Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
George Zhang | 3869 | 97.46% | 1 | 6.67% |
Andy King | 27 | 0.68% | 1 | 6.67% |
Stefano Garzarella | 19 | 0.48% | 1 | 6.67% |
Jorgen Hansen | 15 | 0.38% | 1 | 6.67% |
Wen Yang | 14 | 0.35% | 1 | 6.67% |
Muhammad Falak R Wani | 11 | 0.28% | 1 | 6.67% |
Dmitry Torokhov | 3 | 0.08% | 1 | 6.67% |
Ingo Molnar | 3 | 0.08% | 1 | 6.67% |
Thomas Gleixner | 2 | 0.05% | 1 | 6.67% |
Al Viro | 2 | 0.05% | 1 | 6.67% |
Ira Weiny | 1 | 0.03% | 1 | 6.67% |
Gleb Fotengauer-Malinovskiy | 1 | 0.03% | 1 | 6.67% |
Arnd Bergmann | 1 | 0.03% | 1 | 6.67% |
Jan Kara | 1 | 0.03% | 1 | 6.67% |
Linus Torvalds | 1 | 0.03% | 1 | 6.67% |
Total | 3970 | 15 |
// SPDX-License-Identifier: GPL-2.0-only /* * VMware VMCI Driver * * Copyright (C) 2012 VMware, Inc. All rights reserved. */ #include <linux/vmw_vmci_defs.h> #include <linux/vmw_vmci_api.h> #include <linux/miscdevice.h> #include <linux/interrupt.h> #include <linux/highmem.h> #include <linux/atomic.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/sched.h> #include <linux/cred.h> #include <linux/slab.h> #include <linux/file.h> #include <linux/init.h> #include <linux/poll.h> #include <linux/pci.h> #include <linux/smp.h> #include <linux/fs.h> #include <linux/io.h> #include "vmci_handle_array.h" #include "vmci_queue_pair.h" #include "vmci_datagram.h" #include "vmci_doorbell.h" #include "vmci_resource.h" #include "vmci_context.h" #include "vmci_driver.h" #include "vmci_event.h" #define VMCI_UTIL_NUM_RESOURCES 1 enum { VMCI_NOTIFY_RESOURCE_QUEUE_PAIR = 0, VMCI_NOTIFY_RESOURCE_DOOR_BELL = 1, }; enum { VMCI_NOTIFY_RESOURCE_ACTION_NOTIFY = 0, VMCI_NOTIFY_RESOURCE_ACTION_CREATE = 1, VMCI_NOTIFY_RESOURCE_ACTION_DESTROY = 2, }; /* * VMCI driver initialization. This block can also be used to * pass initial group membership etc. */ struct vmci_init_blk { u32 cid; u32 flags; }; /* VMCIqueue_pairAllocInfo_VMToVM */ struct vmci_qp_alloc_info_vmvm { struct vmci_handle handle; u32 peer; u32 flags; u64 produce_size; u64 consume_size; u64 produce_page_file; /* User VA. */ u64 consume_page_file; /* User VA. */ u64 produce_page_file_size; /* Size of the file name array. */ u64 consume_page_file_size; /* Size of the file name array. */ s32 result; u32 _pad; }; /* VMCISetNotifyInfo: Used to pass notify flag's address to the host driver. */ struct vmci_set_notify_info { u64 notify_uva; s32 result; u32 _pad; }; /* * Per-instance host state */ struct vmci_host_dev { struct vmci_ctx *context; int user_version; enum vmci_obj_type ct_type; struct mutex lock; /* Mutex lock for vmci context access */ }; static struct vmci_ctx *host_context; static bool vmci_host_device_initialized; static atomic_t vmci_host_active_users = ATOMIC_INIT(0); /* * Determines whether the VMCI host personality is * available. Since the core functionality of the host driver is * always present, all guests could possibly use the host * personality. However, to minimize the deviation from the * pre-unified driver state of affairs, we only consider the host * device active if there is no active guest device or if there * are VMX'en with active VMCI contexts using the host device. */ bool vmci_host_code_active(void) { return vmci_host_device_initialized && (!vmci_guest_code_active() || atomic_read(&vmci_host_active_users) > 0); } int vmci_host_users(void) { return atomic_read(&vmci_host_active_users); } /* * Called on open of /dev/vmci. */ static int vmci_host_open(struct inode *inode, struct file *filp) { struct vmci_host_dev *vmci_host_dev; vmci_host_dev = kzalloc(sizeof(struct vmci_host_dev), GFP_KERNEL); if (vmci_host_dev == NULL) return -ENOMEM; vmci_host_dev->ct_type = VMCIOBJ_NOT_SET; mutex_init(&vmci_host_dev->lock); filp->private_data = vmci_host_dev; return 0; } /* * Called on close of /dev/vmci, most often when the process * exits. */ static int vmci_host_close(struct inode *inode, struct file *filp) { struct vmci_host_dev *vmci_host_dev = filp->private_data; if (vmci_host_dev->ct_type == VMCIOBJ_CONTEXT) { vmci_ctx_destroy(vmci_host_dev->context); vmci_host_dev->context = NULL; /* * The number of active contexts is used to track whether any * VMX'en are using the host personality. It is incremented when * a context is created through the IOCTL_VMCI_INIT_CONTEXT * ioctl. */ atomic_dec(&vmci_host_active_users); } vmci_host_dev->ct_type = VMCIOBJ_NOT_SET; kfree(vmci_host_dev); filp->private_data = NULL; return 0; } /* * This is used to wake up the VMX when a VMCI call arrives, or * to wake up select() or poll() at the next clock tick. */ static __poll_t vmci_host_poll(struct file *filp, poll_table *wait) { struct vmci_host_dev *vmci_host_dev = filp->private_data; struct vmci_ctx *context = vmci_host_dev->context; __poll_t mask = 0; if (vmci_host_dev->ct_type == VMCIOBJ_CONTEXT) { /* Check for VMCI calls to this VM context. */ if (wait) poll_wait(filp, &context->host_context.wait_queue, wait); spin_lock(&context->lock); if (context->pending_datagrams > 0 || vmci_handle_arr_get_size( context->pending_doorbell_array) > 0) { mask = EPOLLIN; } spin_unlock(&context->lock); } return mask; } /* * Copies the handles of a handle array into a user buffer, and * returns the new length in userBufferSize. If the copy to the * user buffer fails, the functions still returns VMCI_SUCCESS, * but retval != 0. */ static int drv_cp_harray_to_user(void __user *user_buf_uva, u64 *user_buf_size, struct vmci_handle_arr *handle_array, int *retval) { u32 array_size = 0; struct vmci_handle *handles; if (handle_array) array_size = vmci_handle_arr_get_size(handle_array); if (array_size * sizeof(*handles) > *user_buf_size) return VMCI_ERROR_MORE_DATA; *user_buf_size = array_size * sizeof(*handles); if (*user_buf_size) *retval = copy_to_user(user_buf_uva, vmci_handle_arr_get_handles (handle_array), *user_buf_size); return VMCI_SUCCESS; } /* * Sets up a given context for notify to work. Maps the notify * boolean in user VA into kernel space. */ static int vmci_host_setup_notify(struct vmci_ctx *context, unsigned long uva) { int retval; if (context->notify_page) { pr_devel("%s: Notify mechanism is already set up\n", __func__); return VMCI_ERROR_DUPLICATE_ENTRY; } /* * We are using 'bool' internally, but let's make sure we explicit * about the size. */ BUILD_BUG_ON(sizeof(bool) != sizeof(u8)); /* * Lock physical page backing a given user VA. */ retval = get_user_pages_fast(uva, 1, FOLL_WRITE, &context->notify_page); if (retval != 1) { context->notify_page = NULL; return VMCI_ERROR_GENERIC; } /* * Map the locked page and set up notify pointer. */ context->notify = kmap(context->notify_page) + (uva & (PAGE_SIZE - 1)); vmci_ctx_check_signal_notify(context); return VMCI_SUCCESS; } static int vmci_host_get_version(struct vmci_host_dev *vmci_host_dev, unsigned int cmd, void __user *uptr) { if (cmd == IOCTL_VMCI_VERSION2) { int __user *vptr = uptr; if (get_user(vmci_host_dev->user_version, vptr)) return -EFAULT; } /* * The basic logic here is: * * If the user sends in a version of 0 tell it our version. * If the user didn't send in a version, tell it our version. * If the user sent in an old version, tell it -its- version. * If the user sent in an newer version, tell it our version. * * The rationale behind telling the caller its version is that * Workstation 6.5 required that VMX and VMCI kernel module were * version sync'd. All new VMX users will be programmed to * handle the VMCI kernel module version. */ if (vmci_host_dev->user_version > 0 && vmci_host_dev->user_version < VMCI_VERSION_HOSTQP) { return vmci_host_dev->user_version; } return VMCI_VERSION; } #define vmci_ioctl_err(fmt, ...) \ pr_devel("%s: " fmt, ioctl_name, ##__VA_ARGS__) static int vmci_host_do_init_context(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_init_blk init_block; const struct cred *cred; int retval; if (copy_from_user(&init_block, uptr, sizeof(init_block))) { vmci_ioctl_err("error reading init block\n"); return -EFAULT; } mutex_lock(&vmci_host_dev->lock); if (vmci_host_dev->ct_type != VMCIOBJ_NOT_SET) { vmci_ioctl_err("received VMCI init on initialized handle\n"); retval = -EINVAL; goto out; } if (init_block.flags & ~VMCI_PRIVILEGE_FLAG_RESTRICTED) { vmci_ioctl_err("unsupported VMCI restriction flag\n"); retval = -EINVAL; goto out; } cred = get_current_cred(); vmci_host_dev->context = vmci_ctx_create(init_block.cid, init_block.flags, 0, vmci_host_dev->user_version, cred); put_cred(cred); if (IS_ERR(vmci_host_dev->context)) { retval = PTR_ERR(vmci_host_dev->context); vmci_ioctl_err("error initializing context\n"); goto out; } /* * Copy cid to userlevel, we do this to allow the VMX * to enforce its policy on cid generation. */ init_block.cid = vmci_ctx_get_id(vmci_host_dev->context); if (copy_to_user(uptr, &init_block, sizeof(init_block))) { vmci_ctx_destroy(vmci_host_dev->context); vmci_host_dev->context = NULL; vmci_ioctl_err("error writing init block\n"); retval = -EFAULT; goto out; } vmci_host_dev->ct_type = VMCIOBJ_CONTEXT; atomic_inc(&vmci_host_active_users); vmci_call_vsock_callback(true); retval = 0; out: mutex_unlock(&vmci_host_dev->lock); return retval; } static int vmci_host_do_send_datagram(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_datagram_snd_rcv_info send_info; struct vmci_datagram *dg = NULL; u32 cid; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&send_info, uptr, sizeof(send_info))) return -EFAULT; if (send_info.len > VMCI_MAX_DG_SIZE) { vmci_ioctl_err("datagram is too big (size=%d)\n", send_info.len); return -EINVAL; } if (send_info.len < sizeof(*dg)) { vmci_ioctl_err("datagram is too small (size=%d)\n", send_info.len); return -EINVAL; } dg = memdup_user((void __user *)(uintptr_t)send_info.addr, send_info.len); if (IS_ERR(dg)) { vmci_ioctl_err( "cannot allocate memory to dispatch datagram\n"); return PTR_ERR(dg); } if (VMCI_DG_SIZE(dg) != send_info.len) { vmci_ioctl_err("datagram size mismatch\n"); kfree(dg); return -EINVAL; } pr_devel("Datagram dst (handle=0x%x:0x%x) src (handle=0x%x:0x%x), payload (size=%llu bytes)\n", dg->dst.context, dg->dst.resource, dg->src.context, dg->src.resource, (unsigned long long)dg->payload_size); /* Get source context id. */ cid = vmci_ctx_get_id(vmci_host_dev->context); send_info.result = vmci_datagram_dispatch(cid, dg, true); kfree(dg); return copy_to_user(uptr, &send_info, sizeof(send_info)) ? -EFAULT : 0; } static int vmci_host_do_receive_datagram(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_datagram_snd_rcv_info recv_info; struct vmci_datagram *dg = NULL; int retval; size_t size; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&recv_info, uptr, sizeof(recv_info))) return -EFAULT; size = recv_info.len; recv_info.result = vmci_ctx_dequeue_datagram(vmci_host_dev->context, &size, &dg); if (recv_info.result >= VMCI_SUCCESS) { void __user *ubuf = (void __user *)(uintptr_t)recv_info.addr; retval = copy_to_user(ubuf, dg, VMCI_DG_SIZE(dg)); kfree(dg); if (retval != 0) return -EFAULT; } return copy_to_user(uptr, &recv_info, sizeof(recv_info)) ? -EFAULT : 0; } static int vmci_host_do_alloc_queuepair(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_handle handle; int vmci_status; int __user *retptr; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (vmci_host_dev->user_version < VMCI_VERSION_NOVMVM) { struct vmci_qp_alloc_info_vmvm alloc_info; struct vmci_qp_alloc_info_vmvm __user *info = uptr; if (copy_from_user(&alloc_info, uptr, sizeof(alloc_info))) return -EFAULT; handle = alloc_info.handle; retptr = &info->result; vmci_status = vmci_qp_broker_alloc(alloc_info.handle, alloc_info.peer, alloc_info.flags, VMCI_NO_PRIVILEGE_FLAGS, alloc_info.produce_size, alloc_info.consume_size, NULL, vmci_host_dev->context); if (vmci_status == VMCI_SUCCESS) vmci_status = VMCI_SUCCESS_QUEUEPAIR_CREATE; } else { struct vmci_qp_alloc_info alloc_info; struct vmci_qp_alloc_info __user *info = uptr; struct vmci_qp_page_store page_store; if (copy_from_user(&alloc_info, uptr, sizeof(alloc_info))) return -EFAULT; handle = alloc_info.handle; retptr = &info->result; page_store.pages = alloc_info.ppn_va; page_store.len = alloc_info.num_ppns; vmci_status = vmci_qp_broker_alloc(alloc_info.handle, alloc_info.peer, alloc_info.flags, VMCI_NO_PRIVILEGE_FLAGS, alloc_info.produce_size, alloc_info.consume_size, &page_store, vmci_host_dev->context); } if (put_user(vmci_status, retptr)) { if (vmci_status >= VMCI_SUCCESS) { vmci_status = vmci_qp_broker_detach(handle, vmci_host_dev->context); } return -EFAULT; } return 0; } static int vmci_host_do_queuepair_setva(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_qp_set_va_info set_va_info; struct vmci_qp_set_va_info __user *info = uptr; s32 result; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (vmci_host_dev->user_version < VMCI_VERSION_NOVMVM) { vmci_ioctl_err("is not allowed\n"); return -EINVAL; } if (copy_from_user(&set_va_info, uptr, sizeof(set_va_info))) return -EFAULT; if (set_va_info.va) { /* * VMX is passing down a new VA for the queue * pair mapping. */ result = vmci_qp_broker_map(set_va_info.handle, vmci_host_dev->context, set_va_info.va); } else { /* * The queue pair is about to be unmapped by * the VMX. */ result = vmci_qp_broker_unmap(set_va_info.handle, vmci_host_dev->context, 0); } return put_user(result, &info->result) ? -EFAULT : 0; } static int vmci_host_do_queuepair_setpf(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_qp_page_file_info page_file_info; struct vmci_qp_page_file_info __user *info = uptr; s32 result; if (vmci_host_dev->user_version < VMCI_VERSION_HOSTQP || vmci_host_dev->user_version >= VMCI_VERSION_NOVMVM) { vmci_ioctl_err("not supported on this VMX (version=%d)\n", vmci_host_dev->user_version); return -EINVAL; } if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&page_file_info, uptr, sizeof(*info))) return -EFAULT; /* * Communicate success pre-emptively to the caller. Note that the * basic premise is that it is incumbent upon the caller not to look at * the info.result field until after the ioctl() returns. And then, * only if the ioctl() result indicates no error. We send up the * SUCCESS status before calling SetPageStore() store because failing * to copy up the result code means unwinding the SetPageStore(). * * It turns out the logic to unwind a SetPageStore() opens a can of * worms. For example, if a host had created the queue_pair and a * guest attaches and SetPageStore() is successful but writing success * fails, then ... the host has to be stopped from writing (anymore) * data into the queue_pair. That means an additional test in the * VMCI_Enqueue() code path. Ugh. */ if (put_user(VMCI_SUCCESS, &info->result)) { /* * In this case, we can't write a result field of the * caller's info block. So, we don't even try to * SetPageStore(). */ return -EFAULT; } result = vmci_qp_broker_set_page_store(page_file_info.handle, page_file_info.produce_va, page_file_info.consume_va, vmci_host_dev->context); if (result < VMCI_SUCCESS) { if (put_user(result, &info->result)) { /* * Note that in this case the SetPageStore() * call failed but we were unable to * communicate that to the caller (because the * copy_to_user() call failed). So, if we * simply return an error (in this case * -EFAULT) then the caller will know that the * SetPageStore failed even though we couldn't * put the result code in the result field and * indicate exactly why it failed. * * That says nothing about the issue where we * were once able to write to the caller's info * memory and now can't. Something more * serious is probably going on than the fact * that SetPageStore() didn't work. */ return -EFAULT; } } return 0; } static int vmci_host_do_qp_detach(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_qp_dtch_info detach_info; struct vmci_qp_dtch_info __user *info = uptr; s32 result; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&detach_info, uptr, sizeof(detach_info))) return -EFAULT; result = vmci_qp_broker_detach(detach_info.handle, vmci_host_dev->context); if (result == VMCI_SUCCESS && vmci_host_dev->user_version < VMCI_VERSION_NOVMVM) { result = VMCI_SUCCESS_LAST_DETACH; } return put_user(result, &info->result) ? -EFAULT : 0; } static int vmci_host_do_ctx_add_notify(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_ctx_info ar_info; struct vmci_ctx_info __user *info = uptr; s32 result; u32 cid; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&ar_info, uptr, sizeof(ar_info))) return -EFAULT; cid = vmci_ctx_get_id(vmci_host_dev->context); result = vmci_ctx_add_notification(cid, ar_info.remote_cid); return put_user(result, &info->result) ? -EFAULT : 0; } static int vmci_host_do_ctx_remove_notify(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_ctx_info ar_info; struct vmci_ctx_info __user *info = uptr; u32 cid; int result; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&ar_info, uptr, sizeof(ar_info))) return -EFAULT; cid = vmci_ctx_get_id(vmci_host_dev->context); result = vmci_ctx_remove_notification(cid, ar_info.remote_cid); return put_user(result, &info->result) ? -EFAULT : 0; } static int vmci_host_do_ctx_get_cpt_state(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_ctx_chkpt_buf_info get_info; u32 cid; void *cpt_buf; int retval; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&get_info, uptr, sizeof(get_info))) return -EFAULT; cid = vmci_ctx_get_id(vmci_host_dev->context); get_info.result = vmci_ctx_get_chkpt_state(cid, get_info.cpt_type, &get_info.buf_size, &cpt_buf); if (get_info.result == VMCI_SUCCESS && get_info.buf_size) { void __user *ubuf = (void __user *)(uintptr_t)get_info.cpt_buf; retval = copy_to_user(ubuf, cpt_buf, get_info.buf_size); kfree(cpt_buf); if (retval) return -EFAULT; } return copy_to_user(uptr, &get_info, sizeof(get_info)) ? -EFAULT : 0; } static int vmci_host_do_ctx_set_cpt_state(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_ctx_chkpt_buf_info set_info; u32 cid; void *cpt_buf; int retval; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&set_info, uptr, sizeof(set_info))) return -EFAULT; cpt_buf = memdup_user((void __user *)(uintptr_t)set_info.cpt_buf, set_info.buf_size); if (IS_ERR(cpt_buf)) return PTR_ERR(cpt_buf); cid = vmci_ctx_get_id(vmci_host_dev->context); set_info.result = vmci_ctx_set_chkpt_state(cid, set_info.cpt_type, set_info.buf_size, cpt_buf); retval = copy_to_user(uptr, &set_info, sizeof(set_info)) ? -EFAULT : 0; kfree(cpt_buf); return retval; } static int vmci_host_do_get_context_id(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { u32 __user *u32ptr = uptr; return put_user(VMCI_HOST_CONTEXT_ID, u32ptr) ? -EFAULT : 0; } static int vmci_host_do_set_notify(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_set_notify_info notify_info; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(¬ify_info, uptr, sizeof(notify_info))) return -EFAULT; if (notify_info.notify_uva) { notify_info.result = vmci_host_setup_notify(vmci_host_dev->context, notify_info.notify_uva); } else { vmci_ctx_unset_notify(vmci_host_dev->context); notify_info.result = VMCI_SUCCESS; } return copy_to_user(uptr, ¬ify_info, sizeof(notify_info)) ? -EFAULT : 0; } static int vmci_host_do_notify_resource(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_dbell_notify_resource_info info; u32 cid; if (vmci_host_dev->user_version < VMCI_VERSION_NOTIFY) { vmci_ioctl_err("invalid for current VMX versions\n"); return -EINVAL; } if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (copy_from_user(&info, uptr, sizeof(info))) return -EFAULT; cid = vmci_ctx_get_id(vmci_host_dev->context); switch (info.action) { case VMCI_NOTIFY_RESOURCE_ACTION_NOTIFY: if (info.resource == VMCI_NOTIFY_RESOURCE_DOOR_BELL) { u32 flags = VMCI_NO_PRIVILEGE_FLAGS; info.result = vmci_ctx_notify_dbell(cid, info.handle, flags); } else { info.result = VMCI_ERROR_UNAVAILABLE; } break; case VMCI_NOTIFY_RESOURCE_ACTION_CREATE: info.result = vmci_ctx_dbell_create(cid, info.handle); break; case VMCI_NOTIFY_RESOURCE_ACTION_DESTROY: info.result = vmci_ctx_dbell_destroy(cid, info.handle); break; default: vmci_ioctl_err("got unknown action (action=%d)\n", info.action); info.result = VMCI_ERROR_INVALID_ARGS; } return copy_to_user(uptr, &info, sizeof(info)) ? -EFAULT : 0; } static int vmci_host_do_recv_notifications(struct vmci_host_dev *vmci_host_dev, const char *ioctl_name, void __user *uptr) { struct vmci_ctx_notify_recv_info info; struct vmci_handle_arr *db_handle_array; struct vmci_handle_arr *qp_handle_array; void __user *ubuf; u32 cid; int retval = 0; if (vmci_host_dev->ct_type != VMCIOBJ_CONTEXT) { vmci_ioctl_err("only valid for contexts\n"); return -EINVAL; } if (vmci_host_dev->user_version < VMCI_VERSION_NOTIFY) { vmci_ioctl_err("not supported for the current vmx version\n"); return -EINVAL; } if (copy_from_user(&info, uptr, sizeof(info))) return -EFAULT; if ((info.db_handle_buf_size && !info.db_handle_buf_uva) || (info.qp_handle_buf_size && !info.qp_handle_buf_uva)) { return -EINVAL; } cid = vmci_ctx_get_id(vmci_host_dev->context); info.result = vmci_ctx_rcv_notifications_get(cid, &db_handle_array, &qp_handle_array); if (info.result != VMCI_SUCCESS) return copy_to_user(uptr, &info, sizeof(info)) ? -EFAULT : 0; ubuf = (void __user *)(uintptr_t)info.db_handle_buf_uva; info.result = drv_cp_harray_to_user(ubuf, &info.db_handle_buf_size, db_handle_array, &retval); if (info.result == VMCI_SUCCESS && !retval) { ubuf = (void __user *)(uintptr_t)info.qp_handle_buf_uva; info.result = drv_cp_harray_to_user(ubuf, &info.qp_handle_buf_size, qp_handle_array, &retval); } if (!retval && copy_to_user(uptr, &info, sizeof(info))) retval = -EFAULT; vmci_ctx_rcv_notifications_release(cid, db_handle_array, qp_handle_array, info.result == VMCI_SUCCESS && !retval); return retval; } static long vmci_host_unlocked_ioctl(struct file *filp, unsigned int iocmd, unsigned long ioarg) { #define VMCI_DO_IOCTL(ioctl_name, ioctl_fn) do { \ char *name = "IOCTL_VMCI_" # ioctl_name; \ return vmci_host_do_ ## ioctl_fn( \ vmci_host_dev, name, uptr); \ } while (0) struct vmci_host_dev *vmci_host_dev = filp->private_data; void __user *uptr = (void __user *)ioarg; switch (iocmd) { case IOCTL_VMCI_INIT_CONTEXT: VMCI_DO_IOCTL(INIT_CONTEXT, init_context); case IOCTL_VMCI_DATAGRAM_SEND: VMCI_DO_IOCTL(DATAGRAM_SEND, send_datagram); case IOCTL_VMCI_DATAGRAM_RECEIVE: VMCI_DO_IOCTL(DATAGRAM_RECEIVE, receive_datagram); case IOCTL_VMCI_QUEUEPAIR_ALLOC: VMCI_DO_IOCTL(QUEUEPAIR_ALLOC, alloc_queuepair); case IOCTL_VMCI_QUEUEPAIR_SETVA: VMCI_DO_IOCTL(QUEUEPAIR_SETVA, queuepair_setva); case IOCTL_VMCI_QUEUEPAIR_SETPAGEFILE: VMCI_DO_IOCTL(QUEUEPAIR_SETPAGEFILE, queuepair_setpf); case IOCTL_VMCI_QUEUEPAIR_DETACH: VMCI_DO_IOCTL(QUEUEPAIR_DETACH, qp_detach); case IOCTL_VMCI_CTX_ADD_NOTIFICATION: VMCI_DO_IOCTL(CTX_ADD_NOTIFICATION, ctx_add_notify); case IOCTL_VMCI_CTX_REMOVE_NOTIFICATION: VMCI_DO_IOCTL(CTX_REMOVE_NOTIFICATION, ctx_remove_notify); case IOCTL_VMCI_CTX_GET_CPT_STATE: VMCI_DO_IOCTL(CTX_GET_CPT_STATE, ctx_get_cpt_state); case IOCTL_VMCI_CTX_SET_CPT_STATE: VMCI_DO_IOCTL(CTX_SET_CPT_STATE, ctx_set_cpt_state); case IOCTL_VMCI_GET_CONTEXT_ID: VMCI_DO_IOCTL(GET_CONTEXT_ID, get_context_id); case IOCTL_VMCI_SET_NOTIFY: VMCI_DO_IOCTL(SET_NOTIFY, set_notify); case IOCTL_VMCI_NOTIFY_RESOURCE: VMCI_DO_IOCTL(NOTIFY_RESOURCE, notify_resource); case IOCTL_VMCI_NOTIFICATIONS_RECEIVE: VMCI_DO_IOCTL(NOTIFICATIONS_RECEIVE, recv_notifications); case IOCTL_VMCI_VERSION: case IOCTL_VMCI_VERSION2: return vmci_host_get_version(vmci_host_dev, iocmd, uptr); default: pr_devel("%s: Unknown ioctl (iocmd=%d)\n", __func__, iocmd); return -EINVAL; } #undef VMCI_DO_IOCTL } static const struct file_operations vmuser_fops = { .owner = THIS_MODULE, .open = vmci_host_open, .release = vmci_host_close, .poll = vmci_host_poll, .unlocked_ioctl = vmci_host_unlocked_ioctl, .compat_ioctl = compat_ptr_ioctl, }; static struct miscdevice vmci_host_miscdev = { .name = "vmci", .minor = MISC_DYNAMIC_MINOR, .fops = &vmuser_fops, }; int __init vmci_host_init(void) { int error; host_context = vmci_ctx_create(VMCI_HOST_CONTEXT_ID, VMCI_DEFAULT_PROC_PRIVILEGE_FLAGS, -1, VMCI_VERSION, NULL); if (IS_ERR(host_context)) { error = PTR_ERR(host_context); pr_warn("Failed to initialize VMCIContext (error%d)\n", error); return error; } error = misc_register(&vmci_host_miscdev); if (error) { pr_warn("Module registration error (name=%s, major=%d, minor=%d, err=%d)\n", vmci_host_miscdev.name, MISC_MAJOR, vmci_host_miscdev.minor, error); pr_warn("Unable to initialize host personality\n"); vmci_ctx_destroy(host_context); return error; } pr_info("VMCI host device registered (name=%s, major=%d, minor=%d)\n", vmci_host_miscdev.name, MISC_MAJOR, vmci_host_miscdev.minor); vmci_host_device_initialized = true; return 0; } void __exit vmci_host_exit(void) { vmci_host_device_initialized = false; misc_deregister(&vmci_host_miscdev); vmci_ctx_destroy(host_context); vmci_qp_broker_exit(); pr_debug("VMCI host driver module unloaded\n"); }
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