1 /* SPDX-License-Identifier: GPL-2.0 */ 2 3 #ifndef _SPRD_DMA_H_ 4 #define _SPRD_DMA_H_ 5 6 #define SPRD_DMA_REQ_SHIFT 8 7 #define SPRD_DMA_TRG_MODE_SHIFT 16 8 #define SPRD_DMA_CHN_MODE_SHIFT 24 9 #define SPRD_DMA_FLAGS(chn_mode, trg_mode, req_mode, int_type) \ 10 ((chn_mode) << SPRD_DMA_CHN_MODE_SHIFT | \ 11 (trg_mode) << SPRD_DMA_TRG_MODE_SHIFT | \ 12 (req_mode) << SPRD_DMA_REQ_SHIFT | (int_type)) 13 14 /* 15 * The Spreadtrum DMA controller supports channel 2-stage tansfer, that means 16 * we can request 2 dma channels, one for source channel, and another one for 17 * destination channel. Each channel is independent, and has its own 18 * configurations. Once the source channel's transaction is done, it will 19 * trigger the destination channel's transaction automatically by hardware 20 * signal. 21 * 22 * To support 2-stage tansfer, we must configure the channel mode and trigger 23 * mode as below definition. 24 */ 25 26 /* 27 * enum sprd_dma_chn_mode: define the DMA channel mode for 2-stage transfer 28 * @SPRD_DMA_CHN_MODE_NONE: No channel mode setting which means channel doesn't 29 * support the 2-stage transfer. 30 * @SPRD_DMA_SRC_CHN0: Channel used as source channel 0. 31 * @SPRD_DMA_SRC_CHN1: Channel used as source channel 1. 32 * @SPRD_DMA_DST_CHN0: Channel used as destination channel 0. 33 * @SPRD_DMA_DST_CHN1: Channel used as destination channel 1. 34 * 35 * Now the DMA controller can supports 2 groups 2-stage transfer. 36 */ 37 enum sprd_dma_chn_mode { 38 SPRD_DMA_CHN_MODE_NONE, 39 SPRD_DMA_SRC_CHN0, 40 SPRD_DMA_SRC_CHN1, 41 SPRD_DMA_DST_CHN0, 42 SPRD_DMA_DST_CHN1, 43 }; 44 45 /* 46 * enum sprd_dma_trg_mode: define the DMA channel trigger mode for 2-stage 47 * transfer 48 * @SPRD_DMA_NO_TRG: No trigger setting. 49 * @SPRD_DMA_FRAG_DONE_TRG: Trigger the transaction of destination channel 50 * automatically once the source channel's fragment request is done. 51 * @SPRD_DMA_BLOCK_DONE_TRG: Trigger the transaction of destination channel 52 * automatically once the source channel's block request is done. 53 * @SPRD_DMA_TRANS_DONE_TRG: Trigger the transaction of destination channel 54 * automatically once the source channel's transfer request is done. 55 * @SPRD_DMA_LIST_DONE_TRG: Trigger the transaction of destination channel 56 * automatically once the source channel's link-list request is done. 57 */ 58 enum sprd_dma_trg_mode { 59 SPRD_DMA_NO_TRG, 60 SPRD_DMA_FRAG_DONE_TRG, 61 SPRD_DMA_BLOCK_DONE_TRG, 62 SPRD_DMA_TRANS_DONE_TRG, 63 SPRD_DMA_LIST_DONE_TRG, 64 }; 65 66 /* 67 * enum sprd_dma_req_mode: define the DMA request mode 68 * @SPRD_DMA_FRAG_REQ: fragment request mode 69 * @SPRD_DMA_BLK_REQ: block request mode 70 * @SPRD_DMA_TRANS_REQ: transaction request mode 71 * @SPRD_DMA_LIST_REQ: link-list request mode 72 * 73 * We have 4 types request mode: fragment mode, block mode, transaction mode 74 * and linklist mode. One transaction can contain several blocks, one block can 75 * contain several fragments. Link-list mode means we can save several DMA 76 * configuration into one reserved memory, then DMA can fetch each DMA 77 * configuration automatically to start transfer. 78 */ 79 enum sprd_dma_req_mode { 80 SPRD_DMA_FRAG_REQ, 81 SPRD_DMA_BLK_REQ, 82 SPRD_DMA_TRANS_REQ, 83 SPRD_DMA_LIST_REQ, 84 }; 85 86 /* 87 * enum sprd_dma_int_type: define the DMA interrupt type 88 * @SPRD_DMA_NO_INT: do not need generate DMA interrupts. 89 * @SPRD_DMA_FRAG_INT: fragment done interrupt when one fragment request 90 * is done. 91 * @SPRD_DMA_BLK_INT: block done interrupt when one block request is done. 92 * @SPRD_DMA_BLK_FRAG_INT: block and fragment interrupt when one fragment 93 * or one block request is done. 94 * @SPRD_DMA_TRANS_INT: tansaction done interrupt when one transaction 95 * request is done. 96 * @SPRD_DMA_TRANS_FRAG_INT: transaction and fragment interrupt when one 97 * transaction request or fragment request is done. 98 * @SPRD_DMA_TRANS_BLK_INT: transaction and block interrupt when one 99 * transaction request or block request is done. 100 * @SPRD_DMA_LIST_INT: link-list done interrupt when one link-list request 101 * is done. 102 * @SPRD_DMA_CFGERR_INT: configure error interrupt when configuration is 103 * incorrect. 104 */ 105 enum sprd_dma_int_type { 106 SPRD_DMA_NO_INT, 107 SPRD_DMA_FRAG_INT, 108 SPRD_DMA_BLK_INT, 109 SPRD_DMA_BLK_FRAG_INT, 110 SPRD_DMA_TRANS_INT, 111 SPRD_DMA_TRANS_FRAG_INT, 112 SPRD_DMA_TRANS_BLK_INT, 113 SPRD_DMA_LIST_INT, 114 SPRD_DMA_CFGERR_INT, 115 }; 116 117 /* 118 * struct sprd_dma_linklist - DMA link-list address structure 119 * @virt_addr: link-list virtual address to configure link-list node 120 * @phy_addr: link-list physical address to link DMA transfer 121 * @wrap_addr: the wrap address for link-list mode, which means once the 122 * transfer address reaches the wrap address, the next transfer address 123 * will jump to the address specified by wrap_to register. 124 * 125 * The Spreadtrum DMA controller supports the link-list mode, that means slaves 126 * can supply several groups configurations (each configuration represents one 127 * DMA transfer) saved in memory, and DMA controller will link these groups 128 * configurations by writing the physical address of each configuration into the 129 * link-list register. 130 * 131 * Just as shown below, the link-list pointer register will be pointed to the 132 * physical address of 'configuration 1', and the 'configuration 1' link-list 133 * pointer will be pointed to 'configuration 2', and so on. 134 * Once trigger the DMA transfer, the DMA controller will load 'configuration 135 * 1' to its registers automatically, after 'configuration 1' transaction is 136 * done, DMA controller will load 'configuration 2' automatically, until all 137 * DMA transactions are done. 138 * 139 * Note: The last link-list pointer should point to the physical address 140 * of 'configuration 1', which can avoid DMA controller loads incorrect 141 * configuration when the last configuration transaction is done. 142 * 143 * DMA controller linklist memory 144 * ====================== ----------------------- 145 *| | | configuration 1 |<--- 146 *| DMA controller | ------->| | | 147 *| | | | | | 148 *| | | | | | 149 *| | | | | | 150 *| linklist pointer reg |---- ----| linklist pointer | | 151 * ====================== | ----------------------- | 152 * | | 153 * | ----------------------- | 154 * | | configuration 2 | | 155 * --->| | | 156 * | | | 157 * | | | 158 * | | | 159 * ----| linklist pointer | | 160 * | ----------------------- | 161 * | | 162 * | ----------------------- | 163 * | | configuration 3 | | 164 * --->| | | 165 * | | | 166 * | . | | 167 * . | 168 * . | 169 * . | 170 * | . | 171 * | ----------------------- | 172 * | | configuration n | | 173 * --->| | | 174 * | | | 175 * | | | 176 * | | | 177 * | linklist pointer |---- 178 * ----------------------- 179 * 180 * To support the link-list mode, DMA slaves should allocate one segment memory 181 * from always-on IRAM or dma coherent memory to store these groups of DMA 182 * configuration, and pass the virtual and physical address to DMA controller. 183 */ 184 struct sprd_dma_linklist { 185 unsigned long virt_addr; 186 phys_addr_t phy_addr; 187 phys_addr_t wrap_addr; 188 }; 189 190 #endif 191