drivers/misc/fastrpc.c at v6.6-rc2

tjh.dev / kernel
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Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
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kernel / drivers / misc / fastrpc.c
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   1// SPDX-License-Identifier: GPL-2.0
   2// Copyright (c) 2011-2018, The Linux Foundation. All rights reserved.
   3// Copyright (c) 2018, Linaro Limited
   4
   5#include <linux/completion.h>
   6#include <linux/device.h>
   7#include <linux/dma-buf.h>
   8#include <linux/dma-mapping.h>
   9#include <linux/dma-resv.h>
  10#include <linux/idr.h>
  11#include <linux/list.h>
  12#include <linux/miscdevice.h>
  13#include <linux/module.h>
  14#include <linux/of_address.h>
  15#include <linux/of.h>
  16#include <linux/platform_device.h>
  17#include <linux/sort.h>
  18#include <linux/of_platform.h>
  19#include <linux/rpmsg.h>
  20#include <linux/scatterlist.h>
  21#include <linux/slab.h>
  22#include <linux/firmware/qcom/qcom_scm.h>
  23#include <uapi/misc/fastrpc.h>
  24#include <linux/of_reserved_mem.h>
  25
  26#define ADSP_DOMAIN_ID (0)
  27#define MDSP_DOMAIN_ID (1)
  28#define SDSP_DOMAIN_ID (2)
  29#define CDSP_DOMAIN_ID (3)
  30#define FASTRPC_DEV_MAX		4 /* adsp, mdsp, slpi, cdsp*/
  31#define FASTRPC_MAX_SESSIONS	14
  32#define FASTRPC_MAX_VMIDS	16
  33#define FASTRPC_ALIGN		128
  34#define FASTRPC_MAX_FDLIST	16
  35#define FASTRPC_MAX_CRCLIST	64
  36#define FASTRPC_PHYS(p)	((p) & 0xffffffff)
  37#define FASTRPC_CTX_MAX (256)
  38#define FASTRPC_INIT_HANDLE	1
  39#define FASTRPC_DSP_UTILITIES_HANDLE	2
  40#define FASTRPC_CTXID_MASK (0xFF0)
  41#define INIT_FILELEN_MAX (2 * 1024 * 1024)
  42#define INIT_FILE_NAMELEN_MAX (128)
  43#define FASTRPC_DEVICE_NAME	"fastrpc"
  44
  45/* Add memory to static PD pool, protection thru XPU */
  46#define ADSP_MMAP_HEAP_ADDR  4
  47/* MAP static DMA buffer on DSP User PD */
  48#define ADSP_MMAP_DMA_BUFFER  6
  49/* Add memory to static PD pool protection thru hypervisor */
  50#define ADSP_MMAP_REMOTE_HEAP_ADDR  8
  51/* Add memory to userPD pool, for user heap */
  52#define ADSP_MMAP_ADD_PAGES 0x1000
  53/* Add memory to userPD pool, for LLC heap */
  54#define ADSP_MMAP_ADD_PAGES_LLC 0x3000,
  55
  56#define DSP_UNSUPPORTED_API (0x80000414)
  57/* MAX NUMBER of DSP ATTRIBUTES SUPPORTED */
  58#define FASTRPC_MAX_DSP_ATTRIBUTES (256)
  59#define FASTRPC_MAX_DSP_ATTRIBUTES_LEN (sizeof(u32) * FASTRPC_MAX_DSP_ATTRIBUTES)
  60
  61/* Retrives number of input buffers from the scalars parameter */
  62#define REMOTE_SCALARS_INBUFS(sc)	(((sc) >> 16) & 0x0ff)
  63
  64/* Retrives number of output buffers from the scalars parameter */
  65#define REMOTE_SCALARS_OUTBUFS(sc)	(((sc) >> 8) & 0x0ff)
  66
  67/* Retrives number of input handles from the scalars parameter */
  68#define REMOTE_SCALARS_INHANDLES(sc)	(((sc) >> 4) & 0x0f)
  69
  70/* Retrives number of output handles from the scalars parameter */
  71#define REMOTE_SCALARS_OUTHANDLES(sc)	((sc) & 0x0f)
  72
  73#define REMOTE_SCALARS_LENGTH(sc)	(REMOTE_SCALARS_INBUFS(sc) +   \
  74					 REMOTE_SCALARS_OUTBUFS(sc) +  \
  75					 REMOTE_SCALARS_INHANDLES(sc)+ \
  76					 REMOTE_SCALARS_OUTHANDLES(sc))
  77#define FASTRPC_BUILD_SCALARS(attr, method, in, out, oin, oout)  \
  78				(((attr & 0x07) << 29) |		\
  79				((method & 0x1f) << 24) |	\
  80				((in & 0xff) << 16) |		\
  81				((out & 0xff) <<  8) |		\
  82				((oin & 0x0f) <<  4) |		\
  83				(oout & 0x0f))
  84
  85#define FASTRPC_SCALARS(method, in, out) \
  86		FASTRPC_BUILD_SCALARS(0, method, in, out, 0, 0)
  87
  88#define FASTRPC_CREATE_PROCESS_NARGS	6
  89#define FASTRPC_CREATE_STATIC_PROCESS_NARGS	3
  90/* Remote Method id table */
  91#define FASTRPC_RMID_INIT_ATTACH	0
  92#define FASTRPC_RMID_INIT_RELEASE	1
  93#define FASTRPC_RMID_INIT_MMAP		4
  94#define FASTRPC_RMID_INIT_MUNMAP	5
  95#define FASTRPC_RMID_INIT_CREATE	6
  96#define FASTRPC_RMID_INIT_CREATE_ATTR	7
  97#define FASTRPC_RMID_INIT_CREATE_STATIC	8
  98#define FASTRPC_RMID_INIT_MEM_MAP      10
  99#define FASTRPC_RMID_INIT_MEM_UNMAP    11
 100
 101/* Protection Domain(PD) ids */
 102#define ROOT_PD		(0)
 103#define USER_PD		(1)
 104#define SENSORS_PD	(2)
 105
 106#define miscdev_to_fdevice(d) container_of(d, struct fastrpc_device, miscdev)
 107
 108static const char *domains[FASTRPC_DEV_MAX] = { "adsp", "mdsp",
 109						"sdsp", "cdsp"};
 110struct fastrpc_phy_page {
 111	u64 addr;		/* physical address */
 112	u64 size;		/* size of contiguous region */
 113};
 114
 115struct fastrpc_invoke_buf {
 116	u32 num;		/* number of contiguous regions */
 117	u32 pgidx;		/* index to start of contiguous region */
 118};
 119
 120struct fastrpc_remote_dmahandle {
 121	s32 fd;		/* dma handle fd */
 122	u32 offset;	/* dma handle offset */
 123	u32 len;	/* dma handle length */
 124};
 125
 126struct fastrpc_remote_buf {
 127	u64 pv;		/* buffer pointer */
 128	u64 len;	/* length of buffer */
 129};
 130
 131union fastrpc_remote_arg {
 132	struct fastrpc_remote_buf buf;
 133	struct fastrpc_remote_dmahandle dma;
 134};
 135
 136struct fastrpc_mmap_rsp_msg {
 137	u64 vaddr;
 138};
 139
 140struct fastrpc_mmap_req_msg {
 141	s32 pgid;
 142	u32 flags;
 143	u64 vaddr;
 144	s32 num;
 145};
 146
 147struct fastrpc_mem_map_req_msg {
 148	s32 pgid;
 149	s32 fd;
 150	s32 offset;
 151	u32 flags;
 152	u64 vaddrin;
 153	s32 num;
 154	s32 data_len;
 155};
 156
 157struct fastrpc_munmap_req_msg {
 158	s32 pgid;
 159	u64 vaddr;
 160	u64 size;
 161};
 162
 163struct fastrpc_mem_unmap_req_msg {
 164	s32 pgid;
 165	s32 fd;
 166	u64 vaddrin;
 167	u64 len;
 168};
 169
 170struct fastrpc_msg {
 171	int pid;		/* process group id */
 172	int tid;		/* thread id */
 173	u64 ctx;		/* invoke caller context */
 174	u32 handle;	/* handle to invoke */
 175	u32 sc;		/* scalars structure describing the data */
 176	u64 addr;		/* physical address */
 177	u64 size;		/* size of contiguous region */
 178};
 179
 180struct fastrpc_invoke_rsp {
 181	u64 ctx;		/* invoke caller context */
 182	int retval;		/* invoke return value */
 183};
 184
 185struct fastrpc_buf_overlap {
 186	u64 start;
 187	u64 end;
 188	int raix;
 189	u64 mstart;
 190	u64 mend;
 191	u64 offset;
 192};
 193
 194struct fastrpc_buf {
 195	struct fastrpc_user *fl;
 196	struct dma_buf *dmabuf;
 197	struct device *dev;
 198	void *virt;
 199	u64 phys;
 200	u64 size;
 201	/* Lock for dma buf attachments */
 202	struct mutex lock;
 203	struct list_head attachments;
 204	/* mmap support */
 205	struct list_head node; /* list of user requested mmaps */
 206	uintptr_t raddr;
 207};
 208
 209struct fastrpc_dma_buf_attachment {
 210	struct device *dev;
 211	struct sg_table sgt;
 212	struct list_head node;
 213};
 214
 215struct fastrpc_map {
 216	struct list_head node;
 217	struct fastrpc_user *fl;
 218	int fd;
 219	struct dma_buf *buf;
 220	struct sg_table *table;
 221	struct dma_buf_attachment *attach;
 222	u64 phys;
 223	u64 size;
 224	void *va;
 225	u64 len;
 226	u64 raddr;
 227	u32 attr;
 228	struct kref refcount;
 229};
 230
 231struct fastrpc_invoke_ctx {
 232	int nscalars;
 233	int nbufs;
 234	int retval;
 235	int pid;
 236	int tgid;
 237	u32 sc;
 238	u32 *crc;
 239	u64 ctxid;
 240	u64 msg_sz;
 241	struct kref refcount;
 242	struct list_head node; /* list of ctxs */
 243	struct completion work;
 244	struct work_struct put_work;
 245	struct fastrpc_msg msg;
 246	struct fastrpc_user *fl;
 247	union fastrpc_remote_arg *rpra;
 248	struct fastrpc_map **maps;
 249	struct fastrpc_buf *buf;
 250	struct fastrpc_invoke_args *args;
 251	struct fastrpc_buf_overlap *olaps;
 252	struct fastrpc_channel_ctx *cctx;
 253};
 254
 255struct fastrpc_session_ctx {
 256	struct device *dev;
 257	int sid;
 258	bool used;
 259	bool valid;
 260};
 261
 262struct fastrpc_channel_ctx {
 263	int domain_id;
 264	int sesscount;
 265	int vmcount;
 266	u64 perms;
 267	struct qcom_scm_vmperm vmperms[FASTRPC_MAX_VMIDS];
 268	struct rpmsg_device *rpdev;
 269	struct fastrpc_session_ctx session[FASTRPC_MAX_SESSIONS];
 270	spinlock_t lock;
 271	struct idr ctx_idr;
 272	struct list_head users;
 273	struct kref refcount;
 274	/* Flag if dsp attributes are cached */
 275	bool valid_attributes;
 276	u32 dsp_attributes[FASTRPC_MAX_DSP_ATTRIBUTES];
 277	struct fastrpc_device *secure_fdevice;
 278	struct fastrpc_device *fdevice;
 279	struct fastrpc_buf *remote_heap;
 280	struct list_head invoke_interrupted_mmaps;
 281	bool secure;
 282	bool unsigned_support;
 283	u64 dma_mask;
 284};
 285
 286struct fastrpc_device {
 287	struct fastrpc_channel_ctx *cctx;
 288	struct miscdevice miscdev;
 289	bool secure;
 290};
 291
 292struct fastrpc_user {
 293	struct list_head user;
 294	struct list_head maps;
 295	struct list_head pending;
 296	struct list_head mmaps;
 297
 298	struct fastrpc_channel_ctx *cctx;
 299	struct fastrpc_session_ctx *sctx;
 300	struct fastrpc_buf *init_mem;
 301
 302	int tgid;
 303	int pd;
 304	bool is_secure_dev;
 305	/* Lock for lists */
 306	spinlock_t lock;
 307	/* lock for allocations */
 308	struct mutex mutex;
 309};
 310
 311static void fastrpc_free_map(struct kref *ref)
 312{
 313	struct fastrpc_map *map;
 314
 315	map = container_of(ref, struct fastrpc_map, refcount);
 316
 317	if (map->table) {
 318		if (map->attr & FASTRPC_ATTR_SECUREMAP) {
 319			struct qcom_scm_vmperm perm;
 320			int vmid = map->fl->cctx->vmperms[0].vmid;
 321			u64 src_perms = BIT(QCOM_SCM_VMID_HLOS) | BIT(vmid);
 322			int err = 0;
 323
 324			perm.vmid = QCOM_SCM_VMID_HLOS;
 325			perm.perm = QCOM_SCM_PERM_RWX;
 326			err = qcom_scm_assign_mem(map->phys, map->size,
 327				&src_perms, &perm, 1);
 328			if (err) {
 329				dev_err(map->fl->sctx->dev, "Failed to assign memory phys 0x%llx size 0x%llx err %d",
 330						map->phys, map->size, err);
 331				return;
 332			}
 333		}
 334		dma_buf_unmap_attachment_unlocked(map->attach, map->table,
 335						  DMA_BIDIRECTIONAL);
 336		dma_buf_detach(map->buf, map->attach);
 337		dma_buf_put(map->buf);
 338	}
 339
 340	if (map->fl) {
 341		spin_lock(&map->fl->lock);
 342		list_del(&map->node);
 343		spin_unlock(&map->fl->lock);
 344		map->fl = NULL;
 345	}
 346
 347	kfree(map);
 348}
 349
 350static void fastrpc_map_put(struct fastrpc_map *map)
 351{
 352	if (map)
 353		kref_put(&map->refcount, fastrpc_free_map);
 354}
 355
 356static int fastrpc_map_get(struct fastrpc_map *map)
 357{
 358	if (!map)
 359		return -ENOENT;
 360
 361	return kref_get_unless_zero(&map->refcount) ? 0 : -ENOENT;
 362}
 363
 364
 365static int fastrpc_map_lookup(struct fastrpc_user *fl, int fd,
 366			    struct fastrpc_map **ppmap, bool take_ref)
 367{
 368	struct fastrpc_session_ctx *sess = fl->sctx;
 369	struct fastrpc_map *map = NULL;
 370	int ret = -ENOENT;
 371
 372	spin_lock(&fl->lock);
 373	list_for_each_entry(map, &fl->maps, node) {
 374		if (map->fd != fd)
 375			continue;
 376
 377		if (take_ref) {
 378			ret = fastrpc_map_get(map);
 379			if (ret) {
 380				dev_dbg(sess->dev, "%s: Failed to get map fd=%d ret=%d\n",
 381					__func__, fd, ret);
 382				break;
 383			}
 384		}
 385
 386		*ppmap = map;
 387		ret = 0;
 388		break;
 389	}
 390	spin_unlock(&fl->lock);
 391
 392	return ret;
 393}
 394
 395static void fastrpc_buf_free(struct fastrpc_buf *buf)
 396{
 397	dma_free_coherent(buf->dev, buf->size, buf->virt,
 398			  FASTRPC_PHYS(buf->phys));
 399	kfree(buf);
 400}
 401
 402static int __fastrpc_buf_alloc(struct fastrpc_user *fl, struct device *dev,
 403			     u64 size, struct fastrpc_buf **obuf)
 404{
 405	struct fastrpc_buf *buf;
 406
 407	buf = kzalloc(sizeof(*buf), GFP_KERNEL);
 408	if (!buf)
 409		return -ENOMEM;
 410
 411	INIT_LIST_HEAD(&buf->attachments);
 412	INIT_LIST_HEAD(&buf->node);
 413	mutex_init(&buf->lock);
 414
 415	buf->fl = fl;
 416	buf->virt = NULL;
 417	buf->phys = 0;
 418	buf->size = size;
 419	buf->dev = dev;
 420	buf->raddr = 0;
 421
 422	buf->virt = dma_alloc_coherent(dev, buf->size, (dma_addr_t *)&buf->phys,
 423				       GFP_KERNEL);
 424	if (!buf->virt) {
 425		mutex_destroy(&buf->lock);
 426		kfree(buf);
 427		return -ENOMEM;
 428	}
 429
 430	*obuf = buf;
 431
 432	return 0;
 433}
 434
 435static int fastrpc_buf_alloc(struct fastrpc_user *fl, struct device *dev,
 436			     u64 size, struct fastrpc_buf **obuf)
 437{
 438	int ret;
 439	struct fastrpc_buf *buf;
 440
 441	ret = __fastrpc_buf_alloc(fl, dev, size, obuf);
 442	if (ret)
 443		return ret;
 444
 445	buf = *obuf;
 446
 447	if (fl->sctx && fl->sctx->sid)
 448		buf->phys += ((u64)fl->sctx->sid << 32);
 449
 450	return 0;
 451}
 452
 453static int fastrpc_remote_heap_alloc(struct fastrpc_user *fl, struct device *dev,
 454				     u64 size, struct fastrpc_buf **obuf)
 455{
 456	struct device *rdev = &fl->cctx->rpdev->dev;
 457
 458	return  __fastrpc_buf_alloc(fl, rdev, size, obuf);
 459}
 460
 461static void fastrpc_channel_ctx_free(struct kref *ref)
 462{
 463	struct fastrpc_channel_ctx *cctx;
 464
 465	cctx = container_of(ref, struct fastrpc_channel_ctx, refcount);
 466
 467	kfree(cctx);
 468}
 469
 470static void fastrpc_channel_ctx_get(struct fastrpc_channel_ctx *cctx)
 471{
 472	kref_get(&cctx->refcount);
 473}
 474
 475static void fastrpc_channel_ctx_put(struct fastrpc_channel_ctx *cctx)
 476{
 477	kref_put(&cctx->refcount, fastrpc_channel_ctx_free);
 478}
 479
 480static void fastrpc_context_free(struct kref *ref)
 481{
 482	struct fastrpc_invoke_ctx *ctx;
 483	struct fastrpc_channel_ctx *cctx;
 484	unsigned long flags;
 485	int i;
 486
 487	ctx = container_of(ref, struct fastrpc_invoke_ctx, refcount);
 488	cctx = ctx->cctx;
 489
 490	for (i = 0; i < ctx->nbufs; i++)
 491		fastrpc_map_put(ctx->maps[i]);
 492
 493	if (ctx->buf)
 494		fastrpc_buf_free(ctx->buf);
 495
 496	spin_lock_irqsave(&cctx->lock, flags);
 497	idr_remove(&cctx->ctx_idr, ctx->ctxid >> 4);
 498	spin_unlock_irqrestore(&cctx->lock, flags);
 499
 500	kfree(ctx->maps);
 501	kfree(ctx->olaps);
 502	kfree(ctx);
 503
 504	fastrpc_channel_ctx_put(cctx);
 505}
 506
 507static void fastrpc_context_get(struct fastrpc_invoke_ctx *ctx)
 508{
 509	kref_get(&ctx->refcount);
 510}
 511
 512static void fastrpc_context_put(struct fastrpc_invoke_ctx *ctx)
 513{
 514	kref_put(&ctx->refcount, fastrpc_context_free);
 515}
 516
 517static void fastrpc_context_put_wq(struct work_struct *work)
 518{
 519	struct fastrpc_invoke_ctx *ctx =
 520			container_of(work, struct fastrpc_invoke_ctx, put_work);
 521
 522	fastrpc_context_put(ctx);
 523}
 524
 525#define CMP(aa, bb) ((aa) == (bb) ? 0 : (aa) < (bb) ? -1 : 1)
 526static int olaps_cmp(const void *a, const void *b)
 527{
 528	struct fastrpc_buf_overlap *pa = (struct fastrpc_buf_overlap *)a;
 529	struct fastrpc_buf_overlap *pb = (struct fastrpc_buf_overlap *)b;
 530	/* sort with lowest starting buffer first */
 531	int st = CMP(pa->start, pb->start);
 532	/* sort with highest ending buffer first */
 533	int ed = CMP(pb->end, pa->end);
 534
 535	return st == 0 ? ed : st;
 536}
 537
 538static void fastrpc_get_buff_overlaps(struct fastrpc_invoke_ctx *ctx)
 539{
 540	u64 max_end = 0;
 541	int i;
 542
 543	for (i = 0; i < ctx->nbufs; ++i) {
 544		ctx->olaps[i].start = ctx->args[i].ptr;
 545		ctx->olaps[i].end = ctx->olaps[i].start + ctx->args[i].length;
 546		ctx->olaps[i].raix = i;
 547	}
 548
 549	sort(ctx->olaps, ctx->nbufs, sizeof(*ctx->olaps), olaps_cmp, NULL);
 550
 551	for (i = 0; i < ctx->nbufs; ++i) {
 552		/* Falling inside previous range */
 553		if (ctx->olaps[i].start < max_end) {
 554			ctx->olaps[i].mstart = max_end;
 555			ctx->olaps[i].mend = ctx->olaps[i].end;
 556			ctx->olaps[i].offset = max_end - ctx->olaps[i].start;
 557
 558			if (ctx->olaps[i].end > max_end) {
 559				max_end = ctx->olaps[i].end;
 560			} else {
 561				ctx->olaps[i].mend = 0;
 562				ctx->olaps[i].mstart = 0;
 563			}
 564
 565		} else  {
 566			ctx->olaps[i].mend = ctx->olaps[i].end;
 567			ctx->olaps[i].mstart = ctx->olaps[i].start;
 568			ctx->olaps[i].offset = 0;
 569			max_end = ctx->olaps[i].end;
 570		}
 571	}
 572}
 573
 574static struct fastrpc_invoke_ctx *fastrpc_context_alloc(
 575			struct fastrpc_user *user, u32 kernel, u32 sc,
 576			struct fastrpc_invoke_args *args)
 577{
 578	struct fastrpc_channel_ctx *cctx = user->cctx;
 579	struct fastrpc_invoke_ctx *ctx = NULL;
 580	unsigned long flags;
 581	int ret;
 582
 583	ctx = kzalloc(sizeof(*ctx), GFP_KERNEL);
 584	if (!ctx)
 585		return ERR_PTR(-ENOMEM);
 586
 587	INIT_LIST_HEAD(&ctx->node);
 588	ctx->fl = user;
 589	ctx->nscalars = REMOTE_SCALARS_LENGTH(sc);
 590	ctx->nbufs = REMOTE_SCALARS_INBUFS(sc) +
 591		     REMOTE_SCALARS_OUTBUFS(sc);
 592
 593	if (ctx->nscalars) {
 594		ctx->maps = kcalloc(ctx->nscalars,
 595				    sizeof(*ctx->maps), GFP_KERNEL);
 596		if (!ctx->maps) {
 597			kfree(ctx);
 598			return ERR_PTR(-ENOMEM);
 599		}
 600		ctx->olaps = kcalloc(ctx->nscalars,
 601				    sizeof(*ctx->olaps), GFP_KERNEL);
 602		if (!ctx->olaps) {
 603			kfree(ctx->maps);
 604			kfree(ctx);
 605			return ERR_PTR(-ENOMEM);
 606		}
 607		ctx->args = args;
 608		fastrpc_get_buff_overlaps(ctx);
 609	}
 610
 611	/* Released in fastrpc_context_put() */
 612	fastrpc_channel_ctx_get(cctx);
 613
 614	ctx->sc = sc;
 615	ctx->retval = -1;
 616	ctx->pid = current->pid;
 617	ctx->tgid = user->tgid;
 618	ctx->cctx = cctx;
 619	init_completion(&ctx->work);
 620	INIT_WORK(&ctx->put_work, fastrpc_context_put_wq);
 621
 622	spin_lock(&user->lock);
 623	list_add_tail(&ctx->node, &user->pending);
 624	spin_unlock(&user->lock);
 625
 626	spin_lock_irqsave(&cctx->lock, flags);
 627	ret = idr_alloc_cyclic(&cctx->ctx_idr, ctx, 1,
 628			       FASTRPC_CTX_MAX, GFP_ATOMIC);
 629	if (ret < 0) {
 630		spin_unlock_irqrestore(&cctx->lock, flags);
 631		goto err_idr;
 632	}
 633	ctx->ctxid = ret << 4;
 634	spin_unlock_irqrestore(&cctx->lock, flags);
 635
 636	kref_init(&ctx->refcount);
 637
 638	return ctx;
 639err_idr:
 640	spin_lock(&user->lock);
 641	list_del(&ctx->node);
 642	spin_unlock(&user->lock);
 643	fastrpc_channel_ctx_put(cctx);
 644	kfree(ctx->maps);
 645	kfree(ctx->olaps);
 646	kfree(ctx);
 647
 648	return ERR_PTR(ret);
 649}
 650
 651static struct sg_table *
 652fastrpc_map_dma_buf(struct dma_buf_attachment *attachment,
 653		    enum dma_data_direction dir)
 654{
 655	struct fastrpc_dma_buf_attachment *a = attachment->priv;
 656	struct sg_table *table;
 657	int ret;
 658
 659	table = &a->sgt;
 660
 661	ret = dma_map_sgtable(attachment->dev, table, dir, 0);
 662	if (ret)
 663		table = ERR_PTR(ret);
 664	return table;
 665}
 666
 667static void fastrpc_unmap_dma_buf(struct dma_buf_attachment *attach,
 668				  struct sg_table *table,
 669				  enum dma_data_direction dir)
 670{
 671	dma_unmap_sgtable(attach->dev, table, dir, 0);
 672}
 673
 674static void fastrpc_release(struct dma_buf *dmabuf)
 675{
 676	struct fastrpc_buf *buffer = dmabuf->priv;
 677
 678	fastrpc_buf_free(buffer);
 679}
 680
 681static int fastrpc_dma_buf_attach(struct dma_buf *dmabuf,
 682				  struct dma_buf_attachment *attachment)
 683{
 684	struct fastrpc_dma_buf_attachment *a;
 685	struct fastrpc_buf *buffer = dmabuf->priv;
 686	int ret;
 687
 688	a = kzalloc(sizeof(*a), GFP_KERNEL);
 689	if (!a)
 690		return -ENOMEM;
 691
 692	ret = dma_get_sgtable(buffer->dev, &a->sgt, buffer->virt,
 693			      FASTRPC_PHYS(buffer->phys), buffer->size);
 694	if (ret < 0) {
 695		dev_err(buffer->dev, "failed to get scatterlist from DMA API\n");
 696		kfree(a);
 697		return -EINVAL;
 698	}
 699
 700	a->dev = attachment->dev;
 701	INIT_LIST_HEAD(&a->node);
 702	attachment->priv = a;
 703
 704	mutex_lock(&buffer->lock);
 705	list_add(&a->node, &buffer->attachments);
 706	mutex_unlock(&buffer->lock);
 707
 708	return 0;
 709}
 710
 711static void fastrpc_dma_buf_detatch(struct dma_buf *dmabuf,
 712				    struct dma_buf_attachment *attachment)
 713{
 714	struct fastrpc_dma_buf_attachment *a = attachment->priv;
 715	struct fastrpc_buf *buffer = dmabuf->priv;
 716
 717	mutex_lock(&buffer->lock);
 718	list_del(&a->node);
 719	mutex_unlock(&buffer->lock);
 720	sg_free_table(&a->sgt);
 721	kfree(a);
 722}
 723
 724static int fastrpc_vmap(struct dma_buf *dmabuf, struct iosys_map *map)
 725{
 726	struct fastrpc_buf *buf = dmabuf->priv;
 727
 728	iosys_map_set_vaddr(map, buf->virt);
 729
 730	return 0;
 731}
 732
 733static int fastrpc_mmap(struct dma_buf *dmabuf,
 734			struct vm_area_struct *vma)
 735{
 736	struct fastrpc_buf *buf = dmabuf->priv;
 737	size_t size = vma->vm_end - vma->vm_start;
 738
 739	dma_resv_assert_held(dmabuf->resv);
 740
 741	return dma_mmap_coherent(buf->dev, vma, buf->virt,
 742				 FASTRPC_PHYS(buf->phys), size);
 743}
 744
 745static const struct dma_buf_ops fastrpc_dma_buf_ops = {
 746	.attach = fastrpc_dma_buf_attach,
 747	.detach = fastrpc_dma_buf_detatch,
 748	.map_dma_buf = fastrpc_map_dma_buf,
 749	.unmap_dma_buf = fastrpc_unmap_dma_buf,
 750	.mmap = fastrpc_mmap,
 751	.vmap = fastrpc_vmap,
 752	.release = fastrpc_release,
 753};
 754
 755static int fastrpc_map_create(struct fastrpc_user *fl, int fd,
 756			      u64 len, u32 attr, struct fastrpc_map **ppmap)
 757{
 758	struct fastrpc_session_ctx *sess = fl->sctx;
 759	struct fastrpc_map *map = NULL;
 760	struct sg_table *table;
 761	int err = 0;
 762
 763	if (!fastrpc_map_lookup(fl, fd, ppmap, true))
 764		return 0;
 765
 766	map = kzalloc(sizeof(*map), GFP_KERNEL);
 767	if (!map)
 768		return -ENOMEM;
 769
 770	INIT_LIST_HEAD(&map->node);
 771	kref_init(&map->refcount);
 772
 773	map->fl = fl;
 774	map->fd = fd;
 775	map->buf = dma_buf_get(fd);
 776	if (IS_ERR(map->buf)) {
 777		err = PTR_ERR(map->buf);
 778		goto get_err;
 779	}
 780
 781	map->attach = dma_buf_attach(map->buf, sess->dev);
 782	if (IS_ERR(map->attach)) {
 783		dev_err(sess->dev, "Failed to attach dmabuf\n");
 784		err = PTR_ERR(map->attach);
 785		goto attach_err;
 786	}
 787
 788	table = dma_buf_map_attachment_unlocked(map->attach, DMA_BIDIRECTIONAL);
 789	if (IS_ERR(table)) {
 790		err = PTR_ERR(table);
 791		goto map_err;
 792	}
 793	map->table = table;
 794
 795	if (attr & FASTRPC_ATTR_SECUREMAP) {
 796		map->phys = sg_phys(map->table->sgl);
 797	} else {
 798		map->phys = sg_dma_address(map->table->sgl);
 799		map->phys += ((u64)fl->sctx->sid << 32);
 800	}
 801	map->size = len;
 802	map->va = sg_virt(map->table->sgl);
 803	map->len = len;
 804
 805	if (attr & FASTRPC_ATTR_SECUREMAP) {
 806		/*
 807		 * If subsystem VMIDs are defined in DTSI, then do
 808		 * hyp_assign from HLOS to those VM(s)
 809		 */
 810		u64 src_perms = BIT(QCOM_SCM_VMID_HLOS);
 811		struct qcom_scm_vmperm dst_perms[2] = {0};
 812
 813		dst_perms[0].vmid = QCOM_SCM_VMID_HLOS;
 814		dst_perms[0].perm = QCOM_SCM_PERM_RW;
 815		dst_perms[1].vmid = fl->cctx->vmperms[0].vmid;
 816		dst_perms[1].perm = QCOM_SCM_PERM_RWX;
 817		map->attr = attr;
 818		err = qcom_scm_assign_mem(map->phys, (u64)map->size, &src_perms, dst_perms, 2);
 819		if (err) {
 820			dev_err(sess->dev, "Failed to assign memory with phys 0x%llx size 0x%llx err %d",
 821					map->phys, map->size, err);
 822			goto map_err;
 823		}
 824	}
 825	spin_lock(&fl->lock);
 826	list_add_tail(&map->node, &fl->maps);
 827	spin_unlock(&fl->lock);
 828	*ppmap = map;
 829
 830	return 0;
 831
 832map_err:
 833	dma_buf_detach(map->buf, map->attach);
 834attach_err:
 835	dma_buf_put(map->buf);
 836get_err:
 837	fastrpc_map_put(map);
 838
 839	return err;
 840}
 841
 842/*
 843 * Fastrpc payload buffer with metadata looks like:
 844 *
 845 * >>>>>>  START of METADATA <<<<<<<<<
 846 * +---------------------------------+
 847 * |           Arguments             |
 848 * | type:(union fastrpc_remote_arg)|
 849 * |             (0 - N)             |
 850 * +---------------------------------+
 851 * |         Invoke Buffer list      |
 852 * | type:(struct fastrpc_invoke_buf)|
 853 * |           (0 - N)               |
 854 * +---------------------------------+
 855 * |         Page info list          |
 856 * | type:(struct fastrpc_phy_page)  |
 857 * |             (0 - N)             |
 858 * +---------------------------------+
 859 * |         Optional info           |
 860 * |(can be specific to SoC/Firmware)|
 861 * +---------------------------------+
 862 * >>>>>>>>  END of METADATA <<<<<<<<<
 863 * +---------------------------------+
 864 * |         Inline ARGS             |
 865 * |            (0-N)                |
 866 * +---------------------------------+
 867 */
 868
 869static int fastrpc_get_meta_size(struct fastrpc_invoke_ctx *ctx)
 870{
 871	int size = 0;
 872
 873	size = (sizeof(struct fastrpc_remote_buf) +
 874		sizeof(struct fastrpc_invoke_buf) +
 875		sizeof(struct fastrpc_phy_page)) * ctx->nscalars +
 876		sizeof(u64) * FASTRPC_MAX_FDLIST +
 877		sizeof(u32) * FASTRPC_MAX_CRCLIST;
 878
 879	return size;
 880}
 881
 882static u64 fastrpc_get_payload_size(struct fastrpc_invoke_ctx *ctx, int metalen)
 883{
 884	u64 size = 0;
 885	int oix;
 886
 887	size = ALIGN(metalen, FASTRPC_ALIGN);
 888	for (oix = 0; oix < ctx->nbufs; oix++) {
 889		int i = ctx->olaps[oix].raix;
 890
 891		if (ctx->args[i].fd == 0 || ctx->args[i].fd == -1) {
 892
 893			if (ctx->olaps[oix].offset == 0)
 894				size = ALIGN(size, FASTRPC_ALIGN);
 895
 896			size += (ctx->olaps[oix].mend - ctx->olaps[oix].mstart);
 897		}
 898	}
 899
 900	return size;
 901}
 902
 903static int fastrpc_create_maps(struct fastrpc_invoke_ctx *ctx)
 904{
 905	struct device *dev = ctx->fl->sctx->dev;
 906	int i, err;
 907
 908	for (i = 0; i < ctx->nscalars; ++i) {
 909
 910		if (ctx->args[i].fd == 0 || ctx->args[i].fd == -1 ||
 911		    ctx->args[i].length == 0)
 912			continue;
 913
 914		err = fastrpc_map_create(ctx->fl, ctx->args[i].fd,
 915			 ctx->args[i].length, ctx->args[i].attr, &ctx->maps[i]);
 916		if (err) {
 917			dev_err(dev, "Error Creating map %d\n", err);
 918			return -EINVAL;
 919		}
 920
 921	}
 922	return 0;
 923}
 924
 925static struct fastrpc_invoke_buf *fastrpc_invoke_buf_start(union fastrpc_remote_arg *pra, int len)
 926{
 927	return (struct fastrpc_invoke_buf *)(&pra[len]);
 928}
 929
 930static struct fastrpc_phy_page *fastrpc_phy_page_start(struct fastrpc_invoke_buf *buf, int len)
 931{
 932	return (struct fastrpc_phy_page *)(&buf[len]);
 933}
 934
 935static int fastrpc_get_args(u32 kernel, struct fastrpc_invoke_ctx *ctx)
 936{
 937	struct device *dev = ctx->fl->sctx->dev;
 938	union fastrpc_remote_arg *rpra;
 939	struct fastrpc_invoke_buf *list;
 940	struct fastrpc_phy_page *pages;
 941	int inbufs, i, oix, err = 0;
 942	u64 len, rlen, pkt_size;
 943	u64 pg_start, pg_end;
 944	uintptr_t args;
 945	int metalen;
 946
 947	inbufs = REMOTE_SCALARS_INBUFS(ctx->sc);
 948	metalen = fastrpc_get_meta_size(ctx);
 949	pkt_size = fastrpc_get_payload_size(ctx, metalen);
 950
 951	err = fastrpc_create_maps(ctx);
 952	if (err)
 953		return err;
 954
 955	ctx->msg_sz = pkt_size;
 956
 957	err = fastrpc_buf_alloc(ctx->fl, dev, pkt_size, &ctx->buf);
 958	if (err)
 959		return err;
 960
 961	rpra = ctx->buf->virt;
 962	list = fastrpc_invoke_buf_start(rpra, ctx->nscalars);
 963	pages = fastrpc_phy_page_start(list, ctx->nscalars);
 964	args = (uintptr_t)ctx->buf->virt + metalen;
 965	rlen = pkt_size - metalen;
 966	ctx->rpra = rpra;
 967
 968	for (oix = 0; oix < ctx->nbufs; ++oix) {
 969		int mlen;
 970
 971		i = ctx->olaps[oix].raix;
 972		len = ctx->args[i].length;
 973
 974		rpra[i].buf.pv = 0;
 975		rpra[i].buf.len = len;
 976		list[i].num = len ? 1 : 0;
 977		list[i].pgidx = i;
 978
 979		if (!len)
 980			continue;
 981
 982		if (ctx->maps[i]) {
 983			struct vm_area_struct *vma = NULL;
 984
 985			rpra[i].buf.pv = (u64) ctx->args[i].ptr;
 986			pages[i].addr = ctx->maps[i]->phys;
 987
 988			mmap_read_lock(current->mm);
 989			vma = find_vma(current->mm, ctx->args[i].ptr);
 990			if (vma)
 991				pages[i].addr += ctx->args[i].ptr -
 992						 vma->vm_start;
 993			mmap_read_unlock(current->mm);
 994
 995			pg_start = (ctx->args[i].ptr & PAGE_MASK) >> PAGE_SHIFT;
 996			pg_end = ((ctx->args[i].ptr + len - 1) & PAGE_MASK) >>
 997				  PAGE_SHIFT;
 998			pages[i].size = (pg_end - pg_start + 1) * PAGE_SIZE;
 999
1000		} else {
1001
1002			if (ctx->olaps[oix].offset == 0) {
1003				rlen -= ALIGN(args, FASTRPC_ALIGN) - args;
1004				args = ALIGN(args, FASTRPC_ALIGN);
1005			}
1006
1007			mlen = ctx->olaps[oix].mend - ctx->olaps[oix].mstart;
1008
1009			if (rlen < mlen)
1010				goto bail;
1011
1012			rpra[i].buf.pv = args - ctx->olaps[oix].offset;
1013			pages[i].addr = ctx->buf->phys -
1014					ctx->olaps[oix].offset +
1015					(pkt_size - rlen);
1016			pages[i].addr = pages[i].addr &	PAGE_MASK;
1017
1018			pg_start = (args & PAGE_MASK) >> PAGE_SHIFT;
1019			pg_end = ((args + len - 1) & PAGE_MASK) >> PAGE_SHIFT;
1020			pages[i].size = (pg_end - pg_start + 1) * PAGE_SIZE;
1021			args = args + mlen;
1022			rlen -= mlen;
1023		}
1024
1025		if (i < inbufs && !ctx->maps[i]) {
1026			void *dst = (void *)(uintptr_t)rpra[i].buf.pv;
1027			void *src = (void *)(uintptr_t)ctx->args[i].ptr;
1028
1029			if (!kernel) {
1030				if (copy_from_user(dst, (void __user *)src,
1031						   len)) {
1032					err = -EFAULT;
1033					goto bail;
1034				}
1035			} else {
1036				memcpy(dst, src, len);
1037			}
1038		}
1039	}
1040
1041	for (i = ctx->nbufs; i < ctx->nscalars; ++i) {
1042		list[i].num = ctx->args[i].length ? 1 : 0;
1043		list[i].pgidx = i;
1044		if (ctx->maps[i]) {
1045			pages[i].addr = ctx->maps[i]->phys;
1046			pages[i].size = ctx->maps[i]->size;
1047		}
1048		rpra[i].dma.fd = ctx->args[i].fd;
1049		rpra[i].dma.len = ctx->args[i].length;
1050		rpra[i].dma.offset = (u64) ctx->args[i].ptr;
1051	}
1052
1053bail:
1054	if (err)
1055		dev_err(dev, "Error: get invoke args failed:%d\n", err);
1056
1057	return err;
1058}
1059
1060static int fastrpc_put_args(struct fastrpc_invoke_ctx *ctx,
1061			    u32 kernel)
1062{
1063	union fastrpc_remote_arg *rpra = ctx->rpra;
1064	struct fastrpc_user *fl = ctx->fl;
1065	struct fastrpc_map *mmap = NULL;
1066	struct fastrpc_invoke_buf *list;
1067	struct fastrpc_phy_page *pages;
1068	u64 *fdlist;
1069	int i, inbufs, outbufs, handles;
1070
1071	inbufs = REMOTE_SCALARS_INBUFS(ctx->sc);
1072	outbufs = REMOTE_SCALARS_OUTBUFS(ctx->sc);
1073	handles = REMOTE_SCALARS_INHANDLES(ctx->sc) + REMOTE_SCALARS_OUTHANDLES(ctx->sc);
1074	list = fastrpc_invoke_buf_start(rpra, ctx->nscalars);
1075	pages = fastrpc_phy_page_start(list, ctx->nscalars);
1076	fdlist = (uint64_t *)(pages + inbufs + outbufs + handles);
1077
1078	for (i = inbufs; i < ctx->nbufs; ++i) {
1079		if (!ctx->maps[i]) {
1080			void *src = (void *)(uintptr_t)rpra[i].buf.pv;
1081			void *dst = (void *)(uintptr_t)ctx->args[i].ptr;
1082			u64 len = rpra[i].buf.len;
1083
1084			if (!kernel) {
1085				if (copy_to_user((void __user *)dst, src, len))
1086					return -EFAULT;
1087			} else {
1088				memcpy(dst, src, len);
1089			}
1090		}
1091	}
1092
1093	for (i = 0; i < FASTRPC_MAX_FDLIST; i++) {
1094		if (!fdlist[i])
1095			break;
1096		if (!fastrpc_map_lookup(fl, (int)fdlist[i], &mmap, false))
1097			fastrpc_map_put(mmap);
1098	}
1099
1100	return 0;
1101}
1102
1103static int fastrpc_invoke_send(struct fastrpc_session_ctx *sctx,
1104			       struct fastrpc_invoke_ctx *ctx,
1105			       u32 kernel, uint32_t handle)
1106{
1107	struct fastrpc_channel_ctx *cctx;
1108	struct fastrpc_user *fl = ctx->fl;
1109	struct fastrpc_msg *msg = &ctx->msg;
1110	int ret;
1111
1112	cctx = fl->cctx;
1113	msg->pid = fl->tgid;
1114	msg->tid = current->pid;
1115
1116	if (kernel)
1117		msg->pid = 0;
1118
1119	msg->ctx = ctx->ctxid | fl->pd;
1120	msg->handle = handle;
1121	msg->sc = ctx->sc;
1122	msg->addr = ctx->buf ? ctx->buf->phys : 0;
1123	msg->size = roundup(ctx->msg_sz, PAGE_SIZE);
1124	fastrpc_context_get(ctx);
1125
1126	ret = rpmsg_send(cctx->rpdev->ept, (void *)msg, sizeof(*msg));
1127
1128	if (ret)
1129		fastrpc_context_put(ctx);
1130
1131	return ret;
1132
1133}
1134
1135static int fastrpc_internal_invoke(struct fastrpc_user *fl,  u32 kernel,
1136				   u32 handle, u32 sc,
1137				   struct fastrpc_invoke_args *args)
1138{
1139	struct fastrpc_invoke_ctx *ctx = NULL;
1140	struct fastrpc_buf *buf, *b;
1141
1142	int err = 0;
1143
1144	if (!fl->sctx)
1145		return -EINVAL;
1146
1147	if (!fl->cctx->rpdev)
1148		return -EPIPE;
1149
1150	if (handle == FASTRPC_INIT_HANDLE && !kernel) {
1151		dev_warn_ratelimited(fl->sctx->dev, "user app trying to send a kernel RPC message (%d)\n",  handle);
1152		return -EPERM;
1153	}
1154
1155	ctx = fastrpc_context_alloc(fl, kernel, sc, args);
1156	if (IS_ERR(ctx))
1157		return PTR_ERR(ctx);
1158
1159	if (ctx->nscalars) {
1160		err = fastrpc_get_args(kernel, ctx);
1161		if (err)
1162			goto bail;
1163	}
1164
1165	/* make sure that all CPU memory writes are seen by DSP */
1166	dma_wmb();
1167	/* Send invoke buffer to remote dsp */
1168	err = fastrpc_invoke_send(fl->sctx, ctx, kernel, handle);
1169	if (err)
1170		goto bail;
1171
1172	if (kernel) {
1173		if (!wait_for_completion_timeout(&ctx->work, 10 * HZ))
1174			err = -ETIMEDOUT;
1175	} else {
1176		err = wait_for_completion_interruptible(&ctx->work);
1177	}
1178
1179	if (err)
1180		goto bail;
1181
1182	/* Check the response from remote dsp */
1183	err = ctx->retval;
1184	if (err)
1185		goto bail;
1186
1187	if (ctx->nscalars) {
1188		/* make sure that all memory writes by DSP are seen by CPU */
1189		dma_rmb();
1190		/* populate all the output buffers with results */
1191		err = fastrpc_put_args(ctx, kernel);
1192		if (err)
1193			goto bail;
1194	}
1195
1196bail:
1197	if (err != -ERESTARTSYS && err != -ETIMEDOUT) {
1198		/* We are done with this compute context */
1199		spin_lock(&fl->lock);
1200		list_del(&ctx->node);
1201		spin_unlock(&fl->lock);
1202		fastrpc_context_put(ctx);
1203	}
1204
1205	if (err == -ERESTARTSYS) {
1206		list_for_each_entry_safe(buf, b, &fl->mmaps, node) {
1207			list_del(&buf->node);
1208			list_add_tail(&buf->node, &fl->cctx->invoke_interrupted_mmaps);
1209		}
1210	}
1211
1212	if (err)
1213		dev_dbg(fl->sctx->dev, "Error: Invoke Failed %d\n", err);
1214
1215	return err;
1216}
1217
1218static bool is_session_rejected(struct fastrpc_user *fl, bool unsigned_pd_request)
1219{
1220	/* Check if the device node is non-secure and channel is secure*/
1221	if (!fl->is_secure_dev && fl->cctx->secure) {
1222		/*
1223		 * Allow untrusted applications to offload only to Unsigned PD when
1224		 * channel is configured as secure and block untrusted apps on channel
1225		 * that does not support unsigned PD offload
1226		 */
1227		if (!fl->cctx->unsigned_support || !unsigned_pd_request) {
1228			dev_err(&fl->cctx->rpdev->dev, "Error: Untrusted application trying to offload to signed PD");
1229			return true;
1230		}
1231	}
1232
1233	return false;
1234}
1235
1236static int fastrpc_init_create_static_process(struct fastrpc_user *fl,
1237					      char __user *argp)
1238{
1239	struct fastrpc_init_create_static init;
1240	struct fastrpc_invoke_args *args;
1241	struct fastrpc_phy_page pages[1];
1242	char *name;
1243	int err;
1244	struct {
1245		int pgid;
1246		u32 namelen;
1247		u32 pageslen;
1248	} inbuf;
1249	u32 sc;
1250
1251	args = kcalloc(FASTRPC_CREATE_STATIC_PROCESS_NARGS, sizeof(*args), GFP_KERNEL);
1252	if (!args)
1253		return -ENOMEM;
1254
1255	if (copy_from_user(&init, argp, sizeof(init))) {
1256		err = -EFAULT;
1257		goto err;
1258	}
1259
1260	if (init.namelen > INIT_FILE_NAMELEN_MAX) {
1261		err = -EINVAL;
1262		goto err;
1263	}
1264
1265	name = kzalloc(init.namelen, GFP_KERNEL);
1266	if (!name) {
1267		err = -ENOMEM;
1268		goto err;
1269	}
1270
1271	if (copy_from_user(name, (void __user *)(uintptr_t)init.name, init.namelen)) {
1272		err = -EFAULT;
1273		goto err_name;
1274	}
1275
1276	if (!fl->cctx->remote_heap) {
1277		err = fastrpc_remote_heap_alloc(fl, fl->sctx->dev, init.memlen,
1278						&fl->cctx->remote_heap);
1279		if (err)
1280			goto err_name;
1281
1282		/* Map if we have any heap VMIDs associated with this ADSP Static Process. */
1283		if (fl->cctx->vmcount) {
1284			err = qcom_scm_assign_mem(fl->cctx->remote_heap->phys,
1285							(u64)fl->cctx->remote_heap->size,
1286							&fl->cctx->perms,
1287							fl->cctx->vmperms, fl->cctx->vmcount);
1288			if (err) {
1289				dev_err(fl->sctx->dev, "Failed to assign memory with phys 0x%llx size 0x%llx err %d",
1290					fl->cctx->remote_heap->phys, fl->cctx->remote_heap->size, err);
1291				goto err_map;
1292			}
1293		}
1294	}
1295
1296	inbuf.pgid = fl->tgid;
1297	inbuf.namelen = init.namelen;
1298	inbuf.pageslen = 0;
1299	fl->pd = USER_PD;
1300
1301	args[0].ptr = (u64)(uintptr_t)&inbuf;
1302	args[0].length = sizeof(inbuf);
1303	args[0].fd = -1;
1304
1305	args[1].ptr = (u64)(uintptr_t)name;
1306	args[1].length = inbuf.namelen;
1307	args[1].fd = -1;
1308
1309	pages[0].addr = fl->cctx->remote_heap->phys;
1310	pages[0].size = fl->cctx->remote_heap->size;
1311
1312	args[2].ptr = (u64)(uintptr_t) pages;
1313	args[2].length = sizeof(*pages);
1314	args[2].fd = -1;
1315
1316	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_CREATE_STATIC, 3, 0);
1317
1318	err = fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE,
1319				      sc, args);
1320	if (err)
1321		goto err_invoke;
1322
1323	kfree(args);
1324
1325	return 0;
1326err_invoke:
1327	if (fl->cctx->vmcount) {
1328		u64 src_perms = 0;
1329		struct qcom_scm_vmperm dst_perms;
1330		u32 i;
1331
1332		for (i = 0; i < fl->cctx->vmcount; i++)
1333			src_perms |= BIT(fl->cctx->vmperms[i].vmid);
1334
1335		dst_perms.vmid = QCOM_SCM_VMID_HLOS;
1336		dst_perms.perm = QCOM_SCM_PERM_RWX;
1337		err = qcom_scm_assign_mem(fl->cctx->remote_heap->phys,
1338						(u64)fl->cctx->remote_heap->size,
1339						&src_perms, &dst_perms, 1);
1340		if (err)
1341			dev_err(fl->sctx->dev, "Failed to assign memory phys 0x%llx size 0x%llx err %d",
1342				fl->cctx->remote_heap->phys, fl->cctx->remote_heap->size, err);
1343	}
1344err_map:
1345	fastrpc_buf_free(fl->cctx->remote_heap);
1346err_name:
1347	kfree(name);
1348err:
1349	kfree(args);
1350
1351	return err;
1352}
1353
1354static int fastrpc_init_create_process(struct fastrpc_user *fl,
1355					char __user *argp)
1356{
1357	struct fastrpc_init_create init;
1358	struct fastrpc_invoke_args *args;
1359	struct fastrpc_phy_page pages[1];
1360	struct fastrpc_map *map = NULL;
1361	struct fastrpc_buf *imem = NULL;
1362	int memlen;
1363	int err;
1364	struct {
1365		int pgid;
1366		u32 namelen;
1367		u32 filelen;
1368		u32 pageslen;
1369		u32 attrs;
1370		u32 siglen;
1371	} inbuf;
1372	u32 sc;
1373	bool unsigned_module = false;
1374
1375	args = kcalloc(FASTRPC_CREATE_PROCESS_NARGS, sizeof(*args), GFP_KERNEL);
1376	if (!args)
1377		return -ENOMEM;
1378
1379	if (copy_from_user(&init, argp, sizeof(init))) {
1380		err = -EFAULT;
1381		goto err;
1382	}
1383
1384	if (init.attrs & FASTRPC_MODE_UNSIGNED_MODULE)
1385		unsigned_module = true;
1386
1387	if (is_session_rejected(fl, unsigned_module)) {
1388		err = -ECONNREFUSED;
1389		goto err;
1390	}
1391
1392	if (init.filelen > INIT_FILELEN_MAX) {
1393		err = -EINVAL;
1394		goto err;
1395	}
1396
1397	inbuf.pgid = fl->tgid;
1398	inbuf.namelen = strlen(current->comm) + 1;
1399	inbuf.filelen = init.filelen;
1400	inbuf.pageslen = 1;
1401	inbuf.attrs = init.attrs;
1402	inbuf.siglen = init.siglen;
1403	fl->pd = USER_PD;
1404
1405	if (init.filelen && init.filefd) {
1406		err = fastrpc_map_create(fl, init.filefd, init.filelen, 0, &map);
1407		if (err)
1408			goto err;
1409	}
1410
1411	memlen = ALIGN(max(INIT_FILELEN_MAX, (int)init.filelen * 4),
1412		       1024 * 1024);
1413	err = fastrpc_buf_alloc(fl, fl->sctx->dev, memlen,
1414				&imem);
1415	if (err)
1416		goto err_alloc;
1417
1418	fl->init_mem = imem;
1419	args[0].ptr = (u64)(uintptr_t)&inbuf;
1420	args[0].length = sizeof(inbuf);
1421	args[0].fd = -1;
1422
1423	args[1].ptr = (u64)(uintptr_t)current->comm;
1424	args[1].length = inbuf.namelen;
1425	args[1].fd = -1;
1426
1427	args[2].ptr = (u64) init.file;
1428	args[2].length = inbuf.filelen;
1429	args[2].fd = init.filefd;
1430
1431	pages[0].addr = imem->phys;
1432	pages[0].size = imem->size;
1433
1434	args[3].ptr = (u64)(uintptr_t) pages;
1435	args[3].length = 1 * sizeof(*pages);
1436	args[3].fd = -1;
1437
1438	args[4].ptr = (u64)(uintptr_t)&inbuf.attrs;
1439	args[4].length = sizeof(inbuf.attrs);
1440	args[4].fd = -1;
1441
1442	args[5].ptr = (u64)(uintptr_t) &inbuf.siglen;
1443	args[5].length = sizeof(inbuf.siglen);
1444	args[5].fd = -1;
1445
1446	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_CREATE, 4, 0);
1447	if (init.attrs)
1448		sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_CREATE_ATTR, 4, 0);
1449
1450	err = fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE,
1451				      sc, args);
1452	if (err)
1453		goto err_invoke;
1454
1455	kfree(args);
1456
1457	return 0;
1458
1459err_invoke:
1460	fl->init_mem = NULL;
1461	fastrpc_buf_free(imem);
1462err_alloc:
1463	fastrpc_map_put(map);
1464err:
1465	kfree(args);
1466
1467	return err;
1468}
1469
1470static struct fastrpc_session_ctx *fastrpc_session_alloc(
1471					struct fastrpc_channel_ctx *cctx)
1472{
1473	struct fastrpc_session_ctx *session = NULL;
1474	unsigned long flags;
1475	int i;
1476
1477	spin_lock_irqsave(&cctx->lock, flags);
1478	for (i = 0; i < cctx->sesscount; i++) {
1479		if (!cctx->session[i].used && cctx->session[i].valid) {
1480			cctx->session[i].used = true;
1481			session = &cctx->session[i];
1482			break;
1483		}
1484	}
1485	spin_unlock_irqrestore(&cctx->lock, flags);
1486
1487	return session;
1488}
1489
1490static void fastrpc_session_free(struct fastrpc_channel_ctx *cctx,
1491				 struct fastrpc_session_ctx *session)
1492{
1493	unsigned long flags;
1494
1495	spin_lock_irqsave(&cctx->lock, flags);
1496	session->used = false;
1497	spin_unlock_irqrestore(&cctx->lock, flags);
1498}
1499
1500static int fastrpc_release_current_dsp_process(struct fastrpc_user *fl)
1501{
1502	struct fastrpc_invoke_args args[1];
1503	int tgid = 0;
1504	u32 sc;
1505
1506	tgid = fl->tgid;
1507	args[0].ptr = (u64)(uintptr_t) &tgid;
1508	args[0].length = sizeof(tgid);
1509	args[0].fd = -1;
1510	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_RELEASE, 1, 0);
1511
1512	return fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE,
1513				       sc, &args[0]);
1514}
1515
1516static int fastrpc_device_release(struct inode *inode, struct file *file)
1517{
1518	struct fastrpc_user *fl = (struct fastrpc_user *)file->private_data;
1519	struct fastrpc_channel_ctx *cctx = fl->cctx;
1520	struct fastrpc_invoke_ctx *ctx, *n;
1521	struct fastrpc_map *map, *m;
1522	struct fastrpc_buf *buf, *b;
1523	unsigned long flags;
1524
1525	fastrpc_release_current_dsp_process(fl);
1526
1527	spin_lock_irqsave(&cctx->lock, flags);
1528	list_del(&fl->user);
1529	spin_unlock_irqrestore(&cctx->lock, flags);
1530
1531	if (fl->init_mem)
1532		fastrpc_buf_free(fl->init_mem);
1533
1534	list_for_each_entry_safe(ctx, n, &fl->pending, node) {
1535		list_del(&ctx->node);
1536		fastrpc_context_put(ctx);
1537	}
1538
1539	list_for_each_entry_safe(map, m, &fl->maps, node)
1540		fastrpc_map_put(map);
1541
1542	list_for_each_entry_safe(buf, b, &fl->mmaps, node) {
1543		list_del(&buf->node);
1544		fastrpc_buf_free(buf);
1545	}
1546
1547	fastrpc_session_free(cctx, fl->sctx);
1548	fastrpc_channel_ctx_put(cctx);
1549
1550	mutex_destroy(&fl->mutex);
1551	kfree(fl);
1552	file->private_data = NULL;
1553
1554	return 0;
1555}
1556
1557static int fastrpc_device_open(struct inode *inode, struct file *filp)
1558{
1559	struct fastrpc_channel_ctx *cctx;
1560	struct fastrpc_device *fdevice;
1561	struct fastrpc_user *fl = NULL;
1562	unsigned long flags;
1563
1564	fdevice = miscdev_to_fdevice(filp->private_data);
1565	cctx = fdevice->cctx;
1566
1567	fl = kzalloc(sizeof(*fl), GFP_KERNEL);
1568	if (!fl)
1569		return -ENOMEM;
1570
1571	/* Released in fastrpc_device_release() */
1572	fastrpc_channel_ctx_get(cctx);
1573
1574	filp->private_data = fl;
1575	spin_lock_init(&fl->lock);
1576	mutex_init(&fl->mutex);
1577	INIT_LIST_HEAD(&fl->pending);
1578	INIT_LIST_HEAD(&fl->maps);
1579	INIT_LIST_HEAD(&fl->mmaps);
1580	INIT_LIST_HEAD(&fl->user);
1581	fl->tgid = current->tgid;
1582	fl->cctx = cctx;
1583	fl->is_secure_dev = fdevice->secure;
1584
1585	fl->sctx = fastrpc_session_alloc(cctx);
1586	if (!fl->sctx) {
1587		dev_err(&cctx->rpdev->dev, "No session available\n");
1588		mutex_destroy(&fl->mutex);
1589		kfree(fl);
1590
1591		return -EBUSY;
1592	}
1593
1594	spin_lock_irqsave(&cctx->lock, flags);
1595	list_add_tail(&fl->user, &cctx->users);
1596	spin_unlock_irqrestore(&cctx->lock, flags);
1597
1598	return 0;
1599}
1600
1601static int fastrpc_dmabuf_alloc(struct fastrpc_user *fl, char __user *argp)
1602{
1603	struct fastrpc_alloc_dma_buf bp;
1604	DEFINE_DMA_BUF_EXPORT_INFO(exp_info);
1605	struct fastrpc_buf *buf = NULL;
1606	int err;
1607
1608	if (copy_from_user(&bp, argp, sizeof(bp)))
1609		return -EFAULT;
1610
1611	err = fastrpc_buf_alloc(fl, fl->sctx->dev, bp.size, &buf);
1612	if (err)
1613		return err;
1614	exp_info.ops = &fastrpc_dma_buf_ops;
1615	exp_info.size = bp.size;
1616	exp_info.flags = O_RDWR;
1617	exp_info.priv = buf;
1618	buf->dmabuf = dma_buf_export(&exp_info);
1619	if (IS_ERR(buf->dmabuf)) {
1620		err = PTR_ERR(buf->dmabuf);
1621		fastrpc_buf_free(buf);
1622		return err;
1623	}
1624
1625	bp.fd = dma_buf_fd(buf->dmabuf, O_ACCMODE);
1626	if (bp.fd < 0) {
1627		dma_buf_put(buf->dmabuf);
1628		return -EINVAL;
1629	}
1630
1631	if (copy_to_user(argp, &bp, sizeof(bp))) {
1632		/*
1633		 * The usercopy failed, but we can't do much about it, as
1634		 * dma_buf_fd() already called fd_install() and made the
1635		 * file descriptor accessible for the current process. It
1636		 * might already be closed and dmabuf no longer valid when
1637		 * we reach this point. Therefore "leak" the fd and rely on
1638		 * the process exit path to do any required cleanup.
1639		 */
1640		return -EFAULT;
1641	}
1642
1643	return 0;
1644}
1645
1646static int fastrpc_init_attach(struct fastrpc_user *fl, int pd)
1647{
1648	struct fastrpc_invoke_args args[1];
1649	int tgid = fl->tgid;
1650	u32 sc;
1651
1652	args[0].ptr = (u64)(uintptr_t) &tgid;
1653	args[0].length = sizeof(tgid);
1654	args[0].fd = -1;
1655	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_ATTACH, 1, 0);
1656	fl->pd = pd;
1657
1658	return fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE,
1659				       sc, &args[0]);
1660}
1661
1662static int fastrpc_invoke(struct fastrpc_user *fl, char __user *argp)
1663{
1664	struct fastrpc_invoke_args *args = NULL;
1665	struct fastrpc_invoke inv;
1666	u32 nscalars;
1667	int err;
1668
1669	if (copy_from_user(&inv, argp, sizeof(inv)))
1670		return -EFAULT;
1671
1672	/* nscalars is truncated here to max supported value */
1673	nscalars = REMOTE_SCALARS_LENGTH(inv.sc);
1674	if (nscalars) {
1675		args = kcalloc(nscalars, sizeof(*args), GFP_KERNEL);
1676		if (!args)
1677			return -ENOMEM;
1678
1679		if (copy_from_user(args, (void __user *)(uintptr_t)inv.args,
1680				   nscalars * sizeof(*args))) {
1681			kfree(args);
1682			return -EFAULT;
1683		}
1684	}
1685
1686	err = fastrpc_internal_invoke(fl, false, inv.handle, inv.sc, args);
1687	kfree(args);
1688
1689	return err;
1690}
1691
1692static int fastrpc_get_info_from_dsp(struct fastrpc_user *fl, uint32_t *dsp_attr_buf,
1693				     uint32_t dsp_attr_buf_len)
1694{
1695	struct fastrpc_invoke_args args[2] = { 0 };
1696
1697	/* Capability filled in userspace */
1698	dsp_attr_buf[0] = 0;
1699
1700	args[0].ptr = (u64)(uintptr_t)&dsp_attr_buf_len;
1701	args[0].length = sizeof(dsp_attr_buf_len);
1702	args[0].fd = -1;
1703	args[1].ptr = (u64)(uintptr_t)&dsp_attr_buf[1];
1704	args[1].length = dsp_attr_buf_len;
1705	args[1].fd = -1;
1706	fl->pd = USER_PD;
1707
1708	return fastrpc_internal_invoke(fl, true, FASTRPC_DSP_UTILITIES_HANDLE,
1709				       FASTRPC_SCALARS(0, 1, 1), args);
1710}
1711
1712static int fastrpc_get_info_from_kernel(struct fastrpc_ioctl_capability *cap,
1713					struct fastrpc_user *fl)
1714{
1715	struct fastrpc_channel_ctx *cctx = fl->cctx;
1716	uint32_t attribute_id = cap->attribute_id;
1717	uint32_t *dsp_attributes;
1718	unsigned long flags;
1719	uint32_t domain = cap->domain;
1720	int err;
1721
1722	spin_lock_irqsave(&cctx->lock, flags);
1723	/* check if we already have queried dsp for attributes */
1724	if (cctx->valid_attributes) {
1725		spin_unlock_irqrestore(&cctx->lock, flags);
1726		goto done;
1727	}
1728	spin_unlock_irqrestore(&cctx->lock, flags);
1729
1730	dsp_attributes = kzalloc(FASTRPC_MAX_DSP_ATTRIBUTES_LEN, GFP_KERNEL);
1731	if (!dsp_attributes)
1732		return -ENOMEM;
1733
1734	err = fastrpc_get_info_from_dsp(fl, dsp_attributes, FASTRPC_MAX_DSP_ATTRIBUTES_LEN);
1735	if (err == DSP_UNSUPPORTED_API) {
1736		dev_info(&cctx->rpdev->dev,
1737			 "Warning: DSP capabilities not supported on domain: %d\n", domain);
1738		kfree(dsp_attributes);
1739		return -EOPNOTSUPP;
1740	} else if (err) {
1741		dev_err(&cctx->rpdev->dev, "Error: dsp information is incorrect err: %d\n", err);
1742		kfree(dsp_attributes);
1743		return err;
1744	}
1745
1746	spin_lock_irqsave(&cctx->lock, flags);
1747	memcpy(cctx->dsp_attributes, dsp_attributes, FASTRPC_MAX_DSP_ATTRIBUTES_LEN);
1748	cctx->valid_attributes = true;
1749	spin_unlock_irqrestore(&cctx->lock, flags);
1750	kfree(dsp_attributes);
1751done:
1752	cap->capability = cctx->dsp_attributes[attribute_id];
1753	return 0;
1754}
1755
1756static int fastrpc_get_dsp_info(struct fastrpc_user *fl, char __user *argp)
1757{
1758	struct fastrpc_ioctl_capability cap = {0};
1759	int err = 0;
1760
1761	if (copy_from_user(&cap, argp, sizeof(cap)))
1762		return  -EFAULT;
1763
1764	cap.capability = 0;
1765	if (cap.domain >= FASTRPC_DEV_MAX) {
1766		dev_err(&fl->cctx->rpdev->dev, "Error: Invalid domain id:%d, err:%d\n",
1767			cap.domain, err);
1768		return -ECHRNG;
1769	}
1770
1771	/* Fastrpc Capablities does not support modem domain */
1772	if (cap.domain == MDSP_DOMAIN_ID) {
1773		dev_err(&fl->cctx->rpdev->dev, "Error: modem not supported %d\n", err);
1774		return -ECHRNG;
1775	}
1776
1777	if (cap.attribute_id >= FASTRPC_MAX_DSP_ATTRIBUTES) {
1778		dev_err(&fl->cctx->rpdev->dev, "Error: invalid attribute: %d, err: %d\n",
1779			cap.attribute_id, err);
1780		return -EOVERFLOW;
1781	}
1782
1783	err = fastrpc_get_info_from_kernel(&cap, fl);
1784	if (err)
1785		return err;
1786
1787	if (copy_to_user(argp, &cap.capability, sizeof(cap.capability)))
1788		return -EFAULT;
1789
1790	return 0;
1791}
1792
1793static int fastrpc_req_munmap_impl(struct fastrpc_user *fl, struct fastrpc_buf *buf)
1794{
1795	struct fastrpc_invoke_args args[1] = { [0] = { 0 } };
1796	struct fastrpc_munmap_req_msg req_msg;
1797	struct device *dev = fl->sctx->dev;
1798	int err;
1799	u32 sc;
1800
1801	req_msg.pgid = fl->tgid;
1802	req_msg.size = buf->size;
1803	req_msg.vaddr = buf->raddr;
1804
1805	args[0].ptr = (u64) (uintptr_t) &req_msg;
1806	args[0].length = sizeof(req_msg);
1807
1808	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_MUNMAP, 1, 0);
1809	err = fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE, sc,
1810				      &args[0]);
1811	if (!err) {
1812		dev_dbg(dev, "unmmap\tpt 0x%09lx OK\n", buf->raddr);
1813		spin_lock(&fl->lock);
1814		list_del(&buf->node);
1815		spin_unlock(&fl->lock);
1816		fastrpc_buf_free(buf);
1817	} else {
1818		dev_err(dev, "unmmap\tpt 0x%09lx ERROR\n", buf->raddr);
1819	}
1820
1821	return err;
1822}
1823
1824static int fastrpc_req_munmap(struct fastrpc_user *fl, char __user *argp)
1825{
1826	struct fastrpc_buf *buf = NULL, *iter, *b;
1827	struct fastrpc_req_munmap req;
1828	struct device *dev = fl->sctx->dev;
1829
1830	if (copy_from_user(&req, argp, sizeof(req)))
1831		return -EFAULT;
1832
1833	spin_lock(&fl->lock);
1834	list_for_each_entry_safe(iter, b, &fl->mmaps, node) {
1835		if ((iter->raddr == req.vaddrout) && (iter->size == req.size)) {
1836			buf = iter;
1837			break;
1838		}
1839	}
1840	spin_unlock(&fl->lock);
1841
1842	if (!buf) {
1843		dev_err(dev, "mmap\t\tpt 0x%09llx [len 0x%08llx] not in list\n",
1844			req.vaddrout, req.size);
1845		return -EINVAL;
1846	}
1847
1848	return fastrpc_req_munmap_impl(fl, buf);
1849}
1850
1851static int fastrpc_req_mmap(struct fastrpc_user *fl, char __user *argp)
1852{
1853	struct fastrpc_invoke_args args[3] = { [0 ... 2] = { 0 } };
1854	struct fastrpc_buf *buf = NULL;
1855	struct fastrpc_mmap_req_msg req_msg;
1856	struct fastrpc_mmap_rsp_msg rsp_msg;
1857	struct fastrpc_phy_page pages;
1858	struct fastrpc_req_mmap req;
1859	struct device *dev = fl->sctx->dev;
1860	int err;
1861	u32 sc;
1862
1863	if (copy_from_user(&req, argp, sizeof(req)))
1864		return -EFAULT;
1865
1866	if (req.flags != ADSP_MMAP_ADD_PAGES && req.flags != ADSP_MMAP_REMOTE_HEAP_ADDR) {
1867		dev_err(dev, "flag not supported 0x%x\n", req.flags);
1868
1869		return -EINVAL;
1870	}
1871
1872	if (req.vaddrin) {
1873		dev_err(dev, "adding user allocated pages is not supported\n");
1874		return -EINVAL;
1875	}
1876
1877	if (req.flags == ADSP_MMAP_REMOTE_HEAP_ADDR)
1878		err = fastrpc_remote_heap_alloc(fl, dev, req.size, &buf);
1879	else
1880		err = fastrpc_buf_alloc(fl, dev, req.size, &buf);
1881
1882	if (err) {
1883		dev_err(dev, "failed to allocate buffer\n");
1884		return err;
1885	}
1886
1887	req_msg.pgid = fl->tgid;
1888	req_msg.flags = req.flags;
1889	req_msg.vaddr = req.vaddrin;
1890	req_msg.num = sizeof(pages);
1891
1892	args[0].ptr = (u64) (uintptr_t) &req_msg;
1893	args[0].length = sizeof(req_msg);
1894
1895	pages.addr = buf->phys;
1896	pages.size = buf->size;
1897
1898	args[1].ptr = (u64) (uintptr_t) &pages;
1899	args[1].length = sizeof(pages);
1900
1901	args[2].ptr = (u64) (uintptr_t) &rsp_msg;
1902	args[2].length = sizeof(rsp_msg);
1903
1904	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_MMAP, 2, 1);
1905	err = fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE, sc,
1906				      &args[0]);
1907	if (err) {
1908		dev_err(dev, "mmap error (len 0x%08llx)\n", buf->size);
1909		goto err_invoke;
1910	}
1911
1912	/* update the buffer to be able to deallocate the memory on the DSP */
1913	buf->raddr = (uintptr_t) rsp_msg.vaddr;
1914
1915	/* let the client know the address to use */
1916	req.vaddrout = rsp_msg.vaddr;
1917
1918	/* Add memory to static PD pool, protection thru hypervisor */
1919	if (req.flags == ADSP_MMAP_REMOTE_HEAP_ADDR && fl->cctx->vmcount) {
1920		err = qcom_scm_assign_mem(buf->phys, (u64)buf->size,
1921			&fl->cctx->perms, fl->cctx->vmperms, fl->cctx->vmcount);
1922		if (err) {
1923			dev_err(fl->sctx->dev, "Failed to assign memory phys 0x%llx size 0x%llx err %d",
1924					buf->phys, buf->size, err);
1925			goto err_assign;
1926		}
1927	}
1928
1929	spin_lock(&fl->lock);
1930	list_add_tail(&buf->node, &fl->mmaps);
1931	spin_unlock(&fl->lock);
1932
1933	if (copy_to_user((void __user *)argp, &req, sizeof(req))) {
1934		err = -EFAULT;
1935		goto err_assign;
1936	}
1937
1938	dev_dbg(dev, "mmap\t\tpt 0x%09lx OK [len 0x%08llx]\n",
1939		buf->raddr, buf->size);
1940
1941	return 0;
1942
1943err_assign:
1944	fastrpc_req_munmap_impl(fl, buf);
1945err_invoke:
1946	fastrpc_buf_free(buf);
1947
1948	return err;
1949}
1950
1951static int fastrpc_req_mem_unmap_impl(struct fastrpc_user *fl, struct fastrpc_mem_unmap *req)
1952{
1953	struct fastrpc_invoke_args args[1] = { [0] = { 0 } };
1954	struct fastrpc_map *map = NULL, *iter, *m;
1955	struct fastrpc_mem_unmap_req_msg req_msg = { 0 };
1956	int err = 0;
1957	u32 sc;
1958	struct device *dev = fl->sctx->dev;
1959
1960	spin_lock(&fl->lock);
1961	list_for_each_entry_safe(iter, m, &fl->maps, node) {
1962		if ((req->fd < 0 || iter->fd == req->fd) && (iter->raddr == req->vaddr)) {
1963			map = iter;
1964			break;
1965		}
1966	}
1967
1968	spin_unlock(&fl->lock);
1969
1970	if (!map) {
1971		dev_err(dev, "map not in list\n");
1972		return -EINVAL;
1973	}
1974
1975	req_msg.pgid = fl->tgid;
1976	req_msg.len = map->len;
1977	req_msg.vaddrin = map->raddr;
1978	req_msg.fd = map->fd;
1979
1980	args[0].ptr = (u64) (uintptr_t) &req_msg;
1981	args[0].length = sizeof(req_msg);
1982
1983	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_MEM_UNMAP, 1, 0);
1984	err = fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE, sc,
1985				      &args[0]);
1986	fastrpc_map_put(map);
1987	if (err)
1988		dev_err(dev, "unmmap\tpt fd = %d, 0x%09llx error\n",  map->fd, map->raddr);
1989
1990	return err;
1991}
1992
1993static int fastrpc_req_mem_unmap(struct fastrpc_user *fl, char __user *argp)
1994{
1995	struct fastrpc_mem_unmap req;
1996
1997	if (copy_from_user(&req, argp, sizeof(req)))
1998		return -EFAULT;
1999
2000	return fastrpc_req_mem_unmap_impl(fl, &req);
2001}
2002
2003static int fastrpc_req_mem_map(struct fastrpc_user *fl, char __user *argp)
2004{
2005	struct fastrpc_invoke_args args[4] = { [0 ... 3] = { 0 } };
2006	struct fastrpc_mem_map_req_msg req_msg = { 0 };
2007	struct fastrpc_mmap_rsp_msg rsp_msg = { 0 };
2008	struct fastrpc_mem_unmap req_unmap = { 0 };
2009	struct fastrpc_phy_page pages = { 0 };
2010	struct fastrpc_mem_map req;
2011	struct device *dev = fl->sctx->dev;
2012	struct fastrpc_map *map = NULL;
2013	int err;
2014	u32 sc;
2015
2016	if (copy_from_user(&req, argp, sizeof(req)))
2017		return -EFAULT;
2018
2019	/* create SMMU mapping */
2020	err = fastrpc_map_create(fl, req.fd, req.length, 0, &map);
2021	if (err) {
2022		dev_err(dev, "failed to map buffer, fd = %d\n", req.fd);
2023		return err;
2024	}
2025
2026	req_msg.pgid = fl->tgid;
2027	req_msg.fd = req.fd;
2028	req_msg.offset = req.offset;
2029	req_msg.vaddrin = req.vaddrin;
2030	map->va = (void *) (uintptr_t) req.vaddrin;
2031	req_msg.flags = req.flags;
2032	req_msg.num = sizeof(pages);
2033	req_msg.data_len = 0;
2034
2035	args[0].ptr = (u64) (uintptr_t) &req_msg;
2036	args[0].length = sizeof(req_msg);
2037
2038	pages.addr = map->phys;
2039	pages.size = map->size;
2040
2041	args[1].ptr = (u64) (uintptr_t) &pages;
2042	args[1].length = sizeof(pages);
2043
2044	args[2].ptr = (u64) (uintptr_t) &pages;
2045	args[2].length = 0;
2046
2047	args[3].ptr = (u64) (uintptr_t) &rsp_msg;
2048	args[3].length = sizeof(rsp_msg);
2049
2050	sc = FASTRPC_SCALARS(FASTRPC_RMID_INIT_MEM_MAP, 3, 1);
2051	err = fastrpc_internal_invoke(fl, true, FASTRPC_INIT_HANDLE, sc, &args[0]);
2052	if (err) {
2053		dev_err(dev, "mem mmap error, fd %d, vaddr %llx, size %lld\n",
2054			req.fd, req.vaddrin, map->size);
2055		goto err_invoke;
2056	}
2057
2058	/* update the buffer to be able to deallocate the memory on the DSP */
2059	map->raddr = rsp_msg.vaddr;
2060
2061	/* let the client know the address to use */
2062	req.vaddrout = rsp_msg.vaddr;
2063
2064	if (copy_to_user((void __user *)argp, &req, sizeof(req))) {
2065		/* unmap the memory and release the buffer */
2066		req_unmap.vaddr = (uintptr_t) rsp_msg.vaddr;
2067		req_unmap.length = map->size;
2068		fastrpc_req_mem_unmap_impl(fl, &req_unmap);
2069		return -EFAULT;
2070	}
2071
2072	return 0;
2073
2074err_invoke:
2075	fastrpc_map_put(map);
2076
2077	return err;
2078}
2079
2080static long fastrpc_device_ioctl(struct file *file, unsigned int cmd,
2081				 unsigned long arg)
2082{
2083	struct fastrpc_user *fl = (struct fastrpc_user *)file->private_data;
2084	char __user *argp = (char __user *)arg;
2085	int err;
2086
2087	switch (cmd) {
2088	case FASTRPC_IOCTL_INVOKE:
2089		err = fastrpc_invoke(fl, argp);
2090		break;
2091	case FASTRPC_IOCTL_INIT_ATTACH:
2092		err = fastrpc_init_attach(fl, ROOT_PD);
2093		break;
2094	case FASTRPC_IOCTL_INIT_ATTACH_SNS:
2095		err = fastrpc_init_attach(fl, SENSORS_PD);
2096		break;
2097	case FASTRPC_IOCTL_INIT_CREATE_STATIC:
2098		err = fastrpc_init_create_static_process(fl, argp);
2099		break;
2100	case FASTRPC_IOCTL_INIT_CREATE:
2101		err = fastrpc_init_create_process(fl, argp);
2102		break;
2103	case FASTRPC_IOCTL_ALLOC_DMA_BUFF:
2104		err = fastrpc_dmabuf_alloc(fl, argp);
2105		break;
2106	case FASTRPC_IOCTL_MMAP:
2107		err = fastrpc_req_mmap(fl, argp);
2108		break;
2109	case FASTRPC_IOCTL_MUNMAP:
2110		err = fastrpc_req_munmap(fl, argp);
2111		break;
2112	case FASTRPC_IOCTL_MEM_MAP:
2113		err = fastrpc_req_mem_map(fl, argp);
2114		break;
2115	case FASTRPC_IOCTL_MEM_UNMAP:
2116		err = fastrpc_req_mem_unmap(fl, argp);
2117		break;
2118	case FASTRPC_IOCTL_GET_DSP_INFO:
2119		err = fastrpc_get_dsp_info(fl, argp);
2120		break;
2121	default:
2122		err = -ENOTTY;
2123		break;
2124	}
2125
2126	return err;
2127}
2128
2129static const struct file_operations fastrpc_fops = {
2130	.open = fastrpc_device_open,
2131	.release = fastrpc_device_release,
2132	.unlocked_ioctl = fastrpc_device_ioctl,
2133	.compat_ioctl = fastrpc_device_ioctl,
2134};
2135
2136static int fastrpc_cb_probe(struct platform_device *pdev)
2137{
2138	struct fastrpc_channel_ctx *cctx;
2139	struct fastrpc_session_ctx *sess;
2140	struct device *dev = &pdev->dev;
2141	int i, sessions = 0;
2142	unsigned long flags;
2143	int rc;
2144
2145	cctx = dev_get_drvdata(dev->parent);
2146	if (!cctx)
2147		return -EINVAL;
2148
2149	of_property_read_u32(dev->of_node, "qcom,nsessions", &sessions);
2150
2151	spin_lock_irqsave(&cctx->lock, flags);
2152	if (cctx->sesscount >= FASTRPC_MAX_SESSIONS) {
2153		dev_err(&pdev->dev, "too many sessions\n");
2154		spin_unlock_irqrestore(&cctx->lock, flags);
2155		return -ENOSPC;
2156	}
2157	sess = &cctx->session[cctx->sesscount++];
2158	sess->used = false;
2159	sess->valid = true;
2160	sess->dev = dev;
2161	dev_set_drvdata(dev, sess);
2162
2163	if (of_property_read_u32(dev->of_node, "reg", &sess->sid))
2164		dev_info(dev, "FastRPC Session ID not specified in DT\n");
2165
2166	if (sessions > 0) {
2167		struct fastrpc_session_ctx *dup_sess;
2168
2169		for (i = 1; i < sessions; i++) {
2170			if (cctx->sesscount >= FASTRPC_MAX_SESSIONS)
2171				break;
2172			dup_sess = &cctx->session[cctx->sesscount++];
2173			memcpy(dup_sess, sess, sizeof(*dup_sess));
2174		}
2175	}
2176	spin_unlock_irqrestore(&cctx->lock, flags);
2177	rc = dma_set_mask(dev, DMA_BIT_MASK(32));
2178	if (rc) {
2179		dev_err(dev, "32-bit DMA enable failed\n");
2180		return rc;
2181	}
2182
2183	return 0;
2184}
2185
2186static int fastrpc_cb_remove(struct platform_device *pdev)
2187{
2188	struct fastrpc_channel_ctx *cctx = dev_get_drvdata(pdev->dev.parent);
2189	struct fastrpc_session_ctx *sess = dev_get_drvdata(&pdev->dev);
2190	unsigned long flags;
2191	int i;
2192
2193	spin_lock_irqsave(&cctx->lock, flags);
2194	for (i = 1; i < FASTRPC_MAX_SESSIONS; i++) {
2195		if (cctx->session[i].sid == sess->sid) {
2196			cctx->session[i].valid = false;
2197			cctx->sesscount--;
2198		}
2199	}
2200	spin_unlock_irqrestore(&cctx->lock, flags);
2201
2202	return 0;
2203}
2204
2205static const struct of_device_id fastrpc_match_table[] = {
2206	{ .compatible = "qcom,fastrpc-compute-cb", },
2207	{}
2208};
2209
2210static struct platform_driver fastrpc_cb_driver = {
2211	.probe = fastrpc_cb_probe,
2212	.remove = fastrpc_cb_remove,
2213	.driver = {
2214		.name = "qcom,fastrpc-cb",
2215		.of_match_table = fastrpc_match_table,
2216		.suppress_bind_attrs = true,
2217	},
2218};
2219
2220static int fastrpc_device_register(struct device *dev, struct fastrpc_channel_ctx *cctx,
2221				   bool is_secured, const char *domain)
2222{
2223	struct fastrpc_device *fdev;
2224	int err;
2225
2226	fdev = devm_kzalloc(dev, sizeof(*fdev), GFP_KERNEL);
2227	if (!fdev)
2228		return -ENOMEM;
2229
2230	fdev->secure = is_secured;
2231	fdev->cctx = cctx;
2232	fdev->miscdev.minor = MISC_DYNAMIC_MINOR;
2233	fdev->miscdev.fops = &fastrpc_fops;
2234	fdev->miscdev.name = devm_kasprintf(dev, GFP_KERNEL, "fastrpc-%s%s",
2235					    domain, is_secured ? "-secure" : "");
2236	if (!fdev->miscdev.name)
2237		return -ENOMEM;
2238
2239	err = misc_register(&fdev->miscdev);
2240	if (!err) {
2241		if (is_secured)
2242			cctx->secure_fdevice = fdev;
2243		else
2244			cctx->fdevice = fdev;
2245	}
2246
2247	return err;
2248}
2249
2250static int fastrpc_rpmsg_probe(struct rpmsg_device *rpdev)
2251{
2252	struct device *rdev = &rpdev->dev;
2253	struct fastrpc_channel_ctx *data;
2254	int i, err, domain_id = -1, vmcount;
2255	const char *domain;
2256	bool secure_dsp;
2257	unsigned int vmids[FASTRPC_MAX_VMIDS];
2258
2259	err = of_property_read_string(rdev->of_node, "label", &domain);
2260	if (err) {
2261		dev_info(rdev, "FastRPC Domain not specified in DT\n");
2262		return err;
2263	}
2264
2265	for (i = 0; i <= CDSP_DOMAIN_ID; i++) {
2266		if (!strcmp(domains[i], domain)) {
2267			domain_id = i;
2268			break;
2269		}
2270	}
2271
2272	if (domain_id < 0) {
2273		dev_info(rdev, "FastRPC Invalid Domain ID %d\n", domain_id);
2274		return -EINVAL;
2275	}
2276
2277	if (of_reserved_mem_device_init_by_idx(rdev, rdev->of_node, 0))
2278		dev_info(rdev, "no reserved DMA memory for FASTRPC\n");
2279
2280	vmcount = of_property_read_variable_u32_array(rdev->of_node,
2281				"qcom,vmids", &vmids[0], 0, FASTRPC_MAX_VMIDS);
2282	if (vmcount < 0)
2283		vmcount = 0;
2284	else if (!qcom_scm_is_available())
2285		return -EPROBE_DEFER;
2286
2287	data = kzalloc(sizeof(*data), GFP_KERNEL);
2288	if (!data)
2289		return -ENOMEM;
2290
2291	if (vmcount) {
2292		data->vmcount = vmcount;
2293		data->perms = BIT(QCOM_SCM_VMID_HLOS);
2294		for (i = 0; i < data->vmcount; i++) {
2295			data->vmperms[i].vmid = vmids[i];
2296			data->vmperms[i].perm = QCOM_SCM_PERM_RWX;
2297		}
2298	}
2299
2300	secure_dsp = !(of_property_read_bool(rdev->of_node, "qcom,non-secure-domain"));
2301	data->secure = secure_dsp;
2302
2303	switch (domain_id) {
2304	case ADSP_DOMAIN_ID:
2305	case MDSP_DOMAIN_ID:
2306	case SDSP_DOMAIN_ID:
2307		/* Unsigned PD offloading is only supported on CDSP*/
2308		data->unsigned_support = false;
2309		err = fastrpc_device_register(rdev, data, secure_dsp, domains[domain_id]);
2310		if (err)
2311			goto fdev_error;
2312		break;
2313	case CDSP_DOMAIN_ID:
2314		data->unsigned_support = true;
2315		/* Create both device nodes so that we can allow both Signed and Unsigned PD */
2316		err = fastrpc_device_register(rdev, data, true, domains[domain_id]);
2317		if (err)
2318			goto fdev_error;
2319
2320		err = fastrpc_device_register(rdev, data, false, domains[domain_id]);
2321		if (err)
2322			goto fdev_error;
2323		break;
2324	default:
2325		err = -EINVAL;
2326		goto fdev_error;
2327	}
2328
2329	kref_init(&data->refcount);
2330
2331	dev_set_drvdata(&rpdev->dev, data);
2332	rdev->dma_mask = &data->dma_mask;
2333	dma_set_mask_and_coherent(rdev, DMA_BIT_MASK(32));
2334	INIT_LIST_HEAD(&data->users);
2335	INIT_LIST_HEAD(&data->invoke_interrupted_mmaps);
2336	spin_lock_init(&data->lock);
2337	idr_init(&data->ctx_idr);
2338	data->domain_id = domain_id;
2339	data->rpdev = rpdev;
2340
2341	err = of_platform_populate(rdev->of_node, NULL, NULL, rdev);
2342	if (err)
2343		goto populate_error;
2344
2345	return 0;
2346
2347populate_error:
2348	if (data->fdevice)
2349		misc_deregister(&data->fdevice->miscdev);
2350	if (data->secure_fdevice)
2351		misc_deregister(&data->secure_fdevice->miscdev);
2352
2353fdev_error:
2354	kfree(data);
2355	return err;
2356}
2357
2358static void fastrpc_notify_users(struct fastrpc_user *user)
2359{
2360	struct fastrpc_invoke_ctx *ctx;
2361
2362	spin_lock(&user->lock);
2363	list_for_each_entry(ctx, &user->pending, node) {
2364		ctx->retval = -EPIPE;
2365		complete(&ctx->work);
2366	}
2367	spin_unlock(&user->lock);
2368}
2369
2370static void fastrpc_rpmsg_remove(struct rpmsg_device *rpdev)
2371{
2372	struct fastrpc_channel_ctx *cctx = dev_get_drvdata(&rpdev->dev);
2373	struct fastrpc_buf *buf, *b;
2374	struct fastrpc_user *user;
2375	unsigned long flags;
2376
2377	/* No invocations past this point */
2378	spin_lock_irqsave(&cctx->lock, flags);
2379	cctx->rpdev = NULL;
2380	list_for_each_entry(user, &cctx->users, user)
2381		fastrpc_notify_users(user);
2382	spin_unlock_irqrestore(&cctx->lock, flags);
2383
2384	if (cctx->fdevice)
2385		misc_deregister(&cctx->fdevice->miscdev);
2386
2387	if (cctx->secure_fdevice)
2388		misc_deregister(&cctx->secure_fdevice->miscdev);
2389
2390	list_for_each_entry_safe(buf, b, &cctx->invoke_interrupted_mmaps, node)
2391		list_del(&buf->node);
2392
2393	if (cctx->remote_heap)
2394		fastrpc_buf_free(cctx->remote_heap);
2395
2396	of_platform_depopulate(&rpdev->dev);
2397
2398	fastrpc_channel_ctx_put(cctx);
2399}
2400
2401static int fastrpc_rpmsg_callback(struct rpmsg_device *rpdev, void *data,
2402				  int len, void *priv, u32 addr)
2403{
2404	struct fastrpc_channel_ctx *cctx = dev_get_drvdata(&rpdev->dev);
2405	struct fastrpc_invoke_rsp *rsp = data;
2406	struct fastrpc_invoke_ctx *ctx;
2407	unsigned long flags;
2408	unsigned long ctxid;
2409
2410	if (len < sizeof(*rsp))
2411		return -EINVAL;
2412
2413	ctxid = ((rsp->ctx & FASTRPC_CTXID_MASK) >> 4);
2414
2415	spin_lock_irqsave(&cctx->lock, flags);
2416	ctx = idr_find(&cctx->ctx_idr, ctxid);
2417	spin_unlock_irqrestore(&cctx->lock, flags);
2418
2419	if (!ctx) {
2420		dev_err(&rpdev->dev, "No context ID matches response\n");
2421		return -ENOENT;
2422	}
2423
2424	ctx->retval = rsp->retval;
2425	complete(&ctx->work);
2426
2427	/*
2428	 * The DMA buffer associated with the context cannot be freed in
2429	 * interrupt context so schedule it through a worker thread to
2430	 * avoid a kernel BUG.
2431	 */
2432	schedule_work(&ctx->put_work);
2433
2434	return 0;
2435}
2436
2437static const struct of_device_id fastrpc_rpmsg_of_match[] = {
2438	{ .compatible = "qcom,fastrpc" },
2439	{ },
2440};
2441MODULE_DEVICE_TABLE(of, fastrpc_rpmsg_of_match);
2442
2443static struct rpmsg_driver fastrpc_driver = {
2444	.probe = fastrpc_rpmsg_probe,
2445	.remove = fastrpc_rpmsg_remove,
2446	.callback = fastrpc_rpmsg_callback,
2447	.drv = {
2448		.name = "qcom,fastrpc",
2449		.of_match_table = fastrpc_rpmsg_of_match,
2450	},
2451};
2452
2453static int fastrpc_init(void)
2454{
2455	int ret;
2456
2457	ret = platform_driver_register(&fastrpc_cb_driver);
2458	if (ret < 0) {
2459		pr_err("fastrpc: failed to register cb driver\n");
2460		return ret;
2461	}
2462
2463	ret = register_rpmsg_driver(&fastrpc_driver);
2464	if (ret < 0) {
2465		pr_err("fastrpc: failed to register rpmsg driver\n");
2466		platform_driver_unregister(&fastrpc_cb_driver);
2467		return ret;
2468	}
2469
2470	return 0;
2471}
2472module_init(fastrpc_init);
2473
2474static void fastrpc_exit(void)
2475{
2476	platform_driver_unregister(&fastrpc_cb_driver);
2477	unregister_rpmsg_driver(&fastrpc_driver);
2478}
2479module_exit(fastrpc_exit);
2480
2481MODULE_LICENSE("GPL v2");
2482MODULE_IMPORT_NS(DMA_BUF);
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