Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Eugeniy Paltsev | 1016 | 81.74% | 1 | 5.88% |
Pandith N | 106 | 8.53% | 3 | 17.65% |
Sia Jee Heng | 106 | 8.53% | 9 | 52.94% |
Sergey Khimich | 10 | 0.80% | 1 | 5.88% |
Walker Chen | 3 | 0.24% | 1 | 5.88% |
Tom Rix | 1 | 0.08% | 1 | 5.88% |
Andy Shevchenko | 1 | 0.08% | 1 | 5.88% |
Total | 1243 | 17 |
/* SPDX-License-Identifier: GPL-2.0 */ // (C) 2017-2018 Synopsys, Inc. (www.synopsys.com) /* * Synopsys DesignWare AXI DMA Controller driver. * * Author: Eugeniy Paltsev <Eugeniy.Paltsev@synopsys.com> */ #ifndef _AXI_DMA_PLATFORM_H #define _AXI_DMA_PLATFORM_H #include <linux/bitops.h> #include <linux/clk.h> #include <linux/device.h> #include <linux/dmaengine.h> #include <linux/types.h> #include "../virt-dma.h" #define DMAC_MAX_CHANNELS 32 #define DMAC_MAX_MASTERS 2 #define DMAC_MAX_BLK_SIZE 0x200000 struct dw_axi_dma_hcfg { u32 nr_channels; u32 nr_masters; u32 m_data_width; u32 block_size[DMAC_MAX_CHANNELS]; u32 priority[DMAC_MAX_CHANNELS]; /* maximum supported axi burst length */ u32 axi_rw_burst_len; /* Register map for DMAX_NUM_CHANNELS <= 8 */ bool reg_map_8_channels; bool restrict_axi_burst_len; bool use_cfg2; }; struct axi_dma_chan { struct axi_dma_chip *chip; void __iomem *chan_regs; u8 id; u8 hw_handshake_num; atomic_t descs_allocated; struct dma_pool *desc_pool; struct virt_dma_chan vc; struct axi_dma_desc *desc; struct dma_slave_config config; enum dma_transfer_direction direction; bool cyclic; /* these other elements are all protected by vc.lock */ bool is_paused; }; struct dw_axi_dma { struct dma_device dma; struct dw_axi_dma_hcfg *hdata; struct device_dma_parameters dma_parms; /* channels */ struct axi_dma_chan *chan; }; struct axi_dma_chip { struct device *dev; int irq; void __iomem *regs; void __iomem *apb_regs; struct clk *core_clk; struct clk *cfgr_clk; struct dw_axi_dma *dw; }; /* LLI == Linked List Item */ struct __packed axi_dma_lli { __le64 sar; __le64 dar; __le32 block_ts_lo; __le32 block_ts_hi; __le64 llp; __le32 ctl_lo; __le32 ctl_hi; __le32 sstat; __le32 dstat; __le32 status_lo; __le32 status_hi; __le32 reserved_lo; __le32 reserved_hi; }; struct axi_dma_hw_desc { struct axi_dma_lli *lli; dma_addr_t llp; u32 len; }; struct axi_dma_desc { struct axi_dma_hw_desc *hw_desc; struct virt_dma_desc vd; struct axi_dma_chan *chan; u32 completed_blocks; u32 length; u32 period_len; }; struct axi_dma_chan_config { u8 dst_multblk_type; u8 src_multblk_type; u8 dst_per; u8 src_per; u8 tt_fc; u8 prior; u8 hs_sel_dst; u8 hs_sel_src; }; static inline struct device *dchan2dev(struct dma_chan *dchan) { return &dchan->dev->device; } static inline struct device *chan2dev(struct axi_dma_chan *chan) { return &chan->vc.chan.dev->device; } static inline struct axi_dma_desc *vd_to_axi_desc(struct virt_dma_desc *vd) { return container_of(vd, struct axi_dma_desc, vd); } static inline struct axi_dma_chan *vc_to_axi_dma_chan(struct virt_dma_chan *vc) { return container_of(vc, struct axi_dma_chan, vc); } static inline struct axi_dma_chan *dchan_to_axi_dma_chan(struct dma_chan *dchan) { return vc_to_axi_dma_chan(to_virt_chan(dchan)); } #define COMMON_REG_LEN 0x100 #define CHAN_REG_LEN 0x100 /* Common registers offset */ #define DMAC_ID 0x000 /* R DMAC ID */ #define DMAC_COMPVER 0x008 /* R DMAC Component Version */ #define DMAC_CFG 0x010 /* R/W DMAC Configuration */ #define DMAC_CHEN 0x018 /* R/W DMAC Channel Enable */ #define DMAC_CHEN_L 0x018 /* R/W DMAC Channel Enable 00-31 */ #define DMAC_CHEN_H 0x01C /* R/W DMAC Channel Enable 32-63 */ #define DMAC_CHSUSPREG 0x020 /* R/W DMAC Channel Suspend */ #define DMAC_CHABORTREG 0x028 /* R/W DMAC Channel Abort */ #define DMAC_INTSTATUS 0x030 /* R DMAC Interrupt Status */ #define DMAC_COMMON_INTCLEAR 0x038 /* W DMAC Interrupt Clear */ #define DMAC_COMMON_INTSTATUS_ENA 0x040 /* R DMAC Interrupt Status Enable */ #define DMAC_COMMON_INTSIGNAL_ENA 0x048 /* R/W DMAC Interrupt Signal Enable */ #define DMAC_COMMON_INTSTATUS 0x050 /* R DMAC Interrupt Status */ #define DMAC_RESET 0x058 /* R DMAC Reset Register1 */ /* DMA channel registers offset */ #define CH_SAR 0x000 /* R/W Chan Source Address */ #define CH_DAR 0x008 /* R/W Chan Destination Address */ #define CH_BLOCK_TS 0x010 /* R/W Chan Block Transfer Size */ #define CH_CTL 0x018 /* R/W Chan Control */ #define CH_CTL_L 0x018 /* R/W Chan Control 00-31 */ #define CH_CTL_H 0x01C /* R/W Chan Control 32-63 */ #define CH_CFG 0x020 /* R/W Chan Configuration */ #define CH_CFG_L 0x020 /* R/W Chan Configuration 00-31 */ #define CH_CFG_H 0x024 /* R/W Chan Configuration 32-63 */ #define CH_LLP 0x028 /* R/W Chan Linked List Pointer */ #define CH_STATUS 0x030 /* R Chan Status */ #define CH_SWHSSRC 0x038 /* R/W Chan SW Handshake Source */ #define CH_SWHSDST 0x040 /* R/W Chan SW Handshake Destination */ #define CH_BLK_TFR_RESUMEREQ 0x048 /* W Chan Block Transfer Resume Req */ #define CH_AXI_ID 0x050 /* R/W Chan AXI ID */ #define CH_AXI_QOS 0x058 /* R/W Chan AXI QOS */ #define CH_SSTAT 0x060 /* R Chan Source Status */ #define CH_DSTAT 0x068 /* R Chan Destination Status */ #define CH_SSTATAR 0x070 /* R/W Chan Source Status Fetch Addr */ #define CH_DSTATAR 0x078 /* R/W Chan Destination Status Fetch Addr */ #define CH_INTSTATUS_ENA 0x080 /* R/W Chan Interrupt Status Enable */ #define CH_INTSTATUS 0x088 /* R/W Chan Interrupt Status */ #define CH_INTSIGNAL_ENA 0x090 /* R/W Chan Interrupt Signal Enable */ #define CH_INTCLEAR 0x098 /* W Chan Interrupt Clear */ /* These Apb registers are used by Intel KeemBay SoC */ #define DMAC_APB_CFG 0x000 /* DMAC Apb Configuration Register */ #define DMAC_APB_STAT 0x004 /* DMAC Apb Status Register */ #define DMAC_APB_DEBUG_STAT_0 0x008 /* DMAC Apb Debug Status Register 0 */ #define DMAC_APB_DEBUG_STAT_1 0x00C /* DMAC Apb Debug Status Register 1 */ #define DMAC_APB_HW_HS_SEL_0 0x010 /* DMAC Apb HW HS register 0 */ #define DMAC_APB_HW_HS_SEL_1 0x014 /* DMAC Apb HW HS register 1 */ #define DMAC_APB_LPI 0x018 /* DMAC Apb Low Power Interface Reg */ #define DMAC_APB_BYTE_WR_CH_EN 0x01C /* DMAC Apb Byte Write Enable */ #define DMAC_APB_HALFWORD_WR_CH_EN 0x020 /* DMAC Halfword write enables */ #define UNUSED_CHANNEL 0x3F /* Set unused DMA channel to 0x3F */ #define DMA_APB_HS_SEL_BIT_SIZE 0x08 /* HW handshake bits per channel */ #define DMA_APB_HS_SEL_MASK 0xFF /* HW handshake select masks */ #define MAX_BLOCK_SIZE 0x1000 /* 1024 blocks * 4 bytes data width */ #define DMA_REG_MAP_CH_REF 0x08 /* Channel count to choose register map */ /* DMAC_CFG */ #define DMAC_EN_POS 0 #define DMAC_EN_MASK BIT(DMAC_EN_POS) #define INT_EN_POS 1 #define INT_EN_MASK BIT(INT_EN_POS) /* DMAC_CHEN */ #define DMAC_CHAN_EN_SHIFT 0 #define DMAC_CHAN_EN_WE_SHIFT 8 #define DMAC_CHAN_SUSP_SHIFT 16 #define DMAC_CHAN_SUSP_WE_SHIFT 24 /* DMAC_CHEN2 */ #define DMAC_CHAN_EN2_WE_SHIFT 16 /* DMAC CHAN BLOCKS */ #define DMAC_CHAN_BLOCK_SHIFT 32 #define DMAC_CHAN_16 16 /* DMAC_CHSUSP */ #define DMAC_CHAN_SUSP2_SHIFT 0 #define DMAC_CHAN_SUSP2_WE_SHIFT 16 /* CH_CTL_H */ #define CH_CTL_H_ARLEN_EN BIT(6) #define CH_CTL_H_ARLEN_POS 7 #define CH_CTL_H_AWLEN_EN BIT(15) #define CH_CTL_H_AWLEN_POS 16 enum { DWAXIDMAC_ARWLEN_1 = 0, DWAXIDMAC_ARWLEN_2 = 1, DWAXIDMAC_ARWLEN_4 = 3, DWAXIDMAC_ARWLEN_8 = 7, DWAXIDMAC_ARWLEN_16 = 15, DWAXIDMAC_ARWLEN_32 = 31, DWAXIDMAC_ARWLEN_64 = 63, DWAXIDMAC_ARWLEN_128 = 127, DWAXIDMAC_ARWLEN_256 = 255, DWAXIDMAC_ARWLEN_MIN = DWAXIDMAC_ARWLEN_1, DWAXIDMAC_ARWLEN_MAX = DWAXIDMAC_ARWLEN_256 }; #define CH_CTL_H_LLI_LAST BIT(30) #define CH_CTL_H_LLI_VALID BIT(31) /* CH_CTL_L */ #define CH_CTL_L_LAST_WRITE_EN BIT(30) #define CH_CTL_L_DST_MSIZE_POS 18 #define CH_CTL_L_SRC_MSIZE_POS 14 enum { DWAXIDMAC_BURST_TRANS_LEN_1 = 0, DWAXIDMAC_BURST_TRANS_LEN_4, DWAXIDMAC_BURST_TRANS_LEN_8, DWAXIDMAC_BURST_TRANS_LEN_16, DWAXIDMAC_BURST_TRANS_LEN_32, DWAXIDMAC_BURST_TRANS_LEN_64, DWAXIDMAC_BURST_TRANS_LEN_128, DWAXIDMAC_BURST_TRANS_LEN_256, DWAXIDMAC_BURST_TRANS_LEN_512, DWAXIDMAC_BURST_TRANS_LEN_1024 }; #define CH_CTL_L_DST_WIDTH_POS 11 #define CH_CTL_L_SRC_WIDTH_POS 8 #define CH_CTL_L_DST_INC_POS 6 #define CH_CTL_L_SRC_INC_POS 4 enum { DWAXIDMAC_CH_CTL_L_INC = 0, DWAXIDMAC_CH_CTL_L_NOINC }; #define CH_CTL_L_DST_MAST BIT(2) #define CH_CTL_L_SRC_MAST BIT(0) /* CH_CFG_H */ #define CH_CFG_H_PRIORITY_POS 17 #define CH_CFG_H_DST_PER_POS 12 #define CH_CFG_H_SRC_PER_POS 7 #define CH_CFG_H_HS_SEL_DST_POS 4 #define CH_CFG_H_HS_SEL_SRC_POS 3 enum { DWAXIDMAC_HS_SEL_HW = 0, DWAXIDMAC_HS_SEL_SW }; #define CH_CFG_H_TT_FC_POS 0 enum { DWAXIDMAC_TT_FC_MEM_TO_MEM_DMAC = 0, DWAXIDMAC_TT_FC_MEM_TO_PER_DMAC, DWAXIDMAC_TT_FC_PER_TO_MEM_DMAC, DWAXIDMAC_TT_FC_PER_TO_PER_DMAC, DWAXIDMAC_TT_FC_PER_TO_MEM_SRC, DWAXIDMAC_TT_FC_PER_TO_PER_SRC, DWAXIDMAC_TT_FC_MEM_TO_PER_DST, DWAXIDMAC_TT_FC_PER_TO_PER_DST }; /* CH_CFG_L */ #define CH_CFG_L_DST_MULTBLK_TYPE_POS 2 #define CH_CFG_L_SRC_MULTBLK_TYPE_POS 0 enum { DWAXIDMAC_MBLK_TYPE_CONTIGUOUS = 0, DWAXIDMAC_MBLK_TYPE_RELOAD, DWAXIDMAC_MBLK_TYPE_SHADOW_REG, DWAXIDMAC_MBLK_TYPE_LL }; /* CH_CFG2 */ #define CH_CFG2_L_SRC_PER_POS 4 #define CH_CFG2_L_DST_PER_POS 11 #define CH_CFG2_H_TT_FC_POS 0 #define CH_CFG2_H_HS_SEL_SRC_POS 3 #define CH_CFG2_H_HS_SEL_DST_POS 4 #define CH_CFG2_H_PRIORITY_POS 20 /** * DW AXI DMA channel interrupts * * @DWAXIDMAC_IRQ_NONE: Bitmask of no one interrupt * @DWAXIDMAC_IRQ_BLOCK_TRF: Block transfer complete * @DWAXIDMAC_IRQ_DMA_TRF: Dma transfer complete * @DWAXIDMAC_IRQ_SRC_TRAN: Source transaction complete * @DWAXIDMAC_IRQ_DST_TRAN: Destination transaction complete * @DWAXIDMAC_IRQ_SRC_DEC_ERR: Source decode error * @DWAXIDMAC_IRQ_DST_DEC_ERR: Destination decode error * @DWAXIDMAC_IRQ_SRC_SLV_ERR: Source slave error * @DWAXIDMAC_IRQ_DST_SLV_ERR: Destination slave error * @DWAXIDMAC_IRQ_LLI_RD_DEC_ERR: LLI read decode error * @DWAXIDMAC_IRQ_LLI_WR_DEC_ERR: LLI write decode error * @DWAXIDMAC_IRQ_LLI_RD_SLV_ERR: LLI read slave error * @DWAXIDMAC_IRQ_LLI_WR_SLV_ERR: LLI write slave error * @DWAXIDMAC_IRQ_INVALID_ERR: LLI invalid error or Shadow register error * @DWAXIDMAC_IRQ_MULTIBLKTYPE_ERR: Slave Interface Multiblock type error * @DWAXIDMAC_IRQ_DEC_ERR: Slave Interface decode error * @DWAXIDMAC_IRQ_WR2RO_ERR: Slave Interface write to read only error * @DWAXIDMAC_IRQ_RD2RWO_ERR: Slave Interface read to write only error * @DWAXIDMAC_IRQ_WRONCHEN_ERR: Slave Interface write to channel error * @DWAXIDMAC_IRQ_SHADOWREG_ERR: Slave Interface shadow reg error * @DWAXIDMAC_IRQ_WRONHOLD_ERR: Slave Interface hold error * @DWAXIDMAC_IRQ_LOCK_CLEARED: Lock Cleared Status * @DWAXIDMAC_IRQ_SRC_SUSPENDED: Source Suspended Status * @DWAXIDMAC_IRQ_SUSPENDED: Channel Suspended Status * @DWAXIDMAC_IRQ_DISABLED: Channel Disabled Status * @DWAXIDMAC_IRQ_ABORTED: Channel Aborted Status * @DWAXIDMAC_IRQ_ALL_ERR: Bitmask of all error interrupts * @DWAXIDMAC_IRQ_ALL: Bitmask of all interrupts */ enum { DWAXIDMAC_IRQ_NONE = 0, DWAXIDMAC_IRQ_BLOCK_TRF = BIT(0), DWAXIDMAC_IRQ_DMA_TRF = BIT(1), DWAXIDMAC_IRQ_SRC_TRAN = BIT(3), DWAXIDMAC_IRQ_DST_TRAN = BIT(4), DWAXIDMAC_IRQ_SRC_DEC_ERR = BIT(5), DWAXIDMAC_IRQ_DST_DEC_ERR = BIT(6), DWAXIDMAC_IRQ_SRC_SLV_ERR = BIT(7), DWAXIDMAC_IRQ_DST_SLV_ERR = BIT(8), DWAXIDMAC_IRQ_LLI_RD_DEC_ERR = BIT(9), DWAXIDMAC_IRQ_LLI_WR_DEC_ERR = BIT(10), DWAXIDMAC_IRQ_LLI_RD_SLV_ERR = BIT(11), DWAXIDMAC_IRQ_LLI_WR_SLV_ERR = BIT(12), DWAXIDMAC_IRQ_INVALID_ERR = BIT(13), DWAXIDMAC_IRQ_MULTIBLKTYPE_ERR = BIT(14), DWAXIDMAC_IRQ_DEC_ERR = BIT(16), DWAXIDMAC_IRQ_WR2RO_ERR = BIT(17), DWAXIDMAC_IRQ_RD2RWO_ERR = BIT(18), DWAXIDMAC_IRQ_WRONCHEN_ERR = BIT(19), DWAXIDMAC_IRQ_SHADOWREG_ERR = BIT(20), DWAXIDMAC_IRQ_WRONHOLD_ERR = BIT(21), DWAXIDMAC_IRQ_LOCK_CLEARED = BIT(27), DWAXIDMAC_IRQ_SRC_SUSPENDED = BIT(28), DWAXIDMAC_IRQ_SUSPENDED = BIT(29), DWAXIDMAC_IRQ_DISABLED = BIT(30), DWAXIDMAC_IRQ_ABORTED = BIT(31), DWAXIDMAC_IRQ_ALL_ERR = (GENMASK(21, 16) | GENMASK(14, 5)), DWAXIDMAC_IRQ_ALL = GENMASK(31, 0) }; enum { DWAXIDMAC_TRANS_WIDTH_8 = 0, DWAXIDMAC_TRANS_WIDTH_16, DWAXIDMAC_TRANS_WIDTH_32, DWAXIDMAC_TRANS_WIDTH_64, DWAXIDMAC_TRANS_WIDTH_128, DWAXIDMAC_TRANS_WIDTH_256, DWAXIDMAC_TRANS_WIDTH_512, DWAXIDMAC_TRANS_WIDTH_MAX = DWAXIDMAC_TRANS_WIDTH_512 }; #endif /* _AXI_DMA_PLATFORM_H */
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