Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Sudeep Dutt | 1657 | 75.70% | 3 | 42.86% |
Nikhil P Rao | 486 | 22.20% | 1 | 14.29% |
Ashutosh Dixit | 43 | 1.96% | 1 | 14.29% |
Thomas Gleixner | 2 | 0.09% | 1 | 14.29% |
Al Viro | 1 | 0.05% | 1 | 14.29% |
Total | 2189 | 7 |
// SPDX-License-Identifier: GPL-2.0-only /* * Intel MIC Platform Software Stack (MPSS) * * Copyright(c) 2014 Intel Corporation. * * Intel SCIF driver. */ #include "scif_main.h" static int scif_fdopen(struct inode *inode, struct file *f) { struct scif_endpt *priv = scif_open(); if (!priv) return -ENOMEM; f->private_data = priv; return 0; } static int scif_fdclose(struct inode *inode, struct file *f) { struct scif_endpt *priv = f->private_data; return scif_close(priv); } static int scif_fdmmap(struct file *f, struct vm_area_struct *vma) { struct scif_endpt *priv = f->private_data; return scif_mmap(vma, priv); } static __poll_t scif_fdpoll(struct file *f, poll_table *wait) { struct scif_endpt *priv = f->private_data; return __scif_pollfd(f, wait, priv); } static int scif_fdflush(struct file *f, fl_owner_t id) { struct scif_endpt *ep = f->private_data; spin_lock(&ep->lock); /* * The listening endpoint stashes the open file information before * waiting for incoming connections. The release callback would never be * called if the application closed the endpoint, while waiting for * incoming connections from a separate thread since the file descriptor * reference count is bumped up in the accept IOCTL. Call the flush * routine if the id matches the endpoint open file information so that * the listening endpoint can be woken up and the fd released. */ if (ep->files == id) __scif_flush(ep); spin_unlock(&ep->lock); return 0; } static __always_inline void scif_err_debug(int err, const char *str) { /* * ENOTCONN is a common uninteresting error which is * flooding debug messages to the console unnecessarily. */ if (err < 0 && err != -ENOTCONN) dev_dbg(scif_info.mdev.this_device, "%s err %d\n", str, err); } static long scif_fdioctl(struct file *f, unsigned int cmd, unsigned long arg) { struct scif_endpt *priv = f->private_data; void __user *argp = (void __user *)arg; int err = 0; struct scifioctl_msg request; bool non_block = false; non_block = !!(f->f_flags & O_NONBLOCK); switch (cmd) { case SCIF_BIND: { int pn; if (copy_from_user(&pn, argp, sizeof(pn))) return -EFAULT; pn = scif_bind(priv, pn); if (pn < 0) return pn; if (copy_to_user(argp, &pn, sizeof(pn))) return -EFAULT; return 0; } case SCIF_LISTEN: return scif_listen(priv, arg); case SCIF_CONNECT: { struct scifioctl_connect req; struct scif_endpt *ep = (struct scif_endpt *)priv; if (copy_from_user(&req, argp, sizeof(req))) return -EFAULT; err = __scif_connect(priv, &req.peer, non_block); if (err < 0) return err; req.self.node = ep->port.node; req.self.port = ep->port.port; if (copy_to_user(argp, &req, sizeof(req))) return -EFAULT; return 0; } /* * Accept is done in two halves. The request ioctl does the basic * functionality of accepting the request and returning the information * about it including the internal ID of the end point. The register * is done with the internal ID on a new file descriptor opened by the * requesting process. */ case SCIF_ACCEPTREQ: { struct scifioctl_accept request; scif_epd_t *ep = (scif_epd_t *)&request.endpt; if (copy_from_user(&request, argp, sizeof(request))) return -EFAULT; err = scif_accept(priv, &request.peer, ep, request.flags); if (err < 0) return err; if (copy_to_user(argp, &request, sizeof(request))) { scif_close(*ep); return -EFAULT; } /* * Add to the list of user mode eps where the second half * of the accept is not yet completed. */ mutex_lock(&scif_info.eplock); list_add_tail(&((*ep)->miacceptlist), &scif_info.uaccept); list_add_tail(&((*ep)->liacceptlist), &priv->li_accept); (*ep)->listenep = priv; priv->acceptcnt++; mutex_unlock(&scif_info.eplock); return 0; } case SCIF_ACCEPTREG: { struct scif_endpt *priv = f->private_data; struct scif_endpt *newep; struct scif_endpt *lisep; struct scif_endpt *fep = NULL; struct scif_endpt *tmpep; struct list_head *pos, *tmpq; /* Finally replace the pointer to the accepted endpoint */ if (copy_from_user(&newep, argp, sizeof(void *))) return -EFAULT; /* Remove form the user accept queue */ mutex_lock(&scif_info.eplock); list_for_each_safe(pos, tmpq, &scif_info.uaccept) { tmpep = list_entry(pos, struct scif_endpt, miacceptlist); if (tmpep == newep) { list_del(pos); fep = tmpep; break; } } if (!fep) { mutex_unlock(&scif_info.eplock); return -ENOENT; } lisep = newep->listenep; list_for_each_safe(pos, tmpq, &lisep->li_accept) { tmpep = list_entry(pos, struct scif_endpt, liacceptlist); if (tmpep == newep) { list_del(pos); lisep->acceptcnt--; break; } } mutex_unlock(&scif_info.eplock); /* Free the resources automatically created from the open. */ scif_anon_inode_fput(priv); scif_teardown_ep(priv); scif_add_epd_to_zombie_list(priv, !SCIF_EPLOCK_HELD); f->private_data = newep; return 0; } case SCIF_SEND: { struct scif_endpt *priv = f->private_data; if (copy_from_user(&request, argp, sizeof(struct scifioctl_msg))) { err = -EFAULT; goto send_err; } err = scif_user_send(priv, (void __user *)request.msg, request.len, request.flags); if (err < 0) goto send_err; if (copy_to_user(& ((struct scifioctl_msg __user *)argp)->out_len, &err, sizeof(err))) { err = -EFAULT; goto send_err; } err = 0; send_err: scif_err_debug(err, "scif_send"); return err; } case SCIF_RECV: { struct scif_endpt *priv = f->private_data; if (copy_from_user(&request, argp, sizeof(struct scifioctl_msg))) { err = -EFAULT; goto recv_err; } err = scif_user_recv(priv, (void __user *)request.msg, request.len, request.flags); if (err < 0) goto recv_err; if (copy_to_user(& ((struct scifioctl_msg __user *)argp)->out_len, &err, sizeof(err))) { err = -EFAULT; goto recv_err; } err = 0; recv_err: scif_err_debug(err, "scif_recv"); return err; } case SCIF_GET_NODEIDS: { struct scifioctl_node_ids node_ids; int entries; u16 *nodes; void __user *unodes, *uself; u16 self; if (copy_from_user(&node_ids, argp, sizeof(node_ids))) { err = -EFAULT; goto getnodes_err2; } entries = min_t(int, scif_info.maxid, node_ids.len); nodes = kmalloc_array(entries, sizeof(u16), GFP_KERNEL); if (entries && !nodes) { err = -ENOMEM; goto getnodes_err2; } node_ids.len = scif_get_node_ids(nodes, entries, &self); unodes = (void __user *)node_ids.nodes; if (copy_to_user(unodes, nodes, sizeof(u16) * entries)) { err = -EFAULT; goto getnodes_err1; } uself = (void __user *)node_ids.self; if (copy_to_user(uself, &self, sizeof(u16))) { err = -EFAULT; goto getnodes_err1; } if (copy_to_user(argp, &node_ids, sizeof(node_ids))) { err = -EFAULT; goto getnodes_err1; } getnodes_err1: kfree(nodes); getnodes_err2: return err; } case SCIF_REG: { struct scif_endpt *priv = f->private_data; struct scifioctl_reg reg; off_t ret; if (copy_from_user(®, argp, sizeof(reg))) { err = -EFAULT; goto reg_err; } if (reg.flags & SCIF_MAP_KERNEL) { err = -EINVAL; goto reg_err; } ret = scif_register(priv, (void *)reg.addr, reg.len, reg.offset, reg.prot, reg.flags); if (ret < 0) { err = (int)ret; goto reg_err; } if (copy_to_user(&((struct scifioctl_reg __user *)argp) ->out_offset, &ret, sizeof(reg.out_offset))) { err = -EFAULT; goto reg_err; } err = 0; reg_err: scif_err_debug(err, "scif_register"); return err; } case SCIF_UNREG: { struct scif_endpt *priv = f->private_data; struct scifioctl_unreg unreg; if (copy_from_user(&unreg, argp, sizeof(unreg))) { err = -EFAULT; goto unreg_err; } err = scif_unregister(priv, unreg.offset, unreg.len); unreg_err: scif_err_debug(err, "scif_unregister"); return err; } case SCIF_READFROM: { struct scif_endpt *priv = f->private_data; struct scifioctl_copy copy; if (copy_from_user(©, argp, sizeof(copy))) { err = -EFAULT; goto readfrom_err; } err = scif_readfrom(priv, copy.loffset, copy.len, copy.roffset, copy.flags); readfrom_err: scif_err_debug(err, "scif_readfrom"); return err; } case SCIF_WRITETO: { struct scif_endpt *priv = f->private_data; struct scifioctl_copy copy; if (copy_from_user(©, argp, sizeof(copy))) { err = -EFAULT; goto writeto_err; } err = scif_writeto(priv, copy.loffset, copy.len, copy.roffset, copy.flags); writeto_err: scif_err_debug(err, "scif_writeto"); return err; } case SCIF_VREADFROM: { struct scif_endpt *priv = f->private_data; struct scifioctl_copy copy; if (copy_from_user(©, argp, sizeof(copy))) { err = -EFAULT; goto vreadfrom_err; } err = scif_vreadfrom(priv, (void __force *)copy.addr, copy.len, copy.roffset, copy.flags); vreadfrom_err: scif_err_debug(err, "scif_vreadfrom"); return err; } case SCIF_VWRITETO: { struct scif_endpt *priv = f->private_data; struct scifioctl_copy copy; if (copy_from_user(©, argp, sizeof(copy))) { err = -EFAULT; goto vwriteto_err; } err = scif_vwriteto(priv, (void __force *)copy.addr, copy.len, copy.roffset, copy.flags); vwriteto_err: scif_err_debug(err, "scif_vwriteto"); return err; } case SCIF_FENCE_MARK: { struct scif_endpt *priv = f->private_data; struct scifioctl_fence_mark mark; int tmp_mark = 0; if (copy_from_user(&mark, argp, sizeof(mark))) { err = -EFAULT; goto fence_mark_err; } err = scif_fence_mark(priv, mark.flags, &tmp_mark); if (err) goto fence_mark_err; if (copy_to_user((void __user *)mark.mark, &tmp_mark, sizeof(tmp_mark))) { err = -EFAULT; goto fence_mark_err; } fence_mark_err: scif_err_debug(err, "scif_fence_mark"); return err; } case SCIF_FENCE_WAIT: { struct scif_endpt *priv = f->private_data; err = scif_fence_wait(priv, arg); scif_err_debug(err, "scif_fence_wait"); return err; } case SCIF_FENCE_SIGNAL: { struct scif_endpt *priv = f->private_data; struct scifioctl_fence_signal signal; if (copy_from_user(&signal, argp, sizeof(signal))) { err = -EFAULT; goto fence_signal_err; } err = scif_fence_signal(priv, signal.loff, signal.lval, signal.roff, signal.rval, signal.flags); fence_signal_err: scif_err_debug(err, "scif_fence_signal"); return err; } } return -EINVAL; } const struct file_operations scif_fops = { .open = scif_fdopen, .release = scif_fdclose, .unlocked_ioctl = scif_fdioctl, .mmap = scif_fdmmap, .poll = scif_fdpoll, .flush = scif_fdflush, .owner = THIS_MODULE, };
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