi_soft_state_free(g_pvgdrvSolarisState, getminor(Dev)); if (!pSession) { Log(("vgdrvSolarisClose: failed to get pSession.\n")); return EFAULT; } /* * Close the session. */ if (pSession) VGDrvCommonCloseSession(&g_DevExt, pSession); return 0; } static int vgdrvSolarisRead(dev_t Dev, struct uio *pUio, cred_t *pCred) { LogFlow((DEVICE_NAME "::Read\n")); vboxguest_state_t *pState = ddi_get_soft_state(g_pvgdrvSolarisState, getminor(Dev)); if (!pState) { Log((DEVICE_NAME "::Close: failed to get pState.\n")); return EFAULT; } PVBOXGUESTSESSION pSession = pState->pSession; uint32_t u32CurSeq = ASMAtomicUoReadU32(&g_DevExt.u32MousePosChangedSeq); if (pSession->u32MousePosChangedSeq != u32CurSeq) pSession->u32MousePosChangedSeq = u32CurSeq; return 0; } static int vgdrvSolarisWrite(dev_t Dev, struct uio *pUio, cred_t *pCred) { LogFlow(("vgdrvSolarisWrite:\n")); return 0; } /** @def IOCPARM_LEN * Gets the length from the ioctl number. * This is normally defined by sys/ioccom.h on BSD systems... */ #ifndef IOCPARM_LEN # define IOCPARM_LEN(x) ( ((x) >> 16) & IOCPARM_MASK ) #endif /** * Driver ioctl, an alternate entry point for this character driver. * * @param Dev Device number * @param iCmd Operation identifier * @param iArgs Arguments from user to driver * @param Mode Information bitfield (read/write, address space etc.) * @param pCred User credentials * @param pVal Return value for calling process. * * @return corresponding solaris error code. */ static int vgdrvSolarisIOCtl(dev_t Dev, int iCmd, intptr_t iArgs, int Mode, cred_t *pCred, int *pVal) { /* * Get the session from the soft state item. */ vboxguest_state_t *pState = ddi_get_soft_state(g_pvgdrvSolarisState, getminor(Dev)); if (!pState) { LogRel(("vgdrvSolarisIOCtl: no state data for %#x (%d)\n", Dev, getminor(Dev))); return EINVAL; } PVBOXGUESTSESSION pSession = pState->pSession; if (!pSession) { LogRel(("vgdrvSolarisIOCtl: no session in state data for %#x (%d)\n", Dev, getminor(Dev))); return DDI_SUCCESS; } /* * Deal with fast requests. */ if (VBGL_IOCTL_IS_FAST(iCmd)) { *pVal = VGDrvCommonIoCtlFast(iCmd, &g_DevExt, pSession); return 0; } /* * It's kind of simple if this is a kernel session, take slow path if user land. */ if (pSession->R0Process == NIL_RTR0PROCESS) { if (IOCPARM_LEN(iCmd) == sizeof(VBGLREQHDR)) { PVBGLREQHDR pHdr = (PVBGLREQHDR)iArgs; int rc; if (iCmd != VBGL_IOCTL_IDC_DISCONNECT) rc =VGDrvCommonIoCtl(iCmd, &g_DevExt, pSession, pHdr, RT_MAX(pHdr->cbIn, pHdr->cbOut)); else { pState->pSession = NULL; rc = VGDrvCommonIoCtl(iCmd, &g_DevExt, pSession, pHdr, RT_MAX(pHdr->cbIn, pHdr->cbOut)); if (RT_FAILURE(rc)) pState->pSession = pSession; } return rc; } } return vgdrvSolarisIOCtlSlow(pSession, iCmd, Mode, iArgs); } /** * Worker for VBoxSupDrvIOCtl that takes the slow IOCtl functions. * * @returns Solaris errno. * * @param pSession The session. * @param iCmd The IOCtl command. * @param Mode Information bitfield (for specifying ownership of data) * @param iArg User space address of the request buffer. */ static int vgdrvSolarisIOCtlSlow(PVBOXGUESTSESSION pSession, int iCmd, int Mode, intptr_t iArg) { int rc; uint32_t cbBuf = 0; union { VBGLREQHDR Hdr; uint8_t abBuf[64]; } StackBuf; PVBGLREQHDR pHdr; /* * Read the header. */ if (RT_UNLIKELY(IOCPARM_LEN(iCmd) != sizeof(StackBuf.Hdr))) { LogRel(("vgdrvSolarisIOCtlSlow: iCmd=%#x len %d expected %d\n", iCmd, IOCPARM_LEN(iCmd), sizeof(StackBuf.Hdr))); return EINVAL; } rc = ddi_copyin((void *)iArg, &StackBuf.Hdr, sizeof(StackBuf.Hdr), Mode); if (RT_UNLIKELY(rc)) { LogRel(("vgdrvSolarisIOCtlSlow: ddi_copyin(,%#lx,) failed; iCmd=%#x. rc=%d\n", iArg, iCmd, rc)); return EFAULT; } if (RT_UNLIKELY(StackBuf.Hdr.uVersion != VBGLREQHDR_VERSION)) { LogRel(("vgdrvSolarisIOCtlSlow: bad header version %#x; iCmd=%#x\n", StackBuf.Hdr.uVersion, iCmd)); return EINVAL; } cbBuf = RT_MAX(StackBuf.Hdr.cbIn, StackBuf.Hdr.cbOut); if (RT_UNLIKELY( StackBuf.Hdr.cbIn < sizeof(StackBuf.Hdr) || (StackBuf.Hdr.cbOut < sizeof(StackBuf.Hdr) && StackBuf.Hdr.cbOut != 0) || cbBuf > _1M*16)) { LogRel(("vgdrvSolarisIOCtlSlow: max(%#x,%#x); iCmd=%#x\n", StackBuf.Hdr.cbIn, StackBuf.Hdr.cbOut, iCmd)); return EINVAL; } /* * Buffer the request. * * Note! Common code revalidates the header sizes and version. So it's * fine to read it once more. */ if (cbBuf <= sizeof(StackBuf)) pHdr = &StackBuf.Hdr; else { pHdr = RTMemTmpAlloc(cbBuf); if (RT_UNLIKELY(!pHdr)) { LogRel(("vgdrvSolarisIOCtlSlow: failed to allocate buffer of %d bytes for iCmd=%#x.\n", cbBuf, iCmd)); return ENOMEM; } } rc = ddi_copyin((void *)iArg, pHdr, cbBuf, Mode); if (RT_UNLIKELY(rc)) { LogRel(("vgdrvSolarisIOCtlSlow: copy_from_user(,%#lx, %#x) failed; iCmd=%#x. rc=%d\n", iArg, cbBuf, iCmd, rc)); if (pHdr != &StackBuf.Hdr) RTMemFree(pHdr); return EFAULT; } /* * Process the IOCtl. */ rc = VGDrvCommonIoCtl(iCmd, &g_DevExt, pSession, pHdr, cbBuf); /* * Copy ioctl data and output buffer back to user space. */ if (RT_SUCCESS(rc)) { uint32_t cbOut = pHdr->cbOut; if (RT_UNLIKELY(cbOut > cbBuf)) { LogRel(("vgdrvSolarisIOCtlSlow: too much output! %#x > %#x; iCmd=%#x!\n", cbOut, cbBuf, iCmd)); cbOut = cbBuf; } rc = ddi_copyout(pHdr, (void *)iArg, cbOut, Mode); if (RT_UNLIKELY(rc != 0)) { /* this is really bad */ LogRel(("vgdrvSolarisIOCtlSlow: ddi_copyout(,%p,%d) failed. rc=%d\n", (void *)iArg, cbBuf, rc)); rc = EFAULT; } } else rc = EINVAL; if (pHdr != &StackBuf.Hdr) RTMemTmpFree(pHdr); return rc; } #if 0 /** * @note This code is duplicated on other platforms with variations, so please * keep them all up to date when making changes! */ int VBOXCALL VBoxGuestIDC(void *pvSession, uintptr_t uReq, PVBGLREQHDR pReqHdr, size_t cbReq) { /* * Simple request validation (common code does the rest). */ int rc; if ( RT_VALID_PTR(pReqHdr) && cbReq >= sizeof(*pReqHdr)) { /* * All requests except the connect one requires a valid session. */ PVBOXGUESTSESSION pSession = (PVBOXGUESTSESSION)pvSession; if (pSession) { if ( RT_VALID_PTR(pSession) && pSession->pDevExt == &g_DevExt) rc = VGDrvCommonIoCtl(uReq, &g_DevExt, pSession, pReqHdr, cbReq); else rc = VERR_INVALID_HANDLE; } else if (uReq == VBGL_IOCTL_IDC_CONNECT) { rc = VGDrvCommonCreateKernelSession(&g_DevExt, &pSession); if (RT_SUCCESS(rc)) { rc = VGDrvCommonIoCtl(uReq, &g_DevExt, pSession, pReqHdr, cbReq); if (RT_FAILURE(rc)) VGDrvCommonCloseSession(&g_DevExt, pSession); } } else rc = VERR_INVALID_HANDLE; } else rc = VERR_INVALID_POINTER; return rc; } #endif static int vgdrvSolarisPoll(dev_t Dev, short fEvents, int fAnyYet, short *pReqEvents, struct pollhead **ppPollHead) { LogFlow(("vgdrvSolarisPoll: fEvents=%d fAnyYet=%d\n", fEvents, fAnyYet)); vboxguest_state_t *pState = ddi_get_soft_state(g_pvgdrvSolarisState, getminor(Dev)); if (RT_LIKELY(pState)) { PVBOXGUESTSESSION pSession = (PVBOXGUESTSESSION)pState->pSession; uint32_t u32CurSeq = ASMAtomicUoReadU32(&g_DevExt.u32MousePosChangedSeq); if (pSession->u32MousePosChangedSeq != u32CurSeq) { *pReqEvents |= (POLLIN | POLLRDNORM); pSession->u32MousePosChangedSeq = u32CurSeq; } else { *pReqEvents = 0; if (!fAnyYet) *ppPollHead = &g_PollHead; } return 0; } Log(("vgdrvSolarisPoll: no state data for %d\n", getminor(Dev))); return EINVAL; } /** * Sets IRQ for VMMDev. * * @returns Solaris error code. * @param pDip Pointer to the device info structure. */ static int vgdrvSolarisAddIRQ(dev_info_t *pDip) { LogFlow(("vgdrvSolarisAddIRQ: pDip=%p\n", pDip)); /* Get the types of interrupt supported for this hardware. */ int fIntrType = 0; int rc = ddi_intr_get_supported_types(pDip, &fIntrType); if (rc == DDI_SUCCESS) { /* We only support fixed interrupts at this point, not MSIs. */ if (fIntrType & DDI_INTR_TYPE_FIXED) { /* Verify the number of interrupts supported by this device. There can only be one fixed interrupt. */ int cIntrCount = 0; rc = ddi_intr_get_nintrs(pDip, fIntrType, &cIntrCount); if ( rc == DDI_SUCCESS && cIntrCount == 1) { /* Allocated kernel memory for the interrupt handle. The allocation size is stored internally. */ g_pahIntrs = RTMemAllocZ(cIntrCount * sizeof(ddi_intr_handle_t)); if (g_pahIntrs) { /* Allocate the interrupt for this device and verify the allocation. */ int cIntrAllocated; rc = ddi_intr_alloc(pDip, g_pahIntrs, fIntrType, 0 /* interrupt number */, cIntrCount, &cIntrAllocated, DDI_INTR_ALLOC_NORMAL); if ( rc == DDI_SUCCESS && cIntrAllocated == 1) { /* Get the interrupt priority assigned by the system. */ uint_t uIntrPriority; rc = ddi_intr_get_pri(g_pahIntrs[0], &uIntrPriority); if (rc == DDI_SUCCESS) { /* Check if the interrupt priority is scheduler level or above, if so we need to use a high-level and low-level interrupt handlers with corresponding mutexes. */ cmn_err(CE_CONT, "!vboxguest: uIntrPriority=%d hilevel_pri=%d\n", uIntrPriority, ddi_intr_get_hilevel_pri()); if (uIntrPriority >= ddi_intr_get_hilevel_pri()) { /* Initialize the high-level mutex. */ mutex_init(&g_HighLevelIrqMtx, NULL /* pszDesc */, MUTEX_DRIVER, DDI_INTR_PRI(uIntrPriority)); /* Assign interrupt handler function to the interrupt handle. */ rc = ddi_intr_add_handler(g_pahIntrs[0], (ddi_intr_handler_t *)&vgdrvSolarisHighLevelISR, NULL /* pvArg1 */, NULL /* pvArg2 */); if (rc == DDI_SUCCESS) { /* Add the low-level interrupt handler. */ rc = ddi_intr_add_softint(pDip, &g_hSoftIntr, DDI_INTR_SOFTPRI_MAX, (ddi_intr_handler_t *)&vgdrvSolarisISR, NULL /* pvArg1 */); if (rc == DDI_SUCCESS) { /* Initialize the low-level mutex at the corresponding level. */ mutex_init(&g_IrqMtx, NULL /* pszDesc */, MUTEX_DRIVER, DDI_INTR_PRI(DDI_INTR_SOFTPRI_MAX)); g_fSoftIntRegistered = true; /* Enable the high-level interrupt. */ rc = ddi_intr_enable(g_pahIntrs[0]); if (rc == DDI_SUCCESS) return rc; LogRel((DEVICE_NAME "::AddIRQ: failed to enable interrupt. rc=%d\n", rc)); mutex_destroy(&g_IrqMtx); } else LogRel((DEVICE_NAME "::AddIRQ: failed to add soft interrupt handler. rc=%d\n", rc)); ddi_intr_remove_handler(g_pahIntrs[0]); } else LogRel((DEVICE_NAME "::AddIRQ: failed to add high-level interrupt handler. rc=%d\n", rc)); mutex_destroy(&g_HighLevelIrqMtx); } else { /* Interrupt handler runs at reschedulable level, initialize the mutex at the given priority. */ mutex_init(&g_IrqMtx, NULL /* pszDesc */, MUTEX_DRIVER, DDI_INTR_PRI(uIntrPriority)); /* Assign interrupt handler function to the interrupt handle. */ rc = ddi_intr_add_handler(g_pahIntrs[0], (ddi_intr_handler_t *)vgdrvSolarisISR, NULL /* pvArg1 */, NULL /* pvArg2 */); if (rc == DDI_SUCCESS) { /* Enable the interrupt. */ rc = ddi_intr_enable(g_pahIntrs[0]); if (rc == DDI_SUCCESS) return rc; LogRel((DEVICE_NAME "::AddIRQ: failed to enable interrupt. rc=%d\n", rc)); mutex_destroy(&g_IrqMtx); } } } else LogRel((DEVICE_NAME "::AddIRQ: failed to get priority of interrupt. rc=%d\n", rc)); Assert(cIntrAllocated == 1); ddi_intr_free(g_pahIntrs[0]); } else LogRel((DEVICE_NAME "::AddIRQ: failed to allocated IRQs. count=%d\n", cIntrCount)); RTMemFree(g_pahIntrs); } else LogRel((DEVICE_NAME "::AddIRQ: failed to allocated IRQs. count=%d\n", cIntrCount)); } else LogRel((DEVICE_NAME "::AddIRQ: failed to get or insufficient number of IRQs. rc=%d cIntrCount=%d\n", rc, cIntrCount)); } else LogRel((DEVICE_NAME "::AddIRQ: fixed-type interrupts not supported. IntrType=%#x\n", fIntrType)); } else LogRel((DEVICE_NAME "::AddIRQ: failed to get supported interrupt types. rc=%d\n", rc)); return rc; } /** * Removes IRQ for VMMDev. * * @param pDip Pointer to the device info structure. */ static void vgdrvSolarisRemoveIRQ(dev_info_t *pDip) { LogFlow(("vgdrvSolarisRemoveIRQ:\n")); int rc = ddi_intr_disable(g_pahIntrs[0]); if (rc == DDI_SUCCESS) { rc = ddi_intr_remove_handler(g_pahIntrs[0]); if (rc == DDI_SUCCESS) ddi_intr_free(g_pahIntrs[0]); } if (g_fSoftIntRegistered) { ddi_intr_remove_softint(g_hSoftIntr); mutex_destroy(&g_HighLevelIrqMtx); g_fSoftIntRegistered = false; } mutex_destroy(&g_IrqMtx); RTMemFree(g_pahIntrs); } /** * High-level Interrupt Service Routine for VMMDev. * * This routine simply dispatches a soft-interrupt at an acceptable IPL as * VGDrvCommonISR() cannot be called at a high IPL (scheduler level or higher) * due to pollwakeup() in VGDrvNativeISRMousePollEvent(). * * @param Arg Private data (unused, will be NULL). * @returns DDI_INTR_CLAIMED if it's our interrupt, DDI_INTR_UNCLAIMED if it isn't. */ static uint_t vgdrvSolarisHighLevelISR(caddr_t Arg) { bool const fOurIrq = VGDrvCommonIsOurIRQ(&g_DevExt); if (fOurIrq) { ddi_intr_trigger_softint(g_hSoftIntr, NULL /* Arg */); return DDI_INTR_CLAIMED; } return DDI_INTR_UNCLAIMED; } /** * Interrupt Service Routine for VMMDev. * * @param Arg Private data (unused, will be NULL). * @returns DDI_INTR_CLAIMED if it's our interrupt, DDI_INTR_UNCLAIMED if it isn't. */ static uint_t vgdrvSolarisISR(caddr_t Arg) { LogFlow(("vgdrvSolarisISR:\n")); /* The mutex is required to protect against parallel executions (if possible?) and also the mouse notify registeration race between VGDrvNativeSetMouseNotifyCallback() and VGDrvCommonISR(). */ mutex_enter(&g_IrqMtx); bool fOurIRQ = VGDrvCommonISR(&g_DevExt); mutex_exit(&g_IrqMtx); return fOurIRQ ? DDI_INTR_CLAIMED : DDI_INTR_UNCLAIMED; } /** * Poll notifier for mouse poll events. * * @param pDevExt Pointer to the device extension. * * @remarks This must be called without holding any spinlocks. */ void VGDrvNativeISRMousePollEvent(PVBOXGUESTDEVEXT pDevExt) { LogFlow(("VGDrvNativeISRMousePollEvent:\n")); /* * Wake up poll waiters. */ pollwakeup(&g_PollHead, POLLIN | POLLRDNORM); } bool VGDrvNativeProcessOption(PVBOXGUESTDEVEXT pDevExt, const char *pszName, const char *pszValue) { RT_NOREF(pDevExt); RT_NOREF(pszName); RT_NOREF(pszValue); return false; } /** * Sets the mouse notification callback. * * @returns VBox status code. * @param pDevExt Pointer to the device extension. * @param pNotify Pointer to the mouse notify struct. */ int VGDrvNativeSetMouseNotifyCallback(PVBOXGUESTDEVEXT pDevExt, PVBGLIOCSETMOUSENOTIFYCALLBACK pNotify) { /* Take the mutex here so as to not race with VGDrvCommonISR() which invokes the mouse notify callback. */ mutex_enter(&g_IrqMtx); pDevExt->pfnMouseNotifyCallback = pNotify->u.In.pfnNotify; pDevExt->pvMouseNotifyCallbackArg = pNotify->u.In.pvUser; mutex_exit(&g_IrqMtx); return VINF_SUCCESS; }