/* * Copyright (c) 2013-2019 Huawei Technologies Co., Ltd. All rights reserved. * Copyright (c) 2020-2021 Huawei Device Co., Ltd. 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. * * 3. Neither the name of the copyright holder nor the names of its contributors may be used * to endorse or promote products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT HOLDER 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. */ /** * @defgroup los_vm_fault vm fault definition * @ingroup kernel */ #include "los_vm_fault.h" #include "los_vm_map.h" #include "los_vm_dump.h" #include "los_vm_filemap.h" #include "los_vm_page.h" #include "los_vm_lock.h" #include "los_exc.h" #include "los_oom.h" #include "los_printf.h" #include "los_process_pri.h" #include "arm.h" #ifdef LOSCFG_FS_VFS #include "vnode.h" #endif #ifdef LOSCFG_KERNEL_VM extern char __exc_table_start[]; extern char __exc_table_end[]; STATIC STATUS_T OsVmRegionRightCheck(LosVmMapRegion *region, UINT32 flags) { if ((region->regionFlags & VM_MAP_REGION_FLAG_PERM_READ) != VM_MAP_REGION_FLAG_PERM_READ) { VM_ERR("read permission check failed operation flags %x, region flags %x", flags, region->regionFlags); return LOS_NOK; } if ((flags & VM_MAP_PF_FLAG_WRITE) == VM_MAP_PF_FLAG_WRITE) { if ((region->regionFlags & VM_MAP_REGION_FLAG_PERM_WRITE) != VM_MAP_REGION_FLAG_PERM_WRITE) { VM_ERR("write permission check failed operation flags %x, region flags %x", flags, region->regionFlags); return LOS_NOK; } } if ((flags & VM_MAP_PF_FLAG_INSTRUCTION) == VM_MAP_PF_FLAG_INSTRUCTION) { if ((region->regionFlags & VM_MAP_REGION_FLAG_PERM_EXECUTE) != VM_MAP_REGION_FLAG_PERM_EXECUTE) { VM_ERR("exec permission check failed operation flags %x, region flags %x", flags, region->regionFlags); return LOS_NOK; } } return LOS_OK; } STATIC VOID OsFaultTryFixup(ExcContext *frame, VADDR_T excVaddr, STATUS_T *status) { INT32 tableNum = (__exc_table_end - __exc_table_start) / sizeof(LosExcTable); LosExcTable *excTable = (LosExcTable *)__exc_table_start; if ((frame->regCPSR & CPSR_MODE_MASK) != CPSR_MODE_USR) { for (int i = 0; i < tableNum; ++i, ++excTable) { if (frame->PC == (UINTPTR)excTable->excAddr) { frame->PC = (UINTPTR)excTable->fixAddr; frame->R2 = (UINTPTR)excVaddr; *status = LOS_OK; return; } } } } #ifdef LOSCFG_FS_VFS STATIC STATUS_T OsDoReadFault(LosVmMapRegion *region, LosVmPgFault *vmPgFault) { status_t ret; PADDR_T paddr; LosVmPage *page = NULL; VADDR_T vaddr = (VADDR_T)vmPgFault->vaddr; LosVmSpace *space = region->space; ret = LOS_ArchMmuQuery(&space->archMmu, vaddr, NULL, NULL); if (ret == LOS_OK) { return LOS_OK; } if (region->unTypeData.rf.vmFOps == NULL || region->unTypeData.rf.vmFOps->fault == NULL) { VM_ERR("region args invalid, file path: %s", region->unTypeData.rf.vnode->filePath); return LOS_ERRNO_VM_INVALID_ARGS; } (VOID)LOS_MuxAcquire(®ion->unTypeData.rf.vnode->mapping.mux_lock); ret = region->unTypeData.rf.vmFOps->fault(region, vmPgFault); if (ret == LOS_OK) { paddr = LOS_PaddrQuery(vmPgFault->pageKVaddr); page = LOS_VmPageGet(paddr); if (page != NULL) { /* just incase of page null */ LOS_AtomicInc(&page->refCounts); OsCleanPageLocked(page); } ret = LOS_ArchMmuMap(&space->archMmu, vaddr, paddr, 1, region->regionFlags & (~VM_MAP_REGION_FLAG_PERM_WRITE)); if (ret < 0) { VM_ERR("LOS_ArchMmuMap failed"); OsDelMapInfo(region, vmPgFault, false); (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); return LOS_ERRNO_VM_NO_MEMORY; } (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); return LOS_OK; } (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); return LOS_ERRNO_VM_NO_MEMORY; } /* numap a page when cow happend only */ STATIC LosVmPage *OsCowUnmapOrg(LosArchMmu *archMmu, LosVmMapRegion *region, LosVmPgFault *vmf) { UINT32 intSave; LosVmPage *oldPage = NULL; LosMapInfo *mapInfo = NULL; LosFilePage *fpage = NULL; VADDR_T vaddr = (VADDR_T)vmf->vaddr; LOS_SpinLockSave(®ion->unTypeData.rf.vnode->mapping.list_lock, &intSave); fpage = OsFindGetEntry(®ion->unTypeData.rf.vnode->mapping, vmf->pgoff); if (fpage != NULL) { oldPage = fpage->vmPage; OsSetPageLocked(oldPage); mapInfo = OsGetMapInfo(fpage, archMmu, vaddr); if (mapInfo != NULL) { OsUnmapPageLocked(fpage, mapInfo); } else { LOS_ArchMmuUnmap(archMmu, vaddr, 1); } } else { LOS_ArchMmuUnmap(archMmu, vaddr, 1); } LOS_SpinUnlockRestore(®ion->unTypeData.rf.vnode->mapping.list_lock, intSave); return oldPage; } #endif status_t OsDoCowFault(LosVmMapRegion *region, LosVmPgFault *vmPgFault) { STATUS_T ret; VOID *kvaddr = NULL; PADDR_T oldPaddr = 0; PADDR_T newPaddr; LosVmPage *oldPage = NULL; LosVmPage *newPage = NULL; LosVmSpace *space = NULL; if ((vmPgFault == NULL) || (region == NULL) || (region->unTypeData.rf.vmFOps == NULL) || (region->unTypeData.rf.vmFOps->fault == NULL)) { VM_ERR("region args invalid"); return LOS_ERRNO_VM_INVALID_ARGS; } space = region->space; ret = LOS_ArchMmuQuery(&space->archMmu, (VADDR_T)vmPgFault->vaddr, &oldPaddr, NULL); if (ret == LOS_OK) { oldPage = OsCowUnmapOrg(&space->archMmu, region, vmPgFault); } newPage = LOS_PhysPageAlloc(); if (newPage == NULL) { VM_ERR("pmm_alloc_page fail"); ret = LOS_ERRNO_VM_NO_MEMORY; goto ERR_OUT; } newPaddr = VM_PAGE_TO_PHYS(newPage); kvaddr = OsVmPageToVaddr(newPage); (VOID)LOS_MuxAcquire(®ion->unTypeData.rf.vnode->mapping.mux_lock); ret = region->unTypeData.rf.vmFOps->fault(region, vmPgFault); if (ret != LOS_OK) { VM_ERR("call region->vm_ops->fault fail"); (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); goto ERR_OUT; } /** * here we get two conditions, 1.this page hasn't mapped or mapped from pagecache, * we can take it as a normal file cow map. 2.this page has done file cow map, * we can take it as a anonymous cow map. */ if ((oldPaddr == 0) || (LOS_PaddrToKVaddr(oldPaddr) == vmPgFault->pageKVaddr)) { (VOID)memcpy_s(kvaddr, PAGE_SIZE, vmPgFault->pageKVaddr, PAGE_SIZE); LOS_AtomicInc(&newPage->refCounts); OsCleanPageLocked(LOS_VmPageGet(LOS_PaddrQuery(vmPgFault->pageKVaddr))); } else { OsPhysSharePageCopy(oldPaddr, &newPaddr, newPage); /* use old page free the new one */ if (newPaddr == oldPaddr) { LOS_PhysPageFree(newPage); newPage = NULL; } } ret = LOS_ArchMmuMap(&space->archMmu, (VADDR_T)vmPgFault->vaddr, newPaddr, 1, region->regionFlags); if (ret < 0) { VM_ERR("LOS_ArchMmuMap failed"); ret = LOS_ERRNO_VM_NO_MEMORY; (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); goto ERR_OUT; } (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); if (oldPage != NULL) { OsCleanPageLocked(oldPage); } return LOS_OK; ERR_OUT: if (newPage != NULL) { LOS_PhysPageFree(newPage); } if (oldPage != NULL) { OsCleanPageLocked(oldPage); } return ret; } status_t OsDoSharedFault(LosVmMapRegion *region, LosVmPgFault *vmPgFault) { STATUS_T ret; UINT32 intSave; PADDR_T paddr = 0; VADDR_T vaddr = (VADDR_T)vmPgFault->vaddr; LosVmSpace *space = region->space; LosVmPage *page = NULL; LosFilePage *fpage = NULL; if ((region->unTypeData.rf.vmFOps == NULL) || (region->unTypeData.rf.vmFOps->fault == NULL)) { VM_ERR("region args invalid"); return LOS_ERRNO_VM_INVALID_ARGS; } ret = LOS_ArchMmuQuery(&space->archMmu, vmPgFault->vaddr, &paddr, NULL); if (ret == LOS_OK) { LOS_ArchMmuUnmap(&space->archMmu, vmPgFault->vaddr, 1); ret = LOS_ArchMmuMap(&space->archMmu, vaddr, paddr, 1, region->regionFlags); if (ret < 0) { VM_ERR("LOS_ArchMmuMap failed. ret=%d", ret); return LOS_ERRNO_VM_NO_MEMORY; } LOS_SpinLockSave(®ion->unTypeData.rf.vnode->mapping.list_lock, &intSave); fpage = OsFindGetEntry(®ion->unTypeData.rf.vnode->mapping, vmPgFault->pgoff); if (fpage) { OsMarkPageDirty(fpage, region, 0, 0); } LOS_SpinUnlockRestore(®ion->unTypeData.rf.vnode->mapping.list_lock, intSave); return LOS_OK; } (VOID)LOS_MuxAcquire(®ion->unTypeData.rf.vnode->mapping.mux_lock); ret = region->unTypeData.rf.vmFOps->fault(region, vmPgFault); if (ret == LOS_OK) { paddr = LOS_PaddrQuery(vmPgFault->pageKVaddr); page = LOS_VmPageGet(paddr); /* just in case of page null */ if (page != NULL) { LOS_AtomicInc(&page->refCounts); OsCleanPageLocked(page); } ret = LOS_ArchMmuMap(&space->archMmu, vaddr, paddr, 1, region->regionFlags); if (ret < 0) { VM_ERR("LOS_ArchMmuMap failed. ret=%d", ret); OsDelMapInfo(region, vmPgFault, TRUE); (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); return LOS_ERRNO_VM_NO_MEMORY; } (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); return LOS_OK; } (VOID)LOS_MuxRelease(®ion->unTypeData.rf.vnode->mapping.mux_lock); return ret; } /** * Page read operation is a simple case, just share the pagecache(save memory) * and make a read permission mmapping (region->arch_mmu_flags & (~ARCH_MMU_FLAG_PERM_WRITE)). * However for write operation, vmflag (VM_PRIVATE|VM_SHREAD) decides COW or SHARED fault. * For COW fault, pagecache is copied to private anonyous pages and the changes on this page * won't write through to the underlying file. For SHARED fault, pagecache is mapping with * region->arch_mmu_flags and the changes on this page will write through to the underlying file */ STATIC STATUS_T OsDoFileFault(LosVmMapRegion *region, LosVmPgFault *vmPgFault, UINT32 flags) { STATUS_T ret; if (flags & VM_MAP_PF_FLAG_WRITE) { if (region->regionFlags & VM_MAP_REGION_FLAG_SHARED) { ret = OsDoSharedFault(region, vmPgFault); } else { ret = OsDoCowFault(region, vmPgFault); } } else { ret = OsDoReadFault(region, vmPgFault); } return ret; } STATUS_T OsVmPageFaultHandler(VADDR_T vaddr, UINT32 flags, ExcContext *frame) { LosVmSpace *space = LOS_SpaceGet(vaddr); LosVmMapRegion *region = NULL; STATUS_T status; PADDR_T oldPaddr; PADDR_T newPaddr; VADDR_T excVaddr = vaddr; LosVmPage *newPage = NULL; LosVmPgFault vmPgFault = { 0 }; if (space == NULL) { VM_ERR("vm space not exists, vaddr: %#x", vaddr); status = LOS_ERRNO_VM_NOT_FOUND; OsFaultTryFixup(frame, excVaddr, &status); return status; } if (((flags & VM_MAP_PF_FLAG_USER) != 0) && (!LOS_IsUserAddress(vaddr))) { VM_ERR("user space not allowed to access invalid address: %#x", vaddr); return LOS_ERRNO_VM_ACCESS_DENIED; } (VOID)LOS_MuxAcquire(&space->regionMux); region = LOS_RegionFind(space, vaddr); if (region == NULL) { VM_ERR("region not exists, vaddr: %#x", vaddr); status = LOS_ERRNO_VM_NOT_FOUND; goto CHECK_FAILED; } status = OsVmRegionRightCheck(region, flags); if (status != LOS_OK) { status = LOS_ERRNO_VM_ACCESS_DENIED; goto CHECK_FAILED; } if (OomCheckProcess()) { /* * under low memory, when user process request memory allocation * it will fail, and result is LOS_NOK and current user process * will be deleted. memory usage detail will be printed. */ status = LOS_ERRNO_VM_NO_MEMORY; goto CHECK_FAILED; } vaddr = ROUNDDOWN(vaddr, PAGE_SIZE); #ifdef LOSCFG_FS_VFS if (LOS_IsRegionFileValid(region)) { if (region->unTypeData.rf.vnode == NULL) { goto CHECK_FAILED; } vmPgFault.vaddr = vaddr; vmPgFault.pgoff = ((vaddr - region->range.base) >> PAGE_SHIFT) + region->pgOff; vmPgFault.flags = flags; vmPgFault.pageKVaddr = NULL; status = OsDoFileFault(region, &vmPgFault, flags); if (status) { VM_ERR("vm fault error, status=%d", status); goto CHECK_FAILED; } goto DONE; } #endif newPage = LOS_PhysPageAlloc(); if (newPage == NULL) { status = LOS_ERRNO_VM_NO_MEMORY; goto CHECK_FAILED; } newPaddr = VM_PAGE_TO_PHYS(newPage); (VOID)memset_s(OsVmPageToVaddr(newPage), PAGE_SIZE, 0, PAGE_SIZE); status = LOS_ArchMmuQuery(&space->archMmu, vaddr, &oldPaddr, NULL); if (status >= 0) { LOS_ArchMmuUnmap(&space->archMmu, vaddr, 1); OsPhysSharePageCopy(oldPaddr, &newPaddr, newPage); /* use old page free the new one */ if (newPaddr == oldPaddr) { LOS_PhysPageFree(newPage); newPage = NULL; } /* map all of the pages */ status = LOS_ArchMmuMap(&space->archMmu, vaddr, newPaddr, 1, region->regionFlags); if (status < 0) { VM_ERR("failed to map replacement page, status:%d", status); status = LOS_ERRNO_VM_MAP_FAILED; goto VMM_MAP_FAILED; } status = LOS_OK; goto DONE; } else { /* map all of the pages */ LOS_AtomicInc(&newPage->refCounts); status = LOS_ArchMmuMap(&space->archMmu, vaddr, newPaddr, 1, region->regionFlags); if (status < 0) { VM_ERR("failed to map page, status:%d", status); status = LOS_ERRNO_VM_MAP_FAILED; goto VMM_MAP_FAILED; } } status = LOS_OK; goto DONE; VMM_MAP_FAILED: if (newPage != NULL) { LOS_PhysPageFree(newPage); } CHECK_FAILED: OsFaultTryFixup(frame, excVaddr, &status); DONE: (VOID)LOS_MuxRelease(&space->regionMux); return status; } #endif