ipa_reg-v5.0.c 18 KB

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  1. // SPDX-License-Identifier: GPL-2.0
  2. /* Copyright (C) 2023-2024 Linaro Ltd. */
  3. #include <linux/array_size.h>
  4. #include <linux/bits.h>
  5. #include <linux/types.h>
  6. #include "../ipa_reg.h"
  7. #include "../ipa_version.h"
  8. static const u32 reg_flavor_0_fmask[] = {
  9. [MAX_PIPES] = GENMASK(7, 0),
  10. [MAX_CONS_PIPES] = GENMASK(15, 8),
  11. [MAX_PROD_PIPES] = GENMASK(23, 16),
  12. [PROD_LOWEST] = GENMASK(31, 24),
  13. };
  14. REG_FIELDS(FLAVOR_0, flavor_0, 0x00000000);
  15. static const u32 reg_comp_cfg_fmask[] = {
  16. [RAM_ARB_PRI_CLIENT_SAMP_FIX_DIS] = BIT(0),
  17. [GSI_SNOC_BYPASS_DIS] = BIT(1),
  18. [GEN_QMB_0_SNOC_BYPASS_DIS] = BIT(2),
  19. [GEN_QMB_1_SNOC_BYPASS_DIS] = BIT(3),
  20. /* Bit 4 reserved */
  21. [IPA_QMB_SELECT_CONS_EN] = BIT(5),
  22. [IPA_QMB_SELECT_PROD_EN] = BIT(6),
  23. [GSI_MULTI_INORDER_RD_DIS] = BIT(7),
  24. [GSI_MULTI_INORDER_WR_DIS] = BIT(8),
  25. [GEN_QMB_0_MULTI_INORDER_RD_DIS] = BIT(9),
  26. [GEN_QMB_1_MULTI_INORDER_RD_DIS] = BIT(10),
  27. [GEN_QMB_0_MULTI_INORDER_WR_DIS] = BIT(11),
  28. [GEN_QMB_1_MULTI_INORDER_WR_DIS] = BIT(12),
  29. [GEN_QMB_0_SNOC_CNOC_LOOP_PROT_DIS] = BIT(13),
  30. [GSI_SNOC_CNOC_LOOP_PROT_DISABLE] = BIT(14),
  31. [GSI_MULTI_AXI_MASTERS_DIS] = BIT(15),
  32. [IPA_QMB_SELECT_GLOBAL_EN] = BIT(16),
  33. [FULL_FLUSH_WAIT_RS_CLOSURE_EN] = BIT(17),
  34. /* Bit 18 reserved */
  35. [QMB_RAM_RD_CACHE_DISABLE] = BIT(19),
  36. [GENQMB_AOOOWR] = BIT(20),
  37. [IF_OUT_OF_BUF_STOP_RESET_MASK_EN] = BIT(21),
  38. [ATOMIC_FETCHER_ARB_LOCK_DIS] = GENMASK(27, 22),
  39. /* Bits 28-29 reserved */
  40. [GEN_QMB_1_DYNAMIC_ASIZE] = BIT(30),
  41. [GEN_QMB_0_DYNAMIC_ASIZE] = BIT(31),
  42. };
  43. REG_FIELDS(COMP_CFG, comp_cfg, 0x0000002c);
  44. static const u32 reg_clkon_cfg_fmask[] = {
  45. [CLKON_RX] = BIT(0),
  46. [CLKON_PROC] = BIT(1),
  47. [TX_WRAPPER] = BIT(2),
  48. [CLKON_MISC] = BIT(3),
  49. [RAM_ARB] = BIT(4),
  50. [FTCH_HPS] = BIT(5),
  51. [FTCH_DPS] = BIT(6),
  52. [CLKON_HPS] = BIT(7),
  53. [CLKON_DPS] = BIT(8),
  54. [RX_HPS_CMDQS] = BIT(9),
  55. [HPS_DPS_CMDQS] = BIT(10),
  56. [DPS_TX_CMDQS] = BIT(11),
  57. [RSRC_MNGR] = BIT(12),
  58. [CTX_HANDLER] = BIT(13),
  59. [ACK_MNGR] = BIT(14),
  60. [D_DCPH] = BIT(15),
  61. [H_DCPH] = BIT(16),
  62. /* Bit 17 reserved */
  63. [NTF_TX_CMDQS] = BIT(18),
  64. [CLKON_TX_0] = BIT(19),
  65. [CLKON_TX_1] = BIT(20),
  66. [CLKON_FNR] = BIT(21),
  67. [QSB2AXI_CMDQ_L] = BIT(22),
  68. [AGGR_WRAPPER] = BIT(23),
  69. [RAM_SLAVEWAY] = BIT(24),
  70. [CLKON_QMB] = BIT(25),
  71. [WEIGHT_ARB] = BIT(26),
  72. [GSI_IF] = BIT(27),
  73. [CLKON_GLOBAL] = BIT(28),
  74. [GLOBAL_2X_CLK] = BIT(29),
  75. [DPL_FIFO] = BIT(30),
  76. [DRBIP] = BIT(31),
  77. };
  78. REG_FIELDS(CLKON_CFG, clkon_cfg, 0x00000034);
  79. static const u32 reg_route_fmask[] = {
  80. [ROUTE_DEF_PIPE] = GENMASK(7, 0),
  81. [ROUTE_FRAG_DEF_PIPE] = GENMASK(15, 8),
  82. [ROUTE_DEF_HDR_OFST] = GENMASK(25, 16),
  83. [ROUTE_DEF_HDR_TABLE] = BIT(26),
  84. [ROUTE_DEF_RETAIN_HDR] = BIT(27),
  85. [ROUTE_DIS] = BIT(28),
  86. /* Bits 29-31 reserved */
  87. };
  88. REG_FIELDS(ROUTE, route, 0x00000038);
  89. static const u32 reg_shared_mem_size_fmask[] = {
  90. [MEM_SIZE] = GENMASK(15, 0),
  91. [MEM_BADDR] = GENMASK(31, 16),
  92. };
  93. REG_FIELDS(SHARED_MEM_SIZE, shared_mem_size, 0x00000040);
  94. static const u32 reg_qsb_max_writes_fmask[] = {
  95. [GEN_QMB_0_MAX_WRITES] = GENMASK(3, 0),
  96. [GEN_QMB_1_MAX_WRITES] = GENMASK(7, 4),
  97. /* Bits 8-31 reserved */
  98. };
  99. REG_FIELDS(QSB_MAX_WRITES, qsb_max_writes, 0x00000054);
  100. static const u32 reg_qsb_max_reads_fmask[] = {
  101. [GEN_QMB_0_MAX_READS] = GENMASK(3, 0),
  102. [GEN_QMB_1_MAX_READS] = GENMASK(7, 4),
  103. /* Bits 8-15 reserved */
  104. [GEN_QMB_0_MAX_READS_BEATS] = GENMASK(23, 16),
  105. [GEN_QMB_1_MAX_READS_BEATS] = GENMASK(31, 24),
  106. };
  107. REG_FIELDS(QSB_MAX_READS, qsb_max_reads, 0x00000058);
  108. /* Valid bits defined by ipa->available */
  109. REG_STRIDE(STATE_AGGR_ACTIVE, state_aggr_active, 0x00000100, 0x0004);
  110. static const u32 reg_filt_rout_cache_flush_fmask[] = {
  111. [ROUTER_CACHE] = BIT(0),
  112. /* Bits 1-3 reserved */
  113. [FILTER_CACHE] = BIT(4),
  114. /* Bits 5-31 reserved */
  115. };
  116. REG_FIELDS(FILT_ROUT_CACHE_FLUSH, filt_rout_cache_flush, 0x0000404);
  117. static const u32 reg_local_pkt_proc_cntxt_fmask[] = {
  118. [IPA_BASE_ADDR] = GENMASK(17, 0),
  119. /* Bits 18-31 reserved */
  120. };
  121. /* Offset must be a multiple of 8 */
  122. REG_FIELDS(LOCAL_PKT_PROC_CNTXT, local_pkt_proc_cntxt, 0x00000478);
  123. static const u32 reg_ipa_tx_cfg_fmask[] = {
  124. /* Bits 0-1 reserved */
  125. [PREFETCH_ALMOST_EMPTY_SIZE_TX0] = GENMASK(5, 2),
  126. [DMAW_SCND_OUTSD_PRED_THRESHOLD] = GENMASK(9, 6),
  127. [DMAW_SCND_OUTSD_PRED_EN] = BIT(10),
  128. [DMAW_MAX_BEATS_256_DIS] = BIT(11),
  129. [PA_MASK_EN] = BIT(12),
  130. [PREFETCH_ALMOST_EMPTY_SIZE_TX1] = GENMASK(16, 13),
  131. [DUAL_TX_ENABLE] = BIT(17),
  132. [SSPND_PA_NO_START_STATE] = BIT(18),
  133. /* Bit 19 reserved */
  134. [HOLB_STICKY_DROP_EN] = BIT(20),
  135. /* Bits 21-31 reserved */
  136. };
  137. REG_FIELDS(IPA_TX_CFG, ipa_tx_cfg, 0x00000488);
  138. static const u32 reg_idle_indication_cfg_fmask[] = {
  139. [ENTER_IDLE_DEBOUNCE_THRESH] = GENMASK(15, 0),
  140. [CONST_NON_IDLE_ENABLE] = BIT(16),
  141. /* Bits 17-31 reserved */
  142. };
  143. REG_FIELDS(IDLE_INDICATION_CFG, idle_indication_cfg, 0x000004a8);
  144. static const u32 reg_qtime_timestamp_cfg_fmask[] = {
  145. [DPL_TIMESTAMP_LSB] = GENMASK(4, 0),
  146. /* Bits 5-6 reserved */
  147. [DPL_TIMESTAMP_SEL] = BIT(7),
  148. [TAG_TIMESTAMP_LSB] = GENMASK(12, 8),
  149. /* Bits 13-15 reserved */
  150. [NAT_TIMESTAMP_LSB] = GENMASK(20, 16),
  151. /* Bits 21-31 reserved */
  152. };
  153. REG_FIELDS(QTIME_TIMESTAMP_CFG, qtime_timestamp_cfg, 0x000004ac);
  154. static const u32 reg_timers_xo_clk_div_cfg_fmask[] = {
  155. [DIV_VALUE] = GENMASK(8, 0),
  156. /* Bits 9-30 reserved */
  157. [DIV_ENABLE] = BIT(31),
  158. };
  159. REG_FIELDS(TIMERS_XO_CLK_DIV_CFG, timers_xo_clk_div_cfg, 0x000004b0);
  160. static const u32 reg_timers_pulse_gran_cfg_fmask[] = {
  161. [PULSE_GRAN_0] = GENMASK(2, 0),
  162. [PULSE_GRAN_1] = GENMASK(5, 3),
  163. [PULSE_GRAN_2] = GENMASK(8, 6),
  164. [PULSE_GRAN_3] = GENMASK(11, 9),
  165. /* Bits 12-31 reserved */
  166. };
  167. REG_FIELDS(TIMERS_PULSE_GRAN_CFG, timers_pulse_gran_cfg, 0x000004b4);
  168. static const u32 reg_src_rsrc_grp_01_rsrc_type_fmask[] = {
  169. [X_MIN_LIM] = GENMASK(5, 0),
  170. /* Bits 6-7 reserved */
  171. [X_MAX_LIM] = GENMASK(13, 8),
  172. /* Bits 14-15 reserved */
  173. [Y_MIN_LIM] = GENMASK(21, 16),
  174. /* Bits 22-23 reserved */
  175. [Y_MAX_LIM] = GENMASK(29, 24),
  176. /* Bits 30-31 reserved */
  177. };
  178. REG_STRIDE_FIELDS(SRC_RSRC_GRP_01_RSRC_TYPE, src_rsrc_grp_01_rsrc_type,
  179. 0x00000500, 0x0020);
  180. static const u32 reg_src_rsrc_grp_23_rsrc_type_fmask[] = {
  181. [X_MIN_LIM] = GENMASK(5, 0),
  182. /* Bits 6-7 reserved */
  183. [X_MAX_LIM] = GENMASK(13, 8),
  184. /* Bits 14-15 reserved */
  185. [Y_MIN_LIM] = GENMASK(21, 16),
  186. /* Bits 22-23 reserved */
  187. [Y_MAX_LIM] = GENMASK(29, 24),
  188. /* Bits 30-31 reserved */
  189. };
  190. REG_STRIDE_FIELDS(SRC_RSRC_GRP_23_RSRC_TYPE, src_rsrc_grp_23_rsrc_type,
  191. 0x00000504, 0x0020);
  192. static const u32 reg_src_rsrc_grp_45_rsrc_type_fmask[] = {
  193. [X_MIN_LIM] = GENMASK(5, 0),
  194. /* Bits 6-7 reserved */
  195. [X_MAX_LIM] = GENMASK(13, 8),
  196. /* Bits 14-15 reserved */
  197. [Y_MIN_LIM] = GENMASK(21, 16),
  198. /* Bits 22-23 reserved */
  199. [Y_MAX_LIM] = GENMASK(29, 24),
  200. /* Bits 30-31 reserved */
  201. };
  202. REG_STRIDE_FIELDS(SRC_RSRC_GRP_45_RSRC_TYPE, src_rsrc_grp_45_rsrc_type,
  203. 0x00000508, 0x0020);
  204. static const u32 reg_src_rsrc_grp_67_rsrc_type_fmask[] = {
  205. [X_MIN_LIM] = GENMASK(5, 0),
  206. /* Bits 6-7 reserved */
  207. [X_MAX_LIM] = GENMASK(13, 8),
  208. /* Bits 14-15 reserved */
  209. [Y_MIN_LIM] = GENMASK(21, 16),
  210. /* Bits 22-23 reserved */
  211. [Y_MAX_LIM] = GENMASK(29, 24),
  212. /* Bits 30-31 reserved */
  213. };
  214. REG_STRIDE_FIELDS(SRC_RSRC_GRP_67_RSRC_TYPE, src_rsrc_grp_67_rsrc_type,
  215. 0x0000050c, 0x0020);
  216. static const u32 reg_dst_rsrc_grp_01_rsrc_type_fmask[] = {
  217. [X_MIN_LIM] = GENMASK(5, 0),
  218. /* Bits 6-7 reserved */
  219. [X_MAX_LIM] = GENMASK(13, 8),
  220. /* Bits 14-15 reserved */
  221. [Y_MIN_LIM] = GENMASK(21, 16),
  222. /* Bits 22-23 reserved */
  223. [Y_MAX_LIM] = GENMASK(29, 24),
  224. /* Bits 30-31 reserved */
  225. };
  226. REG_STRIDE_FIELDS(DST_RSRC_GRP_01_RSRC_TYPE, dst_rsrc_grp_01_rsrc_type,
  227. 0x00000600, 0x0020);
  228. static const u32 reg_dst_rsrc_grp_23_rsrc_type_fmask[] = {
  229. [X_MIN_LIM] = GENMASK(5, 0),
  230. /* Bits 6-7 reserved */
  231. [X_MAX_LIM] = GENMASK(13, 8),
  232. /* Bits 14-15 reserved */
  233. [Y_MIN_LIM] = GENMASK(21, 16),
  234. /* Bits 22-23 reserved */
  235. [Y_MAX_LIM] = GENMASK(29, 24),
  236. /* Bits 30-31 reserved */
  237. };
  238. REG_STRIDE_FIELDS(DST_RSRC_GRP_23_RSRC_TYPE, dst_rsrc_grp_23_rsrc_type,
  239. 0x00000604, 0x0020);
  240. static const u32 reg_dst_rsrc_grp_45_rsrc_type_fmask[] = {
  241. [X_MIN_LIM] = GENMASK(5, 0),
  242. /* Bits 6-7 reserved */
  243. [X_MAX_LIM] = GENMASK(13, 8),
  244. /* Bits 14-15 reserved */
  245. [Y_MIN_LIM] = GENMASK(21, 16),
  246. /* Bits 22-23 reserved */
  247. [Y_MAX_LIM] = GENMASK(29, 24),
  248. /* Bits 30-31 reserved */
  249. };
  250. REG_STRIDE_FIELDS(DST_RSRC_GRP_45_RSRC_TYPE, dst_rsrc_grp_45_rsrc_type,
  251. 0x00000608, 0x0020);
  252. static const u32 reg_dst_rsrc_grp_67_rsrc_type_fmask[] = {
  253. [X_MIN_LIM] = GENMASK(5, 0),
  254. /* Bits 6-7 reserved */
  255. [X_MAX_LIM] = GENMASK(13, 8),
  256. /* Bits 14-15 reserved */
  257. [Y_MIN_LIM] = GENMASK(21, 16),
  258. /* Bits 22-23 reserved */
  259. [Y_MAX_LIM] = GENMASK(29, 24),
  260. /* Bits 30-31 reserved */
  261. };
  262. REG_STRIDE_FIELDS(DST_RSRC_GRP_67_RSRC_TYPE, dst_rsrc_grp_67_rsrc_type,
  263. 0x0000060c, 0x0020);
  264. /* Valid bits defined by ipa->available */
  265. REG_STRIDE(AGGR_FORCE_CLOSE, aggr_force_close, 0x000006b0, 0x0004);
  266. static const u32 reg_endp_init_cfg_fmask[] = {
  267. [FRAG_OFFLOAD_EN] = BIT(0),
  268. [CS_OFFLOAD_EN] = GENMASK(2, 1),
  269. [CS_METADATA_HDR_OFFSET] = GENMASK(6, 3),
  270. /* Bit 7 reserved */
  271. [CS_GEN_QMB_MASTER_SEL] = BIT(8),
  272. /* Bits 9-31 reserved */
  273. };
  274. REG_STRIDE_FIELDS(ENDP_INIT_CFG, endp_init_cfg, 0x00001008, 0x0080);
  275. static const u32 reg_endp_init_nat_fmask[] = {
  276. [NAT_EN] = GENMASK(1, 0),
  277. /* Bits 2-31 reserved */
  278. };
  279. REG_STRIDE_FIELDS(ENDP_INIT_NAT, endp_init_nat, 0x0000100c, 0x0080);
  280. static const u32 reg_endp_init_hdr_fmask[] = {
  281. [HDR_LEN] = GENMASK(5, 0),
  282. [HDR_OFST_METADATA_VALID] = BIT(6),
  283. [HDR_OFST_METADATA] = GENMASK(12, 7),
  284. [HDR_ADDITIONAL_CONST_LEN] = GENMASK(18, 13),
  285. [HDR_OFST_PKT_SIZE_VALID] = BIT(19),
  286. [HDR_OFST_PKT_SIZE] = GENMASK(25, 20),
  287. /* Bit 26 reserved */
  288. [HDR_LEN_INC_DEAGG_HDR] = BIT(27),
  289. [HDR_LEN_MSB] = GENMASK(29, 28),
  290. [HDR_OFST_METADATA_MSB] = GENMASK(31, 30),
  291. };
  292. REG_STRIDE_FIELDS(ENDP_INIT_HDR, endp_init_hdr, 0x00001010, 0x0080);
  293. static const u32 reg_endp_init_hdr_ext_fmask[] = {
  294. [HDR_ENDIANNESS] = BIT(0),
  295. [HDR_TOTAL_LEN_OR_PAD_VALID] = BIT(1),
  296. [HDR_TOTAL_LEN_OR_PAD] = BIT(2),
  297. [HDR_PAYLOAD_LEN_INC_PADDING] = BIT(3),
  298. [HDR_TOTAL_LEN_OR_PAD_OFFSET] = GENMASK(9, 4),
  299. [HDR_PAD_TO_ALIGNMENT] = GENMASK(13, 10),
  300. /* Bits 14-15 reserved */
  301. [HDR_TOTAL_LEN_OR_PAD_OFFSET_MSB] = GENMASK(17, 16),
  302. [HDR_OFST_PKT_SIZE_MSB] = GENMASK(19, 18),
  303. [HDR_ADDITIONAL_CONST_LEN_MSB] = GENMASK(21, 20),
  304. [HDR_BYTES_TO_REMOVE_VALID] = BIT(22),
  305. /* Bit 23 reserved */
  306. [HDR_BYTES_TO_REMOVE] = GENMASK(31, 24),
  307. };
  308. REG_STRIDE_FIELDS(ENDP_INIT_HDR_EXT, endp_init_hdr_ext, 0x00001014, 0x0080);
  309. REG_STRIDE(ENDP_INIT_HDR_METADATA_MASK, endp_init_hdr_metadata_mask,
  310. 0x00001018, 0x0080);
  311. static const u32 reg_endp_init_mode_fmask[] = {
  312. [ENDP_MODE] = GENMASK(2, 0),
  313. [DCPH_ENABLE] = BIT(3),
  314. [DEST_PIPE_INDEX] = GENMASK(11, 4),
  315. [BYTE_THRESHOLD] = GENMASK(27, 12),
  316. [PIPE_REPLICATION_EN] = BIT(28),
  317. [PAD_EN] = BIT(29),
  318. [DRBIP_ACL_ENABLE] = BIT(30),
  319. /* Bit 31 reserved */
  320. };
  321. REG_STRIDE_FIELDS(ENDP_INIT_MODE, endp_init_mode, 0x00001020, 0x0080);
  322. static const u32 reg_endp_init_aggr_fmask[] = {
  323. [AGGR_EN] = GENMASK(1, 0),
  324. [AGGR_TYPE] = GENMASK(4, 2),
  325. [BYTE_LIMIT] = GENMASK(10, 5),
  326. /* Bit 11 reserved */
  327. [TIME_LIMIT] = GENMASK(16, 12),
  328. [PKT_LIMIT] = GENMASK(22, 17),
  329. [SW_EOF_ACTIVE] = BIT(23),
  330. [FORCE_CLOSE] = BIT(24),
  331. /* Bit 25 reserved */
  332. [HARD_BYTE_LIMIT_EN] = BIT(26),
  333. [AGGR_GRAN_SEL] = BIT(27),
  334. /* Bits 28-31 reserved */
  335. };
  336. REG_STRIDE_FIELDS(ENDP_INIT_AGGR, endp_init_aggr, 0x00001024, 0x0080);
  337. static const u32 reg_endp_init_hol_block_en_fmask[] = {
  338. [HOL_BLOCK_EN] = BIT(0),
  339. /* Bits 1-31 reserved */
  340. };
  341. REG_STRIDE_FIELDS(ENDP_INIT_HOL_BLOCK_EN, endp_init_hol_block_en,
  342. 0x0000102c, 0x0080);
  343. static const u32 reg_endp_init_hol_block_timer_fmask[] = {
  344. [TIMER_LIMIT] = GENMASK(4, 0),
  345. /* Bits 5-7 reserved */
  346. [TIMER_GRAN_SEL] = GENMASK(9, 8),
  347. /* Bits 10-31 reserved */
  348. };
  349. REG_STRIDE_FIELDS(ENDP_INIT_HOL_BLOCK_TIMER, endp_init_hol_block_timer,
  350. 0x00001030, 0x0080);
  351. static const u32 reg_endp_init_deaggr_fmask[] = {
  352. [DEAGGR_HDR_LEN] = GENMASK(5, 0),
  353. [SYSPIPE_ERR_DETECTION] = BIT(6),
  354. [PACKET_OFFSET_VALID] = BIT(7),
  355. [PACKET_OFFSET_LOCATION] = GENMASK(13, 8),
  356. [IGNORE_MIN_PKT_ERR] = BIT(14),
  357. /* Bit 15 reserved */
  358. [MAX_PACKET_LEN] = GENMASK(31, 16),
  359. };
  360. REG_STRIDE_FIELDS(ENDP_INIT_DEAGGR, endp_init_deaggr, 0x00001034, 0x0080);
  361. static const u32 reg_endp_init_rsrc_grp_fmask[] = {
  362. [ENDP_RSRC_GRP] = GENMASK(2, 0),
  363. /* Bits 3-31 reserved */
  364. };
  365. REG_STRIDE_FIELDS(ENDP_INIT_RSRC_GRP, endp_init_rsrc_grp, 0x00001038, 0x0080);
  366. static const u32 reg_endp_init_seq_fmask[] = {
  367. [SEQ_TYPE] = GENMASK(7, 0),
  368. /* Bits 8-31 reserved */
  369. };
  370. REG_STRIDE_FIELDS(ENDP_INIT_SEQ, endp_init_seq, 0x0000103c, 0x0080);
  371. static const u32 reg_endp_status_fmask[] = {
  372. [STATUS_EN] = BIT(0),
  373. [STATUS_ENDP] = GENMASK(8, 1),
  374. [STATUS_PKT_SUPPRESS] = BIT(9),
  375. /* Bits 10-31 reserved */
  376. };
  377. REG_STRIDE_FIELDS(ENDP_STATUS, endp_status, 0x00001040, 0x0080);
  378. static const u32 reg_endp_filter_cache_cfg_fmask[] = {
  379. [CACHE_MSK_SRC_ID] = BIT(0),
  380. [CACHE_MSK_SRC_IP] = BIT(1),
  381. [CACHE_MSK_DST_IP] = BIT(2),
  382. [CACHE_MSK_SRC_PORT] = BIT(3),
  383. [CACHE_MSK_DST_PORT] = BIT(4),
  384. [CACHE_MSK_PROTOCOL] = BIT(5),
  385. [CACHE_MSK_METADATA] = BIT(6),
  386. /* Bits 7-31 reserved */
  387. };
  388. REG_STRIDE_FIELDS(ENDP_FILTER_CACHE_CFG, endp_filter_cache_cfg,
  389. 0x0000105c, 0x0080);
  390. static const u32 reg_endp_router_cache_cfg_fmask[] = {
  391. [CACHE_MSK_SRC_ID] = BIT(0),
  392. [CACHE_MSK_SRC_IP] = BIT(1),
  393. [CACHE_MSK_DST_IP] = BIT(2),
  394. [CACHE_MSK_SRC_PORT] = BIT(3),
  395. [CACHE_MSK_DST_PORT] = BIT(4),
  396. [CACHE_MSK_PROTOCOL] = BIT(5),
  397. [CACHE_MSK_METADATA] = BIT(6),
  398. /* Bits 7-31 reserved */
  399. };
  400. REG_STRIDE_FIELDS(ENDP_ROUTER_CACHE_CFG, endp_router_cache_cfg,
  401. 0x00001070, 0x0080);
  402. /* Valid bits defined by enum ipa_irq_id; only used for GSI_EE_AP */
  403. REG(IPA_IRQ_STTS, ipa_irq_stts, 0x0000c008 + 0x1000 * GSI_EE_AP);
  404. /* Valid bits defined by enum ipa_irq_id; only used for GSI_EE_AP */
  405. REG(IPA_IRQ_EN, ipa_irq_en, 0x0000c00c + 0x1000 * GSI_EE_AP);
  406. /* Valid bits defined by enum ipa_irq_id; only used for GSI_EE_AP */
  407. REG(IPA_IRQ_CLR, ipa_irq_clr, 0x0000c010 + 0x1000 * GSI_EE_AP);
  408. static const u32 reg_ipa_irq_uc_fmask[] = {
  409. [UC_INTR] = BIT(0),
  410. /* Bits 1-31 reserved */
  411. };
  412. REG_FIELDS(IPA_IRQ_UC, ipa_irq_uc, 0x0000c01c + 0x1000 * GSI_EE_AP);
  413. /* Valid bits defined by ipa->available */
  414. REG_STRIDE(IRQ_SUSPEND_INFO, irq_suspend_info,
  415. 0x0000c030 + 0x1000 * GSI_EE_AP, 0x0004);
  416. /* Valid bits defined by ipa->available */
  417. REG_STRIDE(IRQ_SUSPEND_EN, irq_suspend_en,
  418. 0x0000c050 + 0x1000 * GSI_EE_AP, 0x0004);
  419. /* Valid bits defined by ipa->available */
  420. REG_STRIDE(IRQ_SUSPEND_CLR, irq_suspend_clr,
  421. 0x0000c070 + 0x1000 * GSI_EE_AP, 0x0004);
  422. static const struct reg *reg_array[] = {
  423. [COMP_CFG] = &reg_comp_cfg,
  424. [CLKON_CFG] = &reg_clkon_cfg,
  425. [ROUTE] = &reg_route,
  426. [SHARED_MEM_SIZE] = &reg_shared_mem_size,
  427. [QSB_MAX_WRITES] = &reg_qsb_max_writes,
  428. [QSB_MAX_READS] = &reg_qsb_max_reads,
  429. [FILT_ROUT_CACHE_FLUSH] = &reg_filt_rout_cache_flush,
  430. [STATE_AGGR_ACTIVE] = &reg_state_aggr_active,
  431. [LOCAL_PKT_PROC_CNTXT] = &reg_local_pkt_proc_cntxt,
  432. [AGGR_FORCE_CLOSE] = &reg_aggr_force_close,
  433. [IPA_TX_CFG] = &reg_ipa_tx_cfg,
  434. [FLAVOR_0] = &reg_flavor_0,
  435. [IDLE_INDICATION_CFG] = &reg_idle_indication_cfg,
  436. [QTIME_TIMESTAMP_CFG] = &reg_qtime_timestamp_cfg,
  437. [TIMERS_XO_CLK_DIV_CFG] = &reg_timers_xo_clk_div_cfg,
  438. [TIMERS_PULSE_GRAN_CFG] = &reg_timers_pulse_gran_cfg,
  439. [SRC_RSRC_GRP_01_RSRC_TYPE] = &reg_src_rsrc_grp_01_rsrc_type,
  440. [SRC_RSRC_GRP_23_RSRC_TYPE] = &reg_src_rsrc_grp_23_rsrc_type,
  441. [SRC_RSRC_GRP_45_RSRC_TYPE] = &reg_src_rsrc_grp_45_rsrc_type,
  442. [SRC_RSRC_GRP_67_RSRC_TYPE] = &reg_src_rsrc_grp_67_rsrc_type,
  443. [DST_RSRC_GRP_01_RSRC_TYPE] = &reg_dst_rsrc_grp_01_rsrc_type,
  444. [DST_RSRC_GRP_23_RSRC_TYPE] = &reg_dst_rsrc_grp_23_rsrc_type,
  445. [DST_RSRC_GRP_45_RSRC_TYPE] = &reg_dst_rsrc_grp_45_rsrc_type,
  446. [DST_RSRC_GRP_67_RSRC_TYPE] = &reg_dst_rsrc_grp_67_rsrc_type,
  447. [ENDP_INIT_CFG] = &reg_endp_init_cfg,
  448. [ENDP_INIT_NAT] = &reg_endp_init_nat,
  449. [ENDP_INIT_HDR] = &reg_endp_init_hdr,
  450. [ENDP_INIT_HDR_EXT] = &reg_endp_init_hdr_ext,
  451. [ENDP_INIT_HDR_METADATA_MASK] = &reg_endp_init_hdr_metadata_mask,
  452. [ENDP_INIT_MODE] = &reg_endp_init_mode,
  453. [ENDP_INIT_AGGR] = &reg_endp_init_aggr,
  454. [ENDP_INIT_HOL_BLOCK_EN] = &reg_endp_init_hol_block_en,
  455. [ENDP_INIT_HOL_BLOCK_TIMER] = &reg_endp_init_hol_block_timer,
  456. [ENDP_INIT_DEAGGR] = &reg_endp_init_deaggr,
  457. [ENDP_INIT_RSRC_GRP] = &reg_endp_init_rsrc_grp,
  458. [ENDP_INIT_SEQ] = &reg_endp_init_seq,
  459. [ENDP_STATUS] = &reg_endp_status,
  460. [ENDP_FILTER_CACHE_CFG] = &reg_endp_filter_cache_cfg,
  461. [ENDP_ROUTER_CACHE_CFG] = &reg_endp_router_cache_cfg,
  462. [IPA_IRQ_STTS] = &reg_ipa_irq_stts,
  463. [IPA_IRQ_EN] = &reg_ipa_irq_en,
  464. [IPA_IRQ_CLR] = &reg_ipa_irq_clr,
  465. [IPA_IRQ_UC] = &reg_ipa_irq_uc,
  466. [IRQ_SUSPEND_INFO] = &reg_irq_suspend_info,
  467. [IRQ_SUSPEND_EN] = &reg_irq_suspend_en,
  468. [IRQ_SUSPEND_CLR] = &reg_irq_suspend_clr,
  469. };
  470. const struct regs ipa_regs_v5_0 = {
  471. .reg_count = ARRAY_SIZE(reg_array),
  472. .reg = reg_array,
  473. };