/* Copyright (C) 2018 RDA Technologies Limited and/or its affiliates("RDA"). * All rights reserved. * * This software is supplied "AS IS" without any warranties. * RDA assumes no responsibility or liability for the use of the software, * conveys no license or title under any patent, copyright, or mask work * right to the product. RDA reserves the right to make changes in the * software without notification. RDA also make no representation or * warranty that such application will be suitable for the specified use * without further testing or modification. */ #ifndef _CP_AXIDMA_H_ #define _CP_AXIDMA_H_ // Auto generated by dtools(see dtools.txt for its version). // Don't edit it manually! #define REG_CP_AXIDMA_BASE (0x12040000) typedef volatile struct { uint32_t axidma_conf; // 0x00000000 uint32_t axidma_delay; // 0x00000004 uint32_t axidma_status; // 0x00000008 uint32_t axidma_irq_stat; // 0x0000000c uint32_t axidma_arm_req_stat; // 0x00000010 uint32_t axidma_arm_ack_stat; // 0x00000014 uint32_t axidma_zsp_req_stat0; // 0x00000018 uint32_t axidma_zsp_req_stat1; // 0x0000001c uint32_t axidma_ch_irq_distr; // 0x00000020 uint32_t __36[7]; // 0x00000024 uint32_t axidma_c0_conf; // 0x00000040 uint32_t axidma_c0_map; // 0x00000044 uint32_t axidma_c0_saddr; // 0x00000048 uint32_t axidma_c0_daddr; // 0x0000004c uint32_t axidma_c0_count; // 0x00000050 uint32_t axidma_c0_countp; // 0x00000054 uint32_t axidma_c0_status; // 0x00000058 uint32_t axidma_c0_sgaddr; // 0x0000005c uint32_t axidma_c0_sgconf; // 0x00000060 uint32_t axidma_c0_set; // 0x00000064 uint32_t axidma_c0_clr; // 0x00000068 uint32_t __108[5]; // 0x0000006c uint32_t axidma_c1_conf; // 0x00000080 uint32_t axidma_c1_map; // 0x00000084 uint32_t axidma_c1_saddr; // 0x00000088 uint32_t axidma_c1_daddr; // 0x0000008c uint32_t axidma_c1_count; // 0x00000090 uint32_t axidma_c1_countp; // 0x00000094 uint32_t axidma_c1_status; // 0x00000098 uint32_t axidma_c1_sgaddr; // 0x0000009c uint32_t axidma_c1_sgconf; // 0x000000a0 uint32_t axidma_c1_set; // 0x000000a4 uint32_t axidma_c1_clr; // 0x000000a8 uint32_t __172[5]; // 0x000000ac uint32_t axidma_c2_conf; // 0x000000c0 uint32_t axidma_c2_map; // 0x000000c4 uint32_t axidma_c2_saddr; // 0x000000c8 uint32_t axidma_c2_daddr; // 0x000000cc uint32_t axidma_c2_count; // 0x000000d0 uint32_t axidma_c2_countp; // 0x000000d4 uint32_t axidma_c2_status; // 0x000000d8 uint32_t axidma_c2_sgaddr; // 0x000000dc uint32_t axidma_c2_sgconf; // 0x000000e0 uint32_t axidma_c2_set; // 0x000000e4 uint32_t axidma_c2_clr; // 0x000000e8 uint32_t __236[5]; // 0x000000ec uint32_t axidma_c3_conf; // 0x00000100 uint32_t axidma_c3_map; // 0x00000104 uint32_t axidma_c3_saddr; // 0x00000108 uint32_t axidma_c3_daddr; // 0x0000010c uint32_t axidma_c3_count; // 0x00000110 uint32_t axidma_c3_countp; // 0x00000114 uint32_t axidma_c3_status; // 0x00000118 uint32_t axidma_c3_sgaddr; // 0x0000011c uint32_t axidma_c3_sgconf; // 0x00000120 uint32_t axidma_c3_set; // 0x00000124 uint32_t axidma_c3_clr; // 0x00000128 uint32_t __300[5]; // 0x0000012c uint32_t axidma_c4_conf; // 0x00000140 uint32_t axidma_c4_map; // 0x00000144 uint32_t axidma_c4_saddr; // 0x00000148 uint32_t axidma_c4_daddr; // 0x0000014c uint32_t axidma_c4_count; // 0x00000150 uint32_t axidma_c4_countp; // 0x00000154 uint32_t axidma_c4_status; // 0x00000158 uint32_t axidma_c4_sgaddr; // 0x0000015c uint32_t axidma_c4_sgconf; // 0x00000160 uint32_t axidma_c4_set; // 0x00000164 uint32_t axidma_c4_clr; // 0x00000168 uint32_t __364[5]; // 0x0000016c uint32_t axidma_c5_conf; // 0x00000180 uint32_t axidma_c5_map; // 0x00000184 uint32_t axidma_c5_saddr; // 0x00000188 uint32_t axidma_c5_daddr; // 0x0000018c uint32_t axidma_c5_count; // 0x00000190 uint32_t axidma_c5_countp; // 0x00000194 uint32_t axidma_c5_status; // 0x00000198 uint32_t axidma_c5_sgaddr; // 0x0000019c uint32_t axidma_c5_sgconf; // 0x000001a0 uint32_t axidma_c5_set; // 0x000001a4 uint32_t axidma_c5_clr; // 0x000001a8 uint32_t __428[5]; // 0x000001ac uint32_t axidma_c6_conf; // 0x000001c0 uint32_t axidma_c6_map; // 0x000001c4 uint32_t axidma_c6_saddr; // 0x000001c8 uint32_t axidma_c6_daddr; // 0x000001cc uint32_t axidma_c6_count; // 0x000001d0 uint32_t axidma_c6_countp; // 0x000001d4 uint32_t axidma_c6_status; // 0x000001d8 uint32_t axidma_c6_sgaddr; // 0x000001dc uint32_t axidma_c6_sgconf; // 0x000001e0 uint32_t axidma_c6_set; // 0x000001e4 uint32_t axidma_c6_clr; // 0x000001e8 uint32_t __492[5]; // 0x000001ec uint32_t axidma_c7_conf; // 0x00000200 uint32_t axidma_c7_map; // 0x00000204 uint32_t axidma_c7_saddr; // 0x00000208 uint32_t axidma_c7_daddr; // 0x0000020c uint32_t axidma_c7_count; // 0x00000210 uint32_t axidma_c7_countp; // 0x00000214 uint32_t axidma_c7_status; // 0x00000218 uint32_t axidma_c7_sgaddr; // 0x0000021c uint32_t axidma_c7_sgconf; // 0x00000220 uint32_t axidma_c7_set; // 0x00000224 uint32_t axidma_c7_clr; // 0x00000228 uint32_t __556[5]; // 0x0000022c uint32_t axidma_c8_conf; // 0x00000240 uint32_t axidma_c8_map; // 0x00000244 uint32_t axidma_c8_saddr; // 0x00000248 uint32_t axidma_c8_daddr; // 0x0000024c uint32_t axidma_c8_count; // 0x00000250 uint32_t axidma_c8_countp; // 0x00000254 uint32_t axidma_c8_status; // 0x00000258 uint32_t axidma_c8_sgaddr; // 0x0000025c uint32_t axidma_c8_sgconf; // 0x00000260 uint32_t axidma_c8_set; // 0x00000264 uint32_t axidma_c8_clr; // 0x00000268 uint32_t __620[5]; // 0x0000026c uint32_t axidma_c9_conf; // 0x00000280 uint32_t axidma_c9_map; // 0x00000284 uint32_t axidma_c9_saddr; // 0x00000288 uint32_t axidma_c9_daddr; // 0x0000028c uint32_t axidma_c9_count; // 0x00000290 uint32_t axidma_c9_countp; // 0x00000294 uint32_t axidma_c9_status; // 0x00000298 uint32_t axidma_c9_sgaddr; // 0x0000029c uint32_t axidma_c9_sgconf; // 0x000002a0 uint32_t axidma_c9_set; // 0x000002a4 uint32_t axidma_c9_clr; // 0x000002a8 uint32_t __684[5]; // 0x000002ac uint32_t axidma_c10_conf; // 0x000002c0 uint32_t axidma_c10_map; // 0x000002c4 uint32_t axidma_c10_saddr; // 0x000002c8 uint32_t axidma_c10_daddr; // 0x000002cc uint32_t axidma_c10_count; // 0x000002d0 uint32_t axidma_c10_countp; // 0x000002d4 uint32_t axidma_c10_status; // 0x000002d8 uint32_t axidma_c10_sgaddr; // 0x000002dc uint32_t axidma_c10_sgconf; // 0x000002e0 uint32_t axidma_c10_set; // 0x000002e4 uint32_t axidma_c10_clr; // 0x000002e8 uint32_t __748[5]; // 0x000002ec uint32_t axidma_c11_conf; // 0x00000300 uint32_t axidma_c11_map; // 0x00000304 uint32_t axidma_c11_saddr; // 0x00000308 uint32_t axidma_c11_daddr; // 0x0000030c uint32_t axidma_c11_count; // 0x00000310 uint32_t axidma_c11_countp; // 0x00000314 uint32_t axidma_c11_status; // 0x00000318 uint32_t axidma_c11_sgaddr; // 0x0000031c uint32_t axidma_c11_sgconf; // 0x00000320 uint32_t axidma_c11_set; // 0x00000324 uint32_t axidma_c11_clr; // 0x00000328 } HWP_CP_AXIDMA_T; #define hwp_cpAxidma ((HWP_CP_AXIDMA_T *)REG_ACCESS_ADDRESS(REG_CP_AXIDMA_BASE)) // axidma_conf typedef union { uint32_t v; struct { uint32_t stop : 1; // [0] uint32_t stop_ie : 1; // [1] uint32_t priority : 1; // [2] uint32_t outstand : 2; // [4:3] uint32_t resp_err_stop_en : 1; // [5] uint32_t gen_reg_secuirty_en : 1; // [6] uint32_t __31_7 : 25; // [31:7] } b; } REG_CP_AXIDMA_AXIDMA_CONF_T; // axidma_delay typedef union { uint32_t v; struct { uint32_t delay : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_DELAY_T; // axidma_status typedef union { uint32_t v; struct { uint32_t ch_num : 4; // [3:0], read only uint32_t stop_status : 1; // [4], read only uint32_t __31_5 : 27; // [31:5] } b; } REG_CP_AXIDMA_AXIDMA_STATUS_T; // axidma_irq_stat typedef union { uint32_t v; struct { uint32_t ch0_irq : 1; // [0], read only uint32_t ch1_irq : 1; // [1], read only uint32_t ch2_irq : 1; // [2], read only uint32_t ch3_irq : 1; // [3], read only uint32_t ch4_irq : 1; // [4], read only uint32_t ch5_irq : 1; // [5], read only uint32_t ch6_irq : 1; // [6], read only uint32_t ch7_irq : 1; // [7], read only uint32_t ch8_irq : 1; // [8], read only uint32_t ch9_irq : 1; // [9], read only uint32_t ch10_irq : 1; // [10], read only uint32_t ch11_irq : 1; // [11], read only uint32_t rst_fin_irq : 1; // [12], read only uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_IRQ_STAT_T; // axidma_arm_req_stat typedef union { uint32_t v; struct { uint32_t irq0 : 1; // [0], read only uint32_t irq1 : 1; // [1], read only uint32_t irq2 : 1; // [2], read only uint32_t irq3 : 1; // [3], read only uint32_t irq4 : 1; // [4], read only uint32_t irq5 : 1; // [5], read only uint32_t irq6 : 1; // [6], read only uint32_t irq7 : 1; // [7], read only uint32_t irq8 : 1; // [8], read only uint32_t irq9 : 1; // [9], read only uint32_t irq10 : 1; // [10], read only uint32_t irq11 : 1; // [11], read only uint32_t irq12 : 1; // [12], read only uint32_t irq13 : 1; // [13], read only uint32_t irq14 : 1; // [14], read only uint32_t irq15 : 1; // [15], read only uint32_t irq16 : 1; // [16], read only uint32_t irq17 : 1; // [17], read only uint32_t irq18 : 1; // [18], read only uint32_t irq19 : 1; // [19], read only uint32_t irq20 : 1; // [20], read only uint32_t irq21 : 1; // [21], read only uint32_t irq22 : 1; // [22], read only uint32_t irq23 : 1; // [23], read only uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_ARM_REQ_STAT_T; // axidma_arm_ack_stat typedef union { uint32_t v; struct { uint32_t ack0 : 1; // [0], read only uint32_t ack1 : 1; // [1], read only uint32_t ack2 : 1; // [2], read only uint32_t ack3 : 1; // [3], read only uint32_t ack4 : 1; // [4], read only uint32_t ack5 : 1; // [5], read only uint32_t ack6 : 1; // [6], read only uint32_t ack7 : 1; // [7], read only uint32_t ack8 : 1; // [8], read only uint32_t ack9 : 1; // [9], read only uint32_t ack10 : 1; // [10], read only uint32_t ack11 : 1; // [11], read only uint32_t ack12 : 1; // [12], read only uint32_t ack13 : 1; // [13], read only uint32_t ack14 : 1; // [14], read only uint32_t ack15 : 1; // [15], read only uint32_t ack16 : 1; // [16], read only uint32_t ack17 : 1; // [17], read only uint32_t ack18 : 1; // [18], read only uint32_t ack19 : 1; // [19], read only uint32_t ack20 : 1; // [20], read only uint32_t ack21 : 1; // [21], read only uint32_t ack22 : 1; // [22], read only uint32_t ack23 : 1; // [23], read only uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_ARM_ACK_STAT_T; // axidma_zsp_req_stat0 typedef union { uint32_t v; struct { uint32_t req0 : 3; // [2:0] uint32_t __3_3 : 1; // [3] uint32_t req1 : 3; // [6:4] uint32_t __7_7 : 1; // [7] uint32_t req2 : 3; // [10:8] uint32_t __11_11 : 1; // [11] uint32_t req3 : 3; // [14:12] uint32_t __15_15 : 1; // [15] uint32_t req4 : 3; // [18:16] uint32_t __19_19 : 1; // [19] uint32_t req5 : 3; // [22:20] uint32_t __23_23 : 1; // [23] uint32_t req6 : 3; // [26:24] uint32_t __27_27 : 1; // [27] uint32_t req7 : 3; // [30:28] uint32_t __31_31 : 1; // [31] } b; } REG_CP_AXIDMA_AXIDMA_ZSP_REQ_STAT0_T; // axidma_zsp_req_stat1 typedef union { uint32_t v; struct { uint32_t req8 : 3; // [2:0] uint32_t __3_3 : 1; // [3] uint32_t req9 : 3; // [6:4] uint32_t __7_7 : 1; // [7] uint32_t req10 : 3; // [10:8] uint32_t __11_11 : 1; // [11] uint32_t req11 : 3; // [14:12] uint32_t __31_15 : 17; // [31:15] } b; } REG_CP_AXIDMA_AXIDMA_ZSP_REQ_STAT1_T; // axidma_ch_irq_distr typedef union { uint32_t v; struct { uint32_t ch0_irq_en0 : 1; // [0] uint32_t ch1_irq_en0 : 1; // [1] uint32_t ch2_irq_en0 : 1; // [2] uint32_t ch3_irq_en0 : 1; // [3] uint32_t ch4_irq_en0 : 1; // [4] uint32_t ch5_irq_en0 : 1; // [5] uint32_t ch6_irq_en0 : 1; // [6] uint32_t ch7_irq_en0 : 1; // [7] uint32_t ch8_irq_en0 : 1; // [8] uint32_t ch9_irq_en0 : 1; // [9] uint32_t ch10_irq_en0 : 1; // [10] uint32_t ch11_irq_en0 : 1; // [11] uint32_t __31_12 : 20; // [31:12] } b; } REG_CP_AXIDMA_AXIDMA_CH_IRQ_DISTR_T; // axidma_c0_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C0_CONF_T; // axidma_c0_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C0_MAP_T; // axidma_c0_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C0_COUNT_T; // axidma_c0_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C0_COUNTP_T; // axidma_c0_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C0_STATUS_T; // axidma_c0_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C0_SGCONF_T; // axidma_c0_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C0_SET_T; // axidma_c0_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C0_CLR_T; // axidma_c1_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C1_CONF_T; // axidma_c1_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C1_MAP_T; // axidma_c1_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C1_COUNT_T; // axidma_c1_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C1_COUNTP_T; // axidma_c1_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C1_STATUS_T; // axidma_c1_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C1_SGCONF_T; // axidma_c1_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C1_SET_T; // axidma_c1_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C1_CLR_T; // axidma_c2_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C2_CONF_T; // axidma_c2_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C2_MAP_T; // axidma_c2_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C2_COUNT_T; // axidma_c2_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C2_COUNTP_T; // axidma_c2_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C2_STATUS_T; // axidma_c2_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C2_SGCONF_T; // axidma_c2_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C2_SET_T; // axidma_c2_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C2_CLR_T; // axidma_c3_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C3_CONF_T; // axidma_c3_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C3_MAP_T; // axidma_c3_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C3_COUNT_T; // axidma_c3_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C3_COUNTP_T; // axidma_c3_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C3_STATUS_T; // axidma_c3_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C3_SGCONF_T; // axidma_c3_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C3_SET_T; // axidma_c3_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C3_CLR_T; // axidma_c4_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C4_CONF_T; // axidma_c4_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C4_MAP_T; // axidma_c4_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C4_COUNT_T; // axidma_c4_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C4_COUNTP_T; // axidma_c4_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C4_STATUS_T; // axidma_c4_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C4_SGCONF_T; // axidma_c4_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C4_SET_T; // axidma_c4_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C4_CLR_T; // axidma_c5_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C5_CONF_T; // axidma_c5_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C5_MAP_T; // axidma_c5_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C5_COUNT_T; // axidma_c5_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C5_COUNTP_T; // axidma_c5_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C5_STATUS_T; // axidma_c5_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C5_SGCONF_T; // axidma_c5_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C5_SET_T; // axidma_c5_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C5_CLR_T; // axidma_c6_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C6_CONF_T; // axidma_c6_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C6_MAP_T; // axidma_c6_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C6_COUNT_T; // axidma_c6_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C6_COUNTP_T; // axidma_c6_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C6_STATUS_T; // axidma_c6_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C6_SGCONF_T; // axidma_c6_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C6_SET_T; // axidma_c6_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C6_CLR_T; // axidma_c7_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C7_CONF_T; // axidma_c7_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C7_MAP_T; // axidma_c7_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C7_COUNT_T; // axidma_c7_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C7_COUNTP_T; // axidma_c7_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C7_STATUS_T; // axidma_c7_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C7_SGCONF_T; // axidma_c7_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C7_SET_T; // axidma_c7_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C7_CLR_T; // axidma_c8_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C8_CONF_T; // axidma_c8_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C8_MAP_T; // axidma_c8_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C8_COUNT_T; // axidma_c8_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C8_COUNTP_T; // axidma_c8_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C8_STATUS_T; // axidma_c8_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C8_SGCONF_T; // axidma_c8_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C8_SET_T; // axidma_c8_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C8_CLR_T; // axidma_c9_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C9_CONF_T; // axidma_c9_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C9_MAP_T; // axidma_c9_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C9_COUNT_T; // axidma_c9_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C9_COUNTP_T; // axidma_c9_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C9_STATUS_T; // axidma_c9_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C9_SGCONF_T; // axidma_c9_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C9_SET_T; // axidma_c9_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C9_CLR_T; // axidma_c10_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C10_CONF_T; // axidma_c10_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C10_MAP_T; // axidma_c10_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C10_COUNT_T; // axidma_c10_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C10_COUNTP_T; // axidma_c10_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C10_STATUS_T; // axidma_c10_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C10_SGCONF_T; // axidma_c10_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C10_SET_T; // axidma_c10_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C10_CLR_T; // axidma_c11_conf typedef union { uint32_t v; struct { uint32_t start : 1; // [0] uint32_t data_type : 2; // [2:1] uint32_t syn_irq : 1; // [3] uint32_t irq_f : 1; // [4] uint32_t irq_t : 1; // [5] uint32_t saddr_fix : 1; // [6] uint32_t daddr_fix : 1; // [7] uint32_t force_trans : 1; // [8] uint32_t __9_9 : 1; // [9] uint32_t count_sel : 1; // [10] uint32_t __11_11 : 1; // [11] uint32_t saddr_turnaround : 1; // [12] uint32_t daddr_turnaround : 1; // [13] uint32_t security_en : 1; // [14] uint32_t err_int_en : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C11_CONF_T; // axidma_c11_map typedef union { uint32_t v; struct { uint32_t req_source : 5; // [4:0] uint32_t __7_5 : 3; // [7:5] uint32_t ack_map : 5; // [12:8] uint32_t __31_13 : 19; // [31:13] } b; } REG_CP_AXIDMA_AXIDMA_C11_MAP_T; // axidma_c11_count typedef union { uint32_t v; struct { uint32_t count : 24; // [23:0] uint32_t __31_24 : 8; // [31:24] } b; } REG_CP_AXIDMA_AXIDMA_C11_COUNT_T; // axidma_c11_countp typedef union { uint32_t v; struct { uint32_t countp : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_CP_AXIDMA_AXIDMA_C11_COUNTP_T; // axidma_c11_status typedef union { uint32_t v; struct { uint32_t run : 1; // [0], write clear uint32_t count_finish_int : 1; // [1], write clear uint32_t countp_finish_int : 1; // [2], write clear uint32_t sg_finish_int : 1; // [3], write clear uint32_t sg_count : 16; // [19:4], write clear uint32_t sg_suspend_int : 1; // [20], write clear uint32_t count_finish_sta : 1; // [21], write clear uint32_t countp_finish_sta : 1; // [22], write clear uint32_t sg_finish_sta : 1; // [23], write clear uint32_t sg_suspend_sta : 1; // [24], write clear uint32_t resp_err : 1; // [25], write clear uint32_t resp_err_int : 1; // [26], write clear uint32_t __31_27 : 5; // [31:27] } b; } REG_CP_AXIDMA_AXIDMA_C11_STATUS_T; // axidma_c11_sgconf typedef union { uint32_t v; struct { uint32_t sg_en : 1; // [0], write clear uint32_t sg_finish_ie : 1; // [1] uint32_t sg_suspend_ie : 1; // [2] uint32_t desc_rd_ctrl : 1; // [3] uint32_t sg_num : 16; // [19:4] uint32_t __31_20 : 12; // [31:20] } b; } REG_CP_AXIDMA_AXIDMA_C11_SGCONF_T; // axidma_c11_set typedef union { uint32_t v; struct { uint32_t run_set : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C11_SET_T; // axidma_c11_clr typedef union { uint32_t v; struct { uint32_t run_clr : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_CP_AXIDMA_AXIDMA_C11_CLR_T; // axidma_conf #define CP_AXIDMA_STOP (1 << 0) #define CP_AXIDMA_STOP_IE (1 << 1) #define CP_AXIDMA_PRIORITY (1 << 2) #define CP_AXIDMA_OUTSTAND(n) (((n)&0x3) << 3) #define CP_AXIDMA_RESP_ERR_STOP_EN (1 << 5) #define CP_AXIDMA_GEN_REG_SECUIRTY_EN (1 << 6) // axidma_delay #define CP_AXIDMA_DELAY(n) (((n)&0xffff) << 0) // axidma_status #define CP_AXIDMA_CH_NUM(n) (((n)&0xf) << 0) #define CP_AXIDMA_STOP_STATUS (1 << 4) // axidma_irq_stat #define CP_AXIDMA_CH0_IRQ (1 << 0) #define CP_AXIDMA_CH1_IRQ (1 << 1) #define CP_AXIDMA_CH2_IRQ (1 << 2) #define CP_AXIDMA_CH3_IRQ (1 << 3) #define CP_AXIDMA_CH4_IRQ (1 << 4) #define CP_AXIDMA_CH5_IRQ (1 << 5) #define CP_AXIDMA_CH6_IRQ (1 << 6) #define CP_AXIDMA_CH7_IRQ (1 << 7) #define CP_AXIDMA_CH8_IRQ (1 << 8) #define CP_AXIDMA_CH9_IRQ (1 << 9) #define CP_AXIDMA_CH10_IRQ (1 << 10) #define CP_AXIDMA_CH11_IRQ (1 << 11) #define CP_AXIDMA_RST_FIN_IRQ (1 << 12) // axidma_arm_req_stat #define CP_AXIDMA_IRQ0 (1 << 0) #define CP_AXIDMA_IRQ1 (1 << 1) #define CP_AXIDMA_IRQ2 (1 << 2) #define CP_AXIDMA_IRQ3 (1 << 3) #define CP_AXIDMA_IRQ4 (1 << 4) #define CP_AXIDMA_IRQ5 (1 << 5) #define CP_AXIDMA_IRQ6 (1 << 6) #define CP_AXIDMA_IRQ7 (1 << 7) #define CP_AXIDMA_IRQ8 (1 << 8) #define CP_AXIDMA_IRQ9 (1 << 9) #define CP_AXIDMA_IRQ10 (1 << 10) #define CP_AXIDMA_IRQ11 (1 << 11) #define CP_AXIDMA_IRQ12 (1 << 12) #define CP_AXIDMA_IRQ13 (1 << 13) #define CP_AXIDMA_IRQ14 (1 << 14) #define CP_AXIDMA_IRQ15 (1 << 15) #define CP_AXIDMA_IRQ16 (1 << 16) #define CP_AXIDMA_IRQ17 (1 << 17) #define CP_AXIDMA_IRQ18 (1 << 18) #define CP_AXIDMA_IRQ19 (1 << 19) #define CP_AXIDMA_IRQ20 (1 << 20) #define CP_AXIDMA_IRQ21 (1 << 21) #define CP_AXIDMA_IRQ22 (1 << 22) #define CP_AXIDMA_IRQ23 (1 << 23) // axidma_arm_ack_stat #define CP_AXIDMA_ACK0 (1 << 0) #define CP_AXIDMA_ACK1 (1 << 1) #define CP_AXIDMA_ACK2 (1 << 2) #define CP_AXIDMA_ACK3 (1 << 3) #define CP_AXIDMA_ACK4 (1 << 4) #define CP_AXIDMA_ACK5 (1 << 5) #define CP_AXIDMA_ACK6 (1 << 6) #define CP_AXIDMA_ACK7 (1 << 7) #define CP_AXIDMA_ACK8 (1 << 8) #define CP_AXIDMA_ACK9 (1 << 9) #define CP_AXIDMA_ACK10 (1 << 10) #define CP_AXIDMA_ACK11 (1 << 11) #define CP_AXIDMA_ACK12 (1 << 12) #define CP_AXIDMA_ACK13 (1 << 13) #define CP_AXIDMA_ACK14 (1 << 14) #define CP_AXIDMA_ACK15 (1 << 15) #define CP_AXIDMA_ACK16 (1 << 16) #define CP_AXIDMA_ACK17 (1 << 17) #define CP_AXIDMA_ACK18 (1 << 18) #define CP_AXIDMA_ACK19 (1 << 19) #define CP_AXIDMA_ACK20 (1 << 20) #define CP_AXIDMA_ACK21 (1 << 21) #define CP_AXIDMA_ACK22 (1 << 22) #define CP_AXIDMA_ACK23 (1 << 23) // axidma_zsp_req_stat0 #define CP_AXIDMA_REQ0(n) (((n)&0x7) << 0) #define CP_AXIDMA_REQ1(n) (((n)&0x7) << 4) #define CP_AXIDMA_REQ2(n) (((n)&0x7) << 8) #define CP_AXIDMA_REQ3(n) (((n)&0x7) << 12) #define CP_AXIDMA_REQ4(n) (((n)&0x7) << 16) #define CP_AXIDMA_REQ5(n) (((n)&0x7) << 20) #define CP_AXIDMA_REQ6(n) (((n)&0x7) << 24) #define CP_AXIDMA_REQ7(n) (((n)&0x7) << 28) // axidma_zsp_req_stat1 #define CP_AXIDMA_REQ8(n) (((n)&0x7) << 0) #define CP_AXIDMA_REQ9(n) (((n)&0x7) << 4) #define CP_AXIDMA_REQ10(n) (((n)&0x7) << 8) #define CP_AXIDMA_REQ11(n) (((n)&0x7) << 12) // axidma_ch_irq_distr #define CP_AXIDMA_CH0_IRQ_EN0 (1 << 0) #define CP_AXIDMA_CH1_IRQ_EN0 (1 << 1) #define CP_AXIDMA_CH2_IRQ_EN0 (1 << 2) #define CP_AXIDMA_CH3_IRQ_EN0 (1 << 3) #define CP_AXIDMA_CH4_IRQ_EN0 (1 << 4) #define CP_AXIDMA_CH5_IRQ_EN0 (1 << 5) #define CP_AXIDMA_CH6_IRQ_EN0 (1 << 6) #define CP_AXIDMA_CH7_IRQ_EN0 (1 << 7) #define CP_AXIDMA_CH8_IRQ_EN0 (1 << 8) #define CP_AXIDMA_CH9_IRQ_EN0 (1 << 9) #define CP_AXIDMA_CH10_IRQ_EN0 (1 << 10) #define CP_AXIDMA_CH11_IRQ_EN0 (1 << 11) // axidma_c0_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c0_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c0_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c0_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c0_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c0_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c0_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c0_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c1_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c1_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c1_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c1_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c1_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c1_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c1_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c1_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c2_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c2_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c2_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c2_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c2_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c2_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c2_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c2_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c3_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c3_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c3_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c3_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c3_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c3_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c3_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c3_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c4_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c4_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c4_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c4_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c4_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c4_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c4_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c4_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c5_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c5_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c5_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c5_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c5_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c5_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c5_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c5_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c6_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c6_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c6_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c6_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c6_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c6_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c6_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c6_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c7_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c7_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c7_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c7_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c7_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c7_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c7_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c7_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c8_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c8_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c8_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c8_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c8_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c8_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c8_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c8_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c9_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c9_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c9_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c9_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c9_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c9_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c9_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c9_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c10_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c10_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c10_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c10_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c10_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c10_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c10_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c10_clr #define CP_AXIDMA_RUN_CLR (1 << 0) // axidma_c11_conf #define CP_AXIDMA_START (1 << 0) #define CP_AXIDMA_DATA_TYPE(n) (((n)&0x3) << 1) #define CP_AXIDMA_SYN_IRQ (1 << 3) #define CP_AXIDMA_IRQ_F (1 << 4) #define CP_AXIDMA_IRQ_T (1 << 5) #define CP_AXIDMA_SADDR_FIX (1 << 6) #define CP_AXIDMA_DADDR_FIX (1 << 7) #define CP_AXIDMA_FORCE_TRANS (1 << 8) #define CP_AXIDMA_COUNT_SEL (1 << 10) #define CP_AXIDMA_SADDR_TURNAROUND (1 << 12) #define CP_AXIDMA_DADDR_TURNAROUND (1 << 13) #define CP_AXIDMA_SECURITY_EN (1 << 14) #define CP_AXIDMA_ERR_INT_EN (1 << 15) // axidma_c11_map #define CP_AXIDMA_REQ_SOURCE(n) (((n)&0x1f) << 0) #define CP_AXIDMA_ACK_MAP(n) (((n)&0x1f) << 8) // axidma_c11_count #define CP_AXIDMA_COUNT(n) (((n)&0xffffff) << 0) // axidma_c11_countp #define CP_AXIDMA_COUNTP(n) (((n)&0xffff) << 0) // axidma_c11_status #define CP_AXIDMA_RUN (1 << 0) #define CP_AXIDMA_COUNT_FINISH_INT (1 << 1) #define CP_AXIDMA_COUNTP_FINISH_INT (1 << 2) #define CP_AXIDMA_SG_FINISH_INT (1 << 3) #define CP_AXIDMA_SG_COUNT(n) (((n)&0xffff) << 4) #define CP_AXIDMA_SG_SUSPEND_INT (1 << 20) #define CP_AXIDMA_COUNT_FINISH_STA (1 << 21) #define CP_AXIDMA_COUNTP_FINISH_STA (1 << 22) #define CP_AXIDMA_SG_FINISH_STA (1 << 23) #define CP_AXIDMA_SG_SUSPEND_STA (1 << 24) #define CP_AXIDMA_RESP_ERR (1 << 25) #define CP_AXIDMA_RESP_ERR_INT (1 << 26) // axidma_c11_sgconf #define CP_AXIDMA_SG_EN (1 << 0) #define CP_AXIDMA_SG_FINISH_IE (1 << 1) #define CP_AXIDMA_SG_SUSPEND_IE (1 << 2) #define CP_AXIDMA_DESC_RD_CTRL (1 << 3) #define CP_AXIDMA_SG_NUM(n) (((n)&0xffff) << 4) // axidma_c11_set #define CP_AXIDMA_RUN_SET (1 << 0) // axidma_c11_clr #define CP_AXIDMA_RUN_CLR (1 << 0) #endif // _CP_AXIDMA_H_