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7#include <linux/acpi.h>
8#include <linux/atomic.h>
9#include <linux/delay.h>
10#include <linux/dma-direction.h>
11#include <linux/dma-mapping.h>
12#include <linux/dmapool.h>
13#include <linux/io.h>
14#include <linux/iommu.h>
15#include <linux/interrupt.h>
16#include <linux/irq.h>
17#include <linux/irqreturn.h>
18#include <linux/mm.h>
19#include <linux/module.h>
20#include <linux/of.h>
21#include <linux/platform_device.h>
22#include <linux/slab.h>
23
24#include "sec_drv.h"
25
26#define SEC_QUEUE_AR_FROCE_ALLOC 0
27#define SEC_QUEUE_AR_FROCE_NOALLOC 1
28#define SEC_QUEUE_AR_FROCE_DIS 2
29
30#define SEC_QUEUE_AW_FROCE_ALLOC 0
31#define SEC_QUEUE_AW_FROCE_NOALLOC 1
32#define SEC_QUEUE_AW_FROCE_DIS 2
33
34
35#define SEC_ALGSUB_CLK_EN_REG 0x03b8
36#define SEC_ALGSUB_CLK_DIS_REG 0x03bc
37#define SEC_ALGSUB_CLK_ST_REG 0x535c
38#define SEC_ALGSUB_RST_REQ_REG 0x0aa8
39#define SEC_ALGSUB_RST_DREQ_REG 0x0aac
40#define SEC_ALGSUB_RST_ST_REG 0x5a54
41#define SEC_ALGSUB_RST_ST_IS_RST BIT(0)
42
43#define SEC_ALGSUB_BUILD_RST_REQ_REG 0x0ab8
44#define SEC_ALGSUB_BUILD_RST_DREQ_REG 0x0abc
45#define SEC_ALGSUB_BUILD_RST_ST_REG 0x5a5c
46#define SEC_ALGSUB_BUILD_RST_ST_IS_RST BIT(0)
47
48#define SEC_SAA_BASE 0x00001000UL
49
50
51#define SEC_SAA_CTRL_REG(x) ((x) * SEC_SAA_ADDR_SIZE)
52#define SEC_SAA_CTRL_GET_QM_EN BIT(0)
53
54#define SEC_ST_INTMSK1_REG 0x0200
55#define SEC_ST_RINT1_REG 0x0400
56#define SEC_ST_INTSTS1_REG 0x0600
57#define SEC_BD_MNG_STAT_REG 0x0800
58#define SEC_PARSING_STAT_REG 0x0804
59#define SEC_LOAD_TIME_OUT_CNT_REG 0x0808
60#define SEC_CORE_WORK_TIME_OUT_CNT_REG 0x080c
61#define SEC_BACK_TIME_OUT_CNT_REG 0x0810
62#define SEC_BD1_PARSING_RD_TIME_OUT_CNT_REG 0x0814
63#define SEC_BD1_PARSING_WR_TIME_OUT_CNT_REG 0x0818
64#define SEC_BD2_PARSING_RD_TIME_OUT_CNT_REG 0x081c
65#define SEC_BD2_PARSING_WR_TIME_OUT_CNT_REG 0x0820
66#define SEC_SAA_ACC_REG 0x083c
67#define SEC_BD_NUM_CNT_IN_SEC_REG 0x0858
68#define SEC_LOAD_WORK_TIME_CNT_REG 0x0860
69#define SEC_CORE_WORK_WORK_TIME_CNT_REG 0x0864
70#define SEC_BACK_WORK_TIME_CNT_REG 0x0868
71#define SEC_SAA_IDLE_TIME_CNT_REG 0x086c
72#define SEC_SAA_CLK_CNT_REG 0x0870
73
74
75#define SEC_CLK_EN_REG 0x0000
76#define SEC_CTRL_REG 0x0004
77
78#define SEC_COMMON_CNT_CLR_CE_REG 0x0008
79#define SEC_COMMON_CNT_CLR_CE_CLEAR BIT(0)
80#define SEC_COMMON_CNT_CLR_CE_SNAP_EN BIT(1)
81
82#define SEC_SECURE_CTRL_REG 0x000c
83#define SEC_AXI_CACHE_CFG_REG 0x0010
84#define SEC_AXI_QOS_CFG_REG 0x0014
85#define SEC_IPV4_MASK_TABLE_REG 0x0020
86#define SEC_IPV6_MASK_TABLE_X_REG(x) (0x0024 + (x) * 4)
87#define SEC_FSM_MAX_CNT_REG 0x0064
88
89#define SEC_CTRL2_REG 0x0068
90#define SEC_CTRL2_DATA_AXI_RD_OTSD_CFG_M GENMASK(3, 0)
91#define SEC_CTRL2_DATA_AXI_RD_OTSD_CFG_S 0
92#define SEC_CTRL2_DATA_AXI_WR_OTSD_CFG_M GENMASK(6, 4)
93#define SEC_CTRL2_DATA_AXI_WR_OTSD_CFG_S 4
94#define SEC_CTRL2_CLK_GATE_EN BIT(7)
95#define SEC_CTRL2_ENDIAN_BD BIT(8)
96#define SEC_CTRL2_ENDIAN_BD_TYPE BIT(9)
97
98#define SEC_CNT_PRECISION_CFG_REG 0x006c
99#define SEC_DEBUG_BD_CFG_REG 0x0070
100#define SEC_DEBUG_BD_CFG_WB_NORMAL BIT(0)
101#define SEC_DEBUG_BD_CFG_WB_EN BIT(1)
102
103#define SEC_Q_SIGHT_SEL 0x0074
104#define SEC_Q_SIGHT_HIS_CLR 0x0078
105#define SEC_Q_VMID_CFG_REG(q) (0x0100 + (q) * 4)
106#define SEC_Q_WEIGHT_CFG_REG(q) (0x200 + (q) * 4)
107#define SEC_STAT_CLR_REG 0x0a00
108#define SEC_SAA_IDLE_CNT_CLR_REG 0x0a04
109#define SEC_QM_CPL_Q_IDBUF_DFX_CFG_REG 0x0b00
110#define SEC_QM_CPL_Q_IDBUF_DFX_RESULT_REG 0x0b04
111#define SEC_QM_BD_DFX_CFG_REG 0x0b08
112#define SEC_QM_BD_DFX_RESULT_REG 0x0b0c
113#define SEC_QM_BDID_DFX_RESULT_REG 0x0b10
114#define SEC_QM_BD_DFIFO_STATUS_REG 0x0b14
115#define SEC_QM_BD_DFX_CFG2_REG 0x0b1c
116#define SEC_QM_BD_DFX_RESULT2_REG 0x0b20
117#define SEC_QM_BD_IDFIFO_STATUS_REG 0x0b18
118#define SEC_QM_BD_DFIFO_STATUS2_REG 0x0b28
119#define SEC_QM_BD_IDFIFO_STATUS2_REG 0x0b2c
120
121#define SEC_HASH_IPV4_MASK 0xfff00000
122#define SEC_MAX_SAA_NUM 0xa
123#define SEC_SAA_ADDR_SIZE 0x1000
124
125#define SEC_Q_INIT_REG 0x0
126#define SEC_Q_INIT_WO_STAT_CLEAR 0x2
127#define SEC_Q_INIT_AND_STAT_CLEAR 0x3
128
129#define SEC_Q_CFG_REG 0x8
130#define SEC_Q_CFG_REORDER BIT(0)
131
132#define SEC_Q_PROC_NUM_CFG_REG 0x10
133#define SEC_QUEUE_ENB_REG 0x18
134
135#define SEC_Q_DEPTH_CFG_REG 0x50
136#define SEC_Q_DEPTH_CFG_DEPTH_M GENMASK(11, 0)
137#define SEC_Q_DEPTH_CFG_DEPTH_S 0
138
139#define SEC_Q_BASE_HADDR_REG 0x54
140#define SEC_Q_BASE_LADDR_REG 0x58
141#define SEC_Q_WR_PTR_REG 0x5c
142#define SEC_Q_OUTORDER_BASE_HADDR_REG 0x60
143#define SEC_Q_OUTORDER_BASE_LADDR_REG 0x64
144#define SEC_Q_OUTORDER_RD_PTR_REG 0x68
145#define SEC_Q_OT_TH_REG 0x6c
146
147#define SEC_Q_ARUSER_CFG_REG 0x70
148#define SEC_Q_ARUSER_CFG_FA BIT(0)
149#define SEC_Q_ARUSER_CFG_FNA BIT(1)
150#define SEC_Q_ARUSER_CFG_RINVLD BIT(2)
151#define SEC_Q_ARUSER_CFG_PKG BIT(3)
152
153#define SEC_Q_AWUSER_CFG_REG 0x74
154#define SEC_Q_AWUSER_CFG_FA BIT(0)
155#define SEC_Q_AWUSER_CFG_FNA BIT(1)
156#define SEC_Q_AWUSER_CFG_PKG BIT(2)
157
158#define SEC_Q_ERR_BASE_HADDR_REG 0x7c
159#define SEC_Q_ERR_BASE_LADDR_REG 0x80
160#define SEC_Q_CFG_VF_NUM_REG 0x84
161#define SEC_Q_SOFT_PROC_PTR_REG 0x88
162#define SEC_Q_FAIL_INT_MSK_REG 0x300
163#define SEC_Q_FLOW_INT_MKS_REG 0x304
164#define SEC_Q_FAIL_RINT_REG 0x400
165#define SEC_Q_FLOW_RINT_REG 0x404
166#define SEC_Q_FAIL_INT_STATUS_REG 0x500
167#define SEC_Q_FLOW_INT_STATUS_REG 0x504
168#define SEC_Q_STATUS_REG 0x600
169#define SEC_Q_RD_PTR_REG 0x604
170#define SEC_Q_PRO_PTR_REG 0x608
171#define SEC_Q_OUTORDER_WR_PTR_REG 0x60c
172#define SEC_Q_OT_CNT_STATUS_REG 0x610
173#define SEC_Q_INORDER_BD_NUM_ST_REG 0x650
174#define SEC_Q_INORDER_GET_FLAG_ST_REG 0x654
175#define SEC_Q_INORDER_ADD_FLAG_ST_REG 0x658
176#define SEC_Q_INORDER_TASK_INT_NUM_LEFT_ST_REG 0x65c
177#define SEC_Q_RD_DONE_PTR_REG 0x660
178#define SEC_Q_CPL_Q_BD_NUM_ST_REG 0x700
179#define SEC_Q_CPL_Q_PTR_ST_REG 0x704
180#define SEC_Q_CPL_Q_H_ADDR_ST_REG 0x708
181#define SEC_Q_CPL_Q_L_ADDR_ST_REG 0x70c
182#define SEC_Q_CPL_TASK_INT_NUM_LEFT_ST_REG 0x710
183#define SEC_Q_WRR_ID_CHECK_REG 0x714
184#define SEC_Q_CPLQ_FULL_CHECK_REG 0x718
185#define SEC_Q_SUCCESS_BD_CNT_REG 0x800
186#define SEC_Q_FAIL_BD_CNT_REG 0x804
187#define SEC_Q_GET_BD_CNT_REG 0x808
188#define SEC_Q_IVLD_CNT_REG 0x80c
189#define SEC_Q_BD_PROC_GET_CNT_REG 0x810
190#define SEC_Q_BD_PROC_DONE_CNT_REG 0x814
191#define SEC_Q_LAT_CLR_REG 0x850
192#define SEC_Q_PKT_LAT_MAX_REG 0x854
193#define SEC_Q_PKT_LAT_AVG_REG 0x858
194#define SEC_Q_PKT_LAT_MIN_REG 0x85c
195#define SEC_Q_ID_CLR_CFG_REG 0x900
196#define SEC_Q_1ST_BD_ERR_ID_REG 0x904
197#define SEC_Q_1ST_AUTH_FAIL_ID_REG 0x908
198#define SEC_Q_1ST_RD_ERR_ID_REG 0x90c
199#define SEC_Q_1ST_ECC2_ERR_ID_REG 0x910
200#define SEC_Q_1ST_IVLD_ID_REG 0x914
201#define SEC_Q_1ST_BD_WR_ERR_ID_REG 0x918
202#define SEC_Q_1ST_ERR_BD_WR_ERR_ID_REG 0x91c
203#define SEC_Q_1ST_BD_MAC_WR_ERR_ID_REG 0x920
204
205struct sec_debug_bd_info {
206#define SEC_DEBUG_BD_INFO_SOFT_ERR_CHECK_M GENMASK(22, 0)
207 u32 soft_err_check;
208#define SEC_DEBUG_BD_INFO_HARD_ERR_CHECK_M GENMASK(9, 0)
209 u32 hard_err_check;
210 u32 icv_mac1st_word;
211#define SEC_DEBUG_BD_INFO_GET_ID_M GENMASK(19, 0)
212 u32 sec_get_id;
213
214 u32 reserv_left[12];
215};
216
217struct sec_out_bd_info {
218#define SEC_OUT_BD_INFO_Q_ID_M GENMASK(11, 0)
219#define SEC_OUT_BD_INFO_ECC_2BIT_ERR BIT(14)
220 u16 data;
221};
222
223#define SEC_MAX_DEVICES 8
224static struct sec_dev_info *sec_devices[SEC_MAX_DEVICES];
225static DEFINE_MUTEX(sec_id_lock);
226
227static int sec_queue_map_io(struct sec_queue *queue)
228{
229 struct device *dev = queue->dev_info->dev;
230 struct resource *res;
231
232 res = platform_get_resource(to_platform_device(dev),
233 IORESOURCE_MEM,
234 2 + queue->queue_id);
235 if (!res) {
236 dev_err(dev, "Failed to get queue %d memory resource\n",
237 queue->queue_id);
238 return -ENOMEM;
239 }
240 queue->regs = ioremap(res->start, resource_size(res));
241 if (!queue->regs)
242 return -ENOMEM;
243
244 return 0;
245}
246
247static void sec_queue_unmap_io(struct sec_queue *queue)
248{
249 iounmap(queue->regs);
250}
251
252static int sec_queue_ar_pkgattr(struct sec_queue *queue, u32 ar_pkg)
253{
254 void __iomem *addr = queue->regs + SEC_Q_ARUSER_CFG_REG;
255 u32 regval;
256
257 regval = readl_relaxed(addr);
258 if (ar_pkg)
259 regval |= SEC_Q_ARUSER_CFG_PKG;
260 else
261 regval &= ~SEC_Q_ARUSER_CFG_PKG;
262 writel_relaxed(regval, addr);
263
264 return 0;
265}
266
267static int sec_queue_aw_pkgattr(struct sec_queue *queue, u32 aw_pkg)
268{
269 void __iomem *addr = queue->regs + SEC_Q_AWUSER_CFG_REG;
270 u32 regval;
271
272 regval = readl_relaxed(addr);
273 regval |= SEC_Q_AWUSER_CFG_PKG;
274 writel_relaxed(regval, addr);
275
276 return 0;
277}
278
279static int sec_clk_en(struct sec_dev_info *info)
280{
281 void __iomem *base = info->regs[SEC_COMMON];
282 u32 i = 0;
283
284 writel_relaxed(0x7, base + SEC_ALGSUB_CLK_EN_REG);
285 do {
286 usleep_range(1000, 10000);
287 if ((readl_relaxed(base + SEC_ALGSUB_CLK_ST_REG) & 0x7) == 0x7)
288 return 0;
289 i++;
290 } while (i < 10);
291 dev_err(info->dev, "sec clock enable fail!\n");
292
293 return -EIO;
294}
295
296static int sec_clk_dis(struct sec_dev_info *info)
297{
298 void __iomem *base = info->regs[SEC_COMMON];
299 u32 i = 0;
300
301 writel_relaxed(0x7, base + SEC_ALGSUB_CLK_DIS_REG);
302 do {
303 usleep_range(1000, 10000);
304 if ((readl_relaxed(base + SEC_ALGSUB_CLK_ST_REG) & 0x7) == 0)
305 return 0;
306 i++;
307 } while (i < 10);
308 dev_err(info->dev, "sec clock disable fail!\n");
309
310 return -EIO;
311}
312
313static int sec_reset_whole_module(struct sec_dev_info *info)
314{
315 void __iomem *base = info->regs[SEC_COMMON];
316 bool is_reset, b_is_reset;
317 u32 i = 0;
318
319 writel_relaxed(1, base + SEC_ALGSUB_RST_REQ_REG);
320 writel_relaxed(1, base + SEC_ALGSUB_BUILD_RST_REQ_REG);
321 while (1) {
322 usleep_range(1000, 10000);
323 is_reset = readl_relaxed(base + SEC_ALGSUB_RST_ST_REG) &
324 SEC_ALGSUB_RST_ST_IS_RST;
325 b_is_reset = readl_relaxed(base + SEC_ALGSUB_BUILD_RST_ST_REG) &
326 SEC_ALGSUB_BUILD_RST_ST_IS_RST;
327 if (is_reset && b_is_reset)
328 break;
329 i++;
330 if (i > 10) {
331 dev_err(info->dev, "Reset req failed\n");
332 return -EIO;
333 }
334 }
335
336 i = 0;
337 writel_relaxed(1, base + SEC_ALGSUB_RST_DREQ_REG);
338 writel_relaxed(1, base + SEC_ALGSUB_BUILD_RST_DREQ_REG);
339 while (1) {
340 usleep_range(1000, 10000);
341 is_reset = readl_relaxed(base + SEC_ALGSUB_RST_ST_REG) &
342 SEC_ALGSUB_RST_ST_IS_RST;
343 b_is_reset = readl_relaxed(base + SEC_ALGSUB_BUILD_RST_ST_REG) &
344 SEC_ALGSUB_BUILD_RST_ST_IS_RST;
345 if (!is_reset && !b_is_reset)
346 break;
347
348 i++;
349 if (i > 10) {
350 dev_err(info->dev, "Reset dreq failed\n");
351 return -EIO;
352 }
353 }
354
355 return 0;
356}
357
358static void sec_bd_endian_little(struct sec_dev_info *info)
359{
360 void __iomem *addr = info->regs[SEC_SAA] + SEC_CTRL2_REG;
361 u32 regval;
362
363 regval = readl_relaxed(addr);
364 regval &= ~(SEC_CTRL2_ENDIAN_BD | SEC_CTRL2_ENDIAN_BD_TYPE);
365 writel_relaxed(regval, addr);
366}
367
368
369
370
371static void sec_cache_config(struct sec_dev_info *info)
372{
373 struct iommu_domain *domain;
374 void __iomem *addr = info->regs[SEC_SAA] + SEC_CTRL_REG;
375
376 domain = iommu_get_domain_for_dev(info->dev);
377
378
379 if (domain && (domain->type & __IOMMU_DOMAIN_PAGING))
380 writel_relaxed(0x44cf9e, addr);
381 else
382 writel_relaxed(0x4cfd9, addr);
383}
384
385static void sec_data_axiwr_otsd_cfg(struct sec_dev_info *info, u32 cfg)
386{
387 void __iomem *addr = info->regs[SEC_SAA] + SEC_CTRL2_REG;
388 u32 regval;
389
390 regval = readl_relaxed(addr);
391 regval &= ~SEC_CTRL2_DATA_AXI_WR_OTSD_CFG_M;
392 regval |= (cfg << SEC_CTRL2_DATA_AXI_WR_OTSD_CFG_S) &
393 SEC_CTRL2_DATA_AXI_WR_OTSD_CFG_M;
394 writel_relaxed(regval, addr);
395}
396
397static void sec_data_axird_otsd_cfg(struct sec_dev_info *info, u32 cfg)
398{
399 void __iomem *addr = info->regs[SEC_SAA] + SEC_CTRL2_REG;
400 u32 regval;
401
402 regval = readl_relaxed(addr);
403 regval &= ~SEC_CTRL2_DATA_AXI_RD_OTSD_CFG_M;
404 regval |= (cfg << SEC_CTRL2_DATA_AXI_RD_OTSD_CFG_S) &
405 SEC_CTRL2_DATA_AXI_RD_OTSD_CFG_M;
406 writel_relaxed(regval, addr);
407}
408
409static void sec_clk_gate_en(struct sec_dev_info *info, bool clkgate)
410{
411 void __iomem *addr = info->regs[SEC_SAA] + SEC_CTRL2_REG;
412 u32 regval;
413
414 regval = readl_relaxed(addr);
415 if (clkgate)
416 regval |= SEC_CTRL2_CLK_GATE_EN;
417 else
418 regval &= ~SEC_CTRL2_CLK_GATE_EN;
419 writel_relaxed(regval, addr);
420}
421
422static void sec_comm_cnt_cfg(struct sec_dev_info *info, bool clr_ce)
423{
424 void __iomem *addr = info->regs[SEC_SAA] + SEC_COMMON_CNT_CLR_CE_REG;
425 u32 regval;
426
427 regval = readl_relaxed(addr);
428 if (clr_ce)
429 regval |= SEC_COMMON_CNT_CLR_CE_CLEAR;
430 else
431 regval &= ~SEC_COMMON_CNT_CLR_CE_CLEAR;
432 writel_relaxed(regval, addr);
433}
434
435static void sec_commsnap_en(struct sec_dev_info *info, bool snap_en)
436{
437 void __iomem *addr = info->regs[SEC_SAA] + SEC_COMMON_CNT_CLR_CE_REG;
438 u32 regval;
439
440 regval = readl_relaxed(addr);
441 if (snap_en)
442 regval |= SEC_COMMON_CNT_CLR_CE_SNAP_EN;
443 else
444 regval &= ~SEC_COMMON_CNT_CLR_CE_SNAP_EN;
445 writel_relaxed(regval, addr);
446}
447
448static void sec_ipv6_hashmask(struct sec_dev_info *info, u32 hash_mask[])
449{
450 void __iomem *base = info->regs[SEC_SAA];
451 int i;
452
453 for (i = 0; i < 10; i++)
454 writel_relaxed(hash_mask[0],
455 base + SEC_IPV6_MASK_TABLE_X_REG(i));
456}
457
458static int sec_ipv4_hashmask(struct sec_dev_info *info, u32 hash_mask)
459{
460 if (hash_mask & SEC_HASH_IPV4_MASK) {
461 dev_err(info->dev, "Sec Ipv4 Hash Mask Input Error!\n ");
462 return -EINVAL;
463 }
464
465 writel_relaxed(hash_mask,
466 info->regs[SEC_SAA] + SEC_IPV4_MASK_TABLE_REG);
467
468 return 0;
469}
470
471static void sec_set_dbg_bd_cfg(struct sec_dev_info *info, u32 cfg)
472{
473 void __iomem *addr = info->regs[SEC_SAA] + SEC_DEBUG_BD_CFG_REG;
474 u32 regval;
475
476 regval = readl_relaxed(addr);
477
478 regval &= ~SEC_DEBUG_BD_CFG_WB_NORMAL;
479
480 if (cfg)
481 regval &= ~SEC_DEBUG_BD_CFG_WB_EN;
482 else
483 regval |= SEC_DEBUG_BD_CFG_WB_EN;
484
485 writel_relaxed(regval, addr);
486}
487
488static void sec_saa_getqm_en(struct sec_dev_info *info, u32 saa_indx, u32 en)
489{
490 void __iomem *addr = info->regs[SEC_SAA] + SEC_SAA_BASE +
491 SEC_SAA_CTRL_REG(saa_indx);
492 u32 regval;
493
494 regval = readl_relaxed(addr);
495 if (en)
496 regval |= SEC_SAA_CTRL_GET_QM_EN;
497 else
498 regval &= ~SEC_SAA_CTRL_GET_QM_EN;
499 writel_relaxed(regval, addr);
500}
501
502static void sec_saa_int_mask(struct sec_dev_info *info, u32 saa_indx,
503 u32 saa_int_mask)
504{
505 writel_relaxed(saa_int_mask,
506 info->regs[SEC_SAA] + SEC_SAA_BASE + SEC_ST_INTMSK1_REG +
507 saa_indx * SEC_SAA_ADDR_SIZE);
508}
509
510static void sec_streamid(struct sec_dev_info *info, int i)
511{
512 #define SEC_SID 0x600
513 #define SEC_VMID 0
514
515 writel_relaxed((SEC_VMID | ((SEC_SID & 0xffff) << 8)),
516 info->regs[SEC_SAA] + SEC_Q_VMID_CFG_REG(i));
517}
518
519static void sec_queue_ar_alloc(struct sec_queue *queue, u32 alloc)
520{
521 void __iomem *addr = queue->regs + SEC_Q_ARUSER_CFG_REG;
522 u32 regval;
523
524 regval = readl_relaxed(addr);
525 if (alloc == SEC_QUEUE_AR_FROCE_ALLOC) {
526 regval |= SEC_Q_ARUSER_CFG_FA;
527 regval &= ~SEC_Q_ARUSER_CFG_FNA;
528 } else {
529 regval &= ~SEC_Q_ARUSER_CFG_FA;
530 regval |= SEC_Q_ARUSER_CFG_FNA;
531 }
532
533 writel_relaxed(regval, addr);
534}
535
536static void sec_queue_aw_alloc(struct sec_queue *queue, u32 alloc)
537{
538 void __iomem *addr = queue->regs + SEC_Q_AWUSER_CFG_REG;
539 u32 regval;
540
541 regval = readl_relaxed(addr);
542 if (alloc == SEC_QUEUE_AW_FROCE_ALLOC) {
543 regval |= SEC_Q_AWUSER_CFG_FA;
544 regval &= ~SEC_Q_AWUSER_CFG_FNA;
545 } else {
546 regval &= ~SEC_Q_AWUSER_CFG_FA;
547 regval |= SEC_Q_AWUSER_CFG_FNA;
548 }
549
550 writel_relaxed(regval, addr);
551}
552
553static void sec_queue_reorder(struct sec_queue *queue, bool reorder)
554{
555 void __iomem *base = queue->regs;
556 u32 regval;
557
558 regval = readl_relaxed(base + SEC_Q_CFG_REG);
559 if (reorder)
560 regval |= SEC_Q_CFG_REORDER;
561 else
562 regval &= ~SEC_Q_CFG_REORDER;
563 writel_relaxed(regval, base + SEC_Q_CFG_REG);
564}
565
566static void sec_queue_depth(struct sec_queue *queue, u32 depth)
567{
568 void __iomem *addr = queue->regs + SEC_Q_DEPTH_CFG_REG;
569 u32 regval;
570
571 regval = readl_relaxed(addr);
572 regval &= ~SEC_Q_DEPTH_CFG_DEPTH_M;
573 regval |= (depth << SEC_Q_DEPTH_CFG_DEPTH_S) & SEC_Q_DEPTH_CFG_DEPTH_M;
574
575 writel_relaxed(regval, addr);
576}
577
578static void sec_queue_cmdbase_addr(struct sec_queue *queue, u64 addr)
579{
580 writel_relaxed(upper_32_bits(addr), queue->regs + SEC_Q_BASE_HADDR_REG);
581 writel_relaxed(lower_32_bits(addr), queue->regs + SEC_Q_BASE_LADDR_REG);
582}
583
584static void sec_queue_outorder_addr(struct sec_queue *queue, u64 addr)
585{
586 writel_relaxed(upper_32_bits(addr),
587 queue->regs + SEC_Q_OUTORDER_BASE_HADDR_REG);
588 writel_relaxed(lower_32_bits(addr),
589 queue->regs + SEC_Q_OUTORDER_BASE_LADDR_REG);
590}
591
592static void sec_queue_errbase_addr(struct sec_queue *queue, u64 addr)
593{
594 writel_relaxed(upper_32_bits(addr),
595 queue->regs + SEC_Q_ERR_BASE_HADDR_REG);
596 writel_relaxed(lower_32_bits(addr),
597 queue->regs + SEC_Q_ERR_BASE_LADDR_REG);
598}
599
600static void sec_queue_irq_disable(struct sec_queue *queue)
601{
602 writel_relaxed((u32)~0, queue->regs + SEC_Q_FLOW_INT_MKS_REG);
603}
604
605static void sec_queue_irq_enable(struct sec_queue *queue)
606{
607 writel_relaxed(0, queue->regs + SEC_Q_FLOW_INT_MKS_REG);
608}
609
610static void sec_queue_abn_irq_disable(struct sec_queue *queue)
611{
612 writel_relaxed((u32)~0, queue->regs + SEC_Q_FAIL_INT_MSK_REG);
613}
614
615static void sec_queue_stop(struct sec_queue *queue)
616{
617 disable_irq(queue->task_irq);
618 sec_queue_irq_disable(queue);
619 writel_relaxed(0x0, queue->regs + SEC_QUEUE_ENB_REG);
620}
621
622static void sec_queue_start(struct sec_queue *queue)
623{
624 sec_queue_irq_enable(queue);
625 enable_irq(queue->task_irq);
626 queue->expected = 0;
627 writel_relaxed(SEC_Q_INIT_AND_STAT_CLEAR, queue->regs + SEC_Q_INIT_REG);
628 writel_relaxed(0x1, queue->regs + SEC_QUEUE_ENB_REG);
629}
630
631static struct sec_queue *sec_alloc_queue(struct sec_dev_info *info)
632{
633 int i;
634
635 mutex_lock(&info->dev_lock);
636
637
638 for (i = 0; i < SEC_Q_NUM; i++)
639 if (!info->queues[i].in_use) {
640 info->queues[i].in_use = true;
641 info->queues_in_use++;
642 mutex_unlock(&info->dev_lock);
643
644 return &info->queues[i];
645 }
646 mutex_unlock(&info->dev_lock);
647
648 return ERR_PTR(-ENODEV);
649}
650
651static int sec_queue_free(struct sec_queue *queue)
652{
653 struct sec_dev_info *info = queue->dev_info;
654
655 if (queue->queue_id >= SEC_Q_NUM) {
656 dev_err(info->dev, "No queue %d\n", queue->queue_id);
657 return -ENODEV;
658 }
659
660 if (!queue->in_use) {
661 dev_err(info->dev, "Queue %d is idle\n", queue->queue_id);
662 return -ENODEV;
663 }
664
665 mutex_lock(&info->dev_lock);
666 queue->in_use = false;
667 info->queues_in_use--;
668 mutex_unlock(&info->dev_lock);
669
670 return 0;
671}
672
673static irqreturn_t sec_isr_handle_th(int irq, void *q)
674{
675 sec_queue_irq_disable(q);
676 return IRQ_WAKE_THREAD;
677}
678
679static irqreturn_t sec_isr_handle(int irq, void *q)
680{
681 struct sec_queue *queue = q;
682 struct sec_queue_ring_cmd *msg_ring = &queue->ring_cmd;
683 struct sec_queue_ring_cq *cq_ring = &queue->ring_cq;
684 struct sec_out_bd_info *outorder_msg;
685 struct sec_bd_info *msg;
686 u32 ooo_read, ooo_write;
687 void __iomem *base = queue->regs;
688 int q_id;
689
690 ooo_read = readl(base + SEC_Q_OUTORDER_RD_PTR_REG);
691 ooo_write = readl(base + SEC_Q_OUTORDER_WR_PTR_REG);
692 outorder_msg = cq_ring->vaddr + ooo_read;
693 q_id = outorder_msg->data & SEC_OUT_BD_INFO_Q_ID_M;
694 msg = msg_ring->vaddr + q_id;
695
696 while ((ooo_write != ooo_read) && msg->w0 & SEC_BD_W0_DONE) {
697
698
699
700
701 set_bit(q_id, queue->unprocessed);
702 if (q_id == queue->expected)
703 while (test_bit(queue->expected, queue->unprocessed)) {
704 clear_bit(queue->expected, queue->unprocessed);
705 msg = msg_ring->vaddr + queue->expected;
706 msg->w0 &= ~SEC_BD_W0_DONE;
707 msg_ring->callback(msg,
708 queue->shadow[queue->expected]);
709 queue->shadow[queue->expected] = NULL;
710 queue->expected = (queue->expected + 1) %
711 SEC_QUEUE_LEN;
712 atomic_dec(&msg_ring->used);
713 }
714
715 ooo_read = (ooo_read + 1) % SEC_QUEUE_LEN;
716 writel(ooo_read, base + SEC_Q_OUTORDER_RD_PTR_REG);
717 ooo_write = readl(base + SEC_Q_OUTORDER_WR_PTR_REG);
718 outorder_msg = cq_ring->vaddr + ooo_read;
719 q_id = outorder_msg->data & SEC_OUT_BD_INFO_Q_ID_M;
720 msg = msg_ring->vaddr + q_id;
721 }
722
723 sec_queue_irq_enable(queue);
724
725 return IRQ_HANDLED;
726}
727
728static int sec_queue_irq_init(struct sec_queue *queue)
729{
730 struct sec_dev_info *info = queue->dev_info;
731 int irq = queue->task_irq;
732 int ret;
733
734 ret = request_threaded_irq(irq, sec_isr_handle_th, sec_isr_handle,
735 IRQF_TRIGGER_RISING, queue->name, queue);
736 if (ret) {
737 dev_err(info->dev, "request irq(%d) failed %d\n", irq, ret);
738 return ret;
739 }
740 disable_irq(irq);
741
742 return 0;
743}
744
745static int sec_queue_irq_uninit(struct sec_queue *queue)
746{
747 free_irq(queue->task_irq, queue);
748
749 return 0;
750}
751
752static struct sec_dev_info *sec_device_get(void)
753{
754 struct sec_dev_info *sec_dev = NULL;
755 struct sec_dev_info *this_sec_dev;
756 int least_busy_n = SEC_Q_NUM + 1;
757 int i;
758
759
760 for (i = 0; i < SEC_MAX_DEVICES; i++) {
761 this_sec_dev = sec_devices[i];
762 if (this_sec_dev &&
763 this_sec_dev->queues_in_use < least_busy_n) {
764 least_busy_n = this_sec_dev->queues_in_use;
765 sec_dev = this_sec_dev;
766 }
767 }
768
769 return sec_dev;
770}
771
772static struct sec_queue *sec_queue_alloc_start(struct sec_dev_info *info)
773{
774 struct sec_queue *queue;
775
776 queue = sec_alloc_queue(info);
777 if (IS_ERR(queue)) {
778 dev_err(info->dev, "alloc sec queue failed! %ld\n",
779 PTR_ERR(queue));
780 return queue;
781 }
782
783 sec_queue_start(queue);
784
785 return queue;
786}
787
788
789
790
791
792
793
794
795
796struct sec_queue *sec_queue_alloc_start_safe(void)
797{
798 struct sec_dev_info *info;
799 struct sec_queue *queue = ERR_PTR(-ENODEV);
800
801 mutex_lock(&sec_id_lock);
802 info = sec_device_get();
803 if (!info)
804 goto unlock;
805
806 queue = sec_queue_alloc_start(info);
807
808unlock:
809 mutex_unlock(&sec_id_lock);
810
811 return queue;
812}
813
814
815
816
817
818
819
820
821int sec_queue_stop_release(struct sec_queue *queue)
822{
823 struct device *dev = queue->dev_info->dev;
824 int ret;
825
826 sec_queue_stop(queue);
827
828 ret = sec_queue_free(queue);
829 if (ret)
830 dev_err(dev, "Releasing queue failed %d\n", ret);
831
832 return ret;
833}
834
835
836
837
838
839
840
841
842bool sec_queue_empty(struct sec_queue *queue)
843{
844 struct sec_queue_ring_cmd *msg_ring = &queue->ring_cmd;
845
846 return !atomic_read(&msg_ring->used);
847}
848
849
850
851
852
853
854
855
856
857int sec_queue_send(struct sec_queue *queue, struct sec_bd_info *msg, void *ctx)
858{
859 struct sec_queue_ring_cmd *msg_ring = &queue->ring_cmd;
860 void __iomem *base = queue->regs;
861 u32 write, read;
862
863 mutex_lock(&msg_ring->lock);
864 read = readl(base + SEC_Q_RD_PTR_REG);
865 write = readl(base + SEC_Q_WR_PTR_REG);
866 if (write == read && atomic_read(&msg_ring->used) == SEC_QUEUE_LEN) {
867 mutex_unlock(&msg_ring->lock);
868 return -EAGAIN;
869 }
870 memcpy(msg_ring->vaddr + write, msg, sizeof(*msg));
871 queue->shadow[write] = ctx;
872 write = (write + 1) % SEC_QUEUE_LEN;
873
874
875 wmb();
876 writel(write, base + SEC_Q_WR_PTR_REG);
877
878 atomic_inc(&msg_ring->used);
879 mutex_unlock(&msg_ring->lock);
880
881 return 0;
882}
883
884bool sec_queue_can_enqueue(struct sec_queue *queue, int num)
885{
886 struct sec_queue_ring_cmd *msg_ring = &queue->ring_cmd;
887
888 return SEC_QUEUE_LEN - atomic_read(&msg_ring->used) >= num;
889}
890
891static void sec_queue_hw_init(struct sec_queue *queue)
892{
893 sec_queue_ar_alloc(queue, SEC_QUEUE_AR_FROCE_NOALLOC);
894 sec_queue_aw_alloc(queue, SEC_QUEUE_AR_FROCE_NOALLOC);
895 sec_queue_ar_pkgattr(queue, 1);
896 sec_queue_aw_pkgattr(queue, 1);
897
898
899 sec_queue_reorder(queue, true);
900
901
902 writel_relaxed(1, queue->regs + SEC_Q_PROC_NUM_CFG_REG);
903
904 sec_queue_depth(queue, SEC_QUEUE_LEN - 1);
905
906 sec_queue_cmdbase_addr(queue, queue->ring_cmd.paddr);
907
908 sec_queue_outorder_addr(queue, queue->ring_cq.paddr);
909
910 sec_queue_errbase_addr(queue, queue->ring_db.paddr);
911
912 writel_relaxed(0x100, queue->regs + SEC_Q_OT_TH_REG);
913
914 sec_queue_abn_irq_disable(queue);
915 sec_queue_irq_disable(queue);
916 writel_relaxed(SEC_Q_INIT_AND_STAT_CLEAR, queue->regs + SEC_Q_INIT_REG);
917}
918
919static int sec_hw_init(struct sec_dev_info *info)
920{
921 struct iommu_domain *domain;
922 u32 sec_ipv4_mask = 0;
923 u32 sec_ipv6_mask[10] = {};
924 u32 i, ret;
925
926 domain = iommu_get_domain_for_dev(info->dev);
927
928
929
930
931
932 if (domain && (domain->type & __IOMMU_DOMAIN_PAGING))
933 info->num_saas = 5;
934
935 else
936 info->num_saas = 10;
937
938 writel_relaxed(GENMASK(info->num_saas - 1, 0),
939 info->regs[SEC_SAA] + SEC_CLK_EN_REG);
940
941
942 sec_bd_endian_little(info);
943
944 sec_cache_config(info);
945
946
947 sec_data_axiwr_otsd_cfg(info, 0x7);
948 sec_data_axird_otsd_cfg(info, 0x7);
949
950
951 sec_clk_gate_en(info, true);
952
953
954 sec_comm_cnt_cfg(info, false);
955
956
957 sec_commsnap_en(info, false);
958
959 writel_relaxed((u32)~0, info->regs[SEC_SAA] + SEC_FSM_MAX_CNT_REG);
960
961 ret = sec_ipv4_hashmask(info, sec_ipv4_mask);
962 if (ret) {
963 dev_err(info->dev, "Failed to set ipv4 hashmask %d\n", ret);
964 return -EIO;
965 }
966
967 sec_ipv6_hashmask(info, sec_ipv6_mask);
968
969
970 sec_set_dbg_bd_cfg(info, 0);
971
972 if (domain && (domain->type & __IOMMU_DOMAIN_PAGING)) {
973 for (i = 0; i < SEC_Q_NUM; i++) {
974 sec_streamid(info, i);
975
976 writel_relaxed(0x3f,
977 info->regs[SEC_SAA] +
978 SEC_Q_WEIGHT_CFG_REG(i));
979 }
980 }
981
982 for (i = 0; i < info->num_saas; i++) {
983 sec_saa_getqm_en(info, i, 1);
984 sec_saa_int_mask(info, i, 0);
985 }
986
987 return 0;
988}
989
990static void sec_hw_exit(struct sec_dev_info *info)
991{
992 int i;
993
994 for (i = 0; i < SEC_MAX_SAA_NUM; i++) {
995 sec_saa_int_mask(info, i, (u32)~0);
996 sec_saa_getqm_en(info, i, 0);
997 }
998}
999
1000static void sec_queue_base_init(struct sec_dev_info *info,
1001 struct sec_queue *queue, int queue_id)
1002{
1003 queue->dev_info = info;
1004 queue->queue_id = queue_id;
1005 snprintf(queue->name, sizeof(queue->name),
1006 "%s_%d", dev_name(info->dev), queue->queue_id);
1007}
1008
1009static int sec_map_io(struct sec_dev_info *info, struct platform_device *pdev)
1010{
1011 struct resource *res;
1012 int i;
1013
1014 for (i = 0; i < SEC_NUM_ADDR_REGIONS; i++) {
1015 res = platform_get_resource(pdev, IORESOURCE_MEM, i);
1016
1017 if (!res) {
1018 dev_err(info->dev, "Memory resource %d not found\n", i);
1019 return -EINVAL;
1020 }
1021
1022 info->regs[i] = devm_ioremap(info->dev, res->start,
1023 resource_size(res));
1024 if (!info->regs[i]) {
1025 dev_err(info->dev,
1026 "Memory resource %d could not be remapped\n",
1027 i);
1028 return -EINVAL;
1029 }
1030 }
1031
1032 return 0;
1033}
1034
1035static int sec_base_init(struct sec_dev_info *info,
1036 struct platform_device *pdev)
1037{
1038 int ret;
1039
1040 ret = sec_map_io(info, pdev);
1041 if (ret)
1042 return ret;
1043
1044 ret = sec_clk_en(info);
1045 if (ret)
1046 return ret;
1047
1048 ret = sec_reset_whole_module(info);
1049 if (ret)
1050 goto sec_clk_disable;
1051
1052 ret = sec_hw_init(info);
1053 if (ret)
1054 goto sec_clk_disable;
1055
1056 return 0;
1057
1058sec_clk_disable:
1059 sec_clk_dis(info);
1060
1061 return ret;
1062}
1063
1064static void sec_base_exit(struct sec_dev_info *info)
1065{
1066 sec_hw_exit(info);
1067 sec_clk_dis(info);
1068}
1069
1070#define SEC_Q_CMD_SIZE \
1071 round_up(SEC_QUEUE_LEN * sizeof(struct sec_bd_info), PAGE_SIZE)
1072#define SEC_Q_CQ_SIZE \
1073 round_up(SEC_QUEUE_LEN * sizeof(struct sec_out_bd_info), PAGE_SIZE)
1074#define SEC_Q_DB_SIZE \
1075 round_up(SEC_QUEUE_LEN * sizeof(struct sec_debug_bd_info), PAGE_SIZE)
1076
1077static int sec_queue_res_cfg(struct sec_queue *queue)
1078{
1079 struct device *dev = queue->dev_info->dev;
1080 struct sec_queue_ring_cmd *ring_cmd = &queue->ring_cmd;
1081 struct sec_queue_ring_cq *ring_cq = &queue->ring_cq;
1082 struct sec_queue_ring_db *ring_db = &queue->ring_db;
1083 int ret;
1084
1085 ring_cmd->vaddr = dma_zalloc_coherent(dev, SEC_Q_CMD_SIZE,
1086 &ring_cmd->paddr,
1087 GFP_KERNEL);
1088 if (!ring_cmd->vaddr)
1089 return -ENOMEM;
1090
1091 atomic_set(&ring_cmd->used, 0);
1092 mutex_init(&ring_cmd->lock);
1093 ring_cmd->callback = sec_alg_callback;
1094
1095 ring_cq->vaddr = dma_zalloc_coherent(dev, SEC_Q_CQ_SIZE,
1096 &ring_cq->paddr,
1097 GFP_KERNEL);
1098 if (!ring_cq->vaddr) {
1099 ret = -ENOMEM;
1100 goto err_free_ring_cmd;
1101 }
1102
1103 ring_db->vaddr = dma_zalloc_coherent(dev, SEC_Q_DB_SIZE,
1104 &ring_db->paddr,
1105 GFP_KERNEL);
1106 if (!ring_db->vaddr) {
1107 ret = -ENOMEM;
1108 goto err_free_ring_cq;
1109 }
1110 queue->task_irq = platform_get_irq(to_platform_device(dev),
1111 queue->queue_id * 2 + 1);
1112 if (queue->task_irq <= 0) {
1113 ret = -EINVAL;
1114 goto err_free_ring_db;
1115 }
1116
1117 return 0;
1118
1119err_free_ring_db:
1120 dma_free_coherent(dev, SEC_Q_DB_SIZE, queue->ring_db.vaddr,
1121 queue->ring_db.paddr);
1122err_free_ring_cq:
1123 dma_free_coherent(dev, SEC_Q_CQ_SIZE, queue->ring_cq.vaddr,
1124 queue->ring_cq.paddr);
1125err_free_ring_cmd:
1126 dma_free_coherent(dev, SEC_Q_CMD_SIZE, queue->ring_cmd.vaddr,
1127 queue->ring_cmd.paddr);
1128
1129 return ret;
1130}
1131
1132static void sec_queue_free_ring_pages(struct sec_queue *queue)
1133{
1134 struct device *dev = queue->dev_info->dev;
1135
1136 dma_free_coherent(dev, SEC_Q_DB_SIZE, queue->ring_db.vaddr,
1137 queue->ring_db.paddr);
1138 dma_free_coherent(dev, SEC_Q_CQ_SIZE, queue->ring_cq.vaddr,
1139 queue->ring_cq.paddr);
1140 dma_free_coherent(dev, SEC_Q_CMD_SIZE, queue->ring_cmd.vaddr,
1141 queue->ring_cmd.paddr);
1142}
1143
1144static int sec_queue_config(struct sec_dev_info *info, struct sec_queue *queue,
1145 int queue_id)
1146{
1147 int ret;
1148
1149 sec_queue_base_init(info, queue, queue_id);
1150
1151 ret = sec_queue_res_cfg(queue);
1152 if (ret)
1153 return ret;
1154
1155 ret = sec_queue_map_io(queue);
1156 if (ret) {
1157 dev_err(info->dev, "Queue map failed %d\n", ret);
1158 sec_queue_free_ring_pages(queue);
1159 return ret;
1160 }
1161
1162 sec_queue_hw_init(queue);
1163
1164 return 0;
1165}
1166
1167static void sec_queue_unconfig(struct sec_dev_info *info,
1168 struct sec_queue *queue)
1169{
1170 sec_queue_unmap_io(queue);
1171 sec_queue_free_ring_pages(queue);
1172}
1173
1174static int sec_id_alloc(struct sec_dev_info *info)
1175{
1176 int ret = 0;
1177 int i;
1178
1179 mutex_lock(&sec_id_lock);
1180
1181 for (i = 0; i < SEC_MAX_DEVICES; i++)
1182 if (!sec_devices[i])
1183 break;
1184 if (i == SEC_MAX_DEVICES) {
1185 ret = -ENOMEM;
1186 goto unlock;
1187 }
1188 info->sec_id = i;
1189 sec_devices[info->sec_id] = info;
1190
1191unlock:
1192 mutex_unlock(&sec_id_lock);
1193
1194 return ret;
1195}
1196
1197static void sec_id_free(struct sec_dev_info *info)
1198{
1199 mutex_lock(&sec_id_lock);
1200 sec_devices[info->sec_id] = NULL;
1201 mutex_unlock(&sec_id_lock);
1202}
1203
1204static int sec_probe(struct platform_device *pdev)
1205{
1206 struct sec_dev_info *info;
1207 struct device *dev = &pdev->dev;
1208 int i, j;
1209 int ret;
1210
1211 ret = dma_set_mask_and_coherent(dev, DMA_BIT_MASK(64));
1212 if (ret) {
1213 dev_err(dev, "Failed to set 64 bit dma mask %d", ret);
1214 return -ENODEV;
1215 }
1216
1217 info = devm_kzalloc(dev, (sizeof(*info)), GFP_KERNEL);
1218 if (!info)
1219 return -ENOMEM;
1220
1221 info->dev = dev;
1222 mutex_init(&info->dev_lock);
1223
1224 info->hw_sgl_pool = dmam_pool_create("sgl", dev,
1225 sizeof(struct sec_hw_sgl), 64, 0);
1226 if (!info->hw_sgl_pool) {
1227 dev_err(dev, "Failed to create sec sgl dma pool\n");
1228 return -ENOMEM;
1229 }
1230
1231 ret = sec_base_init(info, pdev);
1232 if (ret) {
1233 dev_err(dev, "Base initialization fail! %d\n", ret);
1234 return ret;
1235 }
1236
1237 for (i = 0; i < SEC_Q_NUM; i++) {
1238 ret = sec_queue_config(info, &info->queues[i], i);
1239 if (ret)
1240 goto queues_unconfig;
1241
1242 ret = sec_queue_irq_init(&info->queues[i]);
1243 if (ret) {
1244 sec_queue_unconfig(info, &info->queues[i]);
1245 goto queues_unconfig;
1246 }
1247 }
1248
1249 ret = sec_algs_register();
1250 if (ret) {
1251 dev_err(dev, "Failed to register algorithms with crypto %d\n",
1252 ret);
1253 goto queues_unconfig;
1254 }
1255
1256 platform_set_drvdata(pdev, info);
1257
1258 ret = sec_id_alloc(info);
1259 if (ret)
1260 goto algs_unregister;
1261
1262 return 0;
1263
1264algs_unregister:
1265 sec_algs_unregister();
1266queues_unconfig:
1267 for (j = i - 1; j >= 0; j--) {
1268 sec_queue_irq_uninit(&info->queues[j]);
1269 sec_queue_unconfig(info, &info->queues[j]);
1270 }
1271 sec_base_exit(info);
1272
1273 return ret;
1274}
1275
1276static int sec_remove(struct platform_device *pdev)
1277{
1278 struct sec_dev_info *info = platform_get_drvdata(pdev);
1279 int i;
1280
1281
1282 sec_id_free(info);
1283
1284 sec_algs_unregister();
1285
1286 for (i = 0; i < SEC_Q_NUM; i++) {
1287 sec_queue_irq_uninit(&info->queues[i]);
1288 sec_queue_unconfig(info, &info->queues[i]);
1289 }
1290
1291 sec_base_exit(info);
1292
1293 return 0;
1294}
1295
1296static const __maybe_unused struct of_device_id sec_match[] = {
1297 { .compatible = "hisilicon,hip06-sec" },
1298 { .compatible = "hisilicon,hip07-sec" },
1299 {}
1300};
1301MODULE_DEVICE_TABLE(of, sec_match);
1302
1303static const __maybe_unused struct acpi_device_id sec_acpi_match[] = {
1304 { "HISI02C1", 0 },
1305 { }
1306};
1307MODULE_DEVICE_TABLE(acpi, sec_acpi_match);
1308
1309static struct platform_driver sec_driver = {
1310 .probe = sec_probe,
1311 .remove = sec_remove,
1312 .driver = {
1313 .name = "hisi_sec_platform_driver",
1314 .of_match_table = sec_match,
1315 .acpi_match_table = ACPI_PTR(sec_acpi_match),
1316 },
1317};
1318module_platform_driver(sec_driver);
1319
1320MODULE_LICENSE("GPL");
1321MODULE_DESCRIPTION("Hisilicon Security Accelerators");
1322MODULE_AUTHOR("Zaibo Xu <xuzaibo@huawei.com");
1323MODULE_AUTHOR("Jonathan Cameron <jonathan.cameron@huawei.com>");
1324