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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 | // SPDX-License-Identifier: GPL-2.0-or-later /* * Ingenic JZ4780 DMA controller * * Copyright (c) 2015 Imagination Technologies * Author: Alex Smith <alex@alex-smith.me.uk> */ #include <linux/clk.h> #include <linux/dmapool.h> #include <linux/dma-mapping.h> #include <linux/init.h> #include <linux/interrupt.h> #include <linux/module.h> #include <linux/of.h> #include <linux/of_device.h> #include <linux/of_dma.h> #include <linux/platform_device.h> #include <linux/slab.h> #include "dmaengine.h" #include "virt-dma.h" /* Global registers. */ #define JZ_DMA_REG_DMAC 0x00 #define JZ_DMA_REG_DIRQP 0x04 #define JZ_DMA_REG_DDR 0x08 #define JZ_DMA_REG_DDRS 0x0c #define JZ_DMA_REG_DCKE 0x10 #define JZ_DMA_REG_DCKES 0x14 #define JZ_DMA_REG_DCKEC 0x18 #define JZ_DMA_REG_DMACP 0x1c #define JZ_DMA_REG_DSIRQP 0x20 #define JZ_DMA_REG_DSIRQM 0x24 #define JZ_DMA_REG_DCIRQP 0x28 #define JZ_DMA_REG_DCIRQM 0x2c /* Per-channel registers. */ #define JZ_DMA_REG_CHAN(n) (n * 0x20) #define JZ_DMA_REG_DSA 0x00 #define JZ_DMA_REG_DTA 0x04 #define JZ_DMA_REG_DTC 0x08 #define JZ_DMA_REG_DRT 0x0c #define JZ_DMA_REG_DCS 0x10 #define JZ_DMA_REG_DCM 0x14 #define JZ_DMA_REG_DDA 0x18 #define JZ_DMA_REG_DSD 0x1c #define JZ_DMA_DMAC_DMAE BIT(0) #define JZ_DMA_DMAC_AR BIT(2) #define JZ_DMA_DMAC_HLT BIT(3) #define JZ_DMA_DMAC_FAIC BIT(27) #define JZ_DMA_DMAC_FMSC BIT(31) #define JZ_DMA_DRT_AUTO 0x8 #define JZ_DMA_DCS_CTE BIT(0) #define JZ_DMA_DCS_HLT BIT(2) #define JZ_DMA_DCS_TT BIT(3) #define JZ_DMA_DCS_AR BIT(4) #define JZ_DMA_DCS_DES8 BIT(30) #define JZ_DMA_DCM_LINK BIT(0) #define JZ_DMA_DCM_TIE BIT(1) #define JZ_DMA_DCM_STDE BIT(2) #define JZ_DMA_DCM_TSZ_SHIFT 8 #define JZ_DMA_DCM_TSZ_MASK (0x7 << JZ_DMA_DCM_TSZ_SHIFT) #define JZ_DMA_DCM_DP_SHIFT 12 #define JZ_DMA_DCM_SP_SHIFT 14 #define JZ_DMA_DCM_DAI BIT(22) #define JZ_DMA_DCM_SAI BIT(23) #define JZ_DMA_SIZE_4_BYTE 0x0 #define JZ_DMA_SIZE_1_BYTE 0x1 #define JZ_DMA_SIZE_2_BYTE 0x2 #define JZ_DMA_SIZE_16_BYTE 0x3 #define JZ_DMA_SIZE_32_BYTE 0x4 #define JZ_DMA_SIZE_64_BYTE 0x5 #define JZ_DMA_SIZE_128_BYTE 0x6 #define JZ_DMA_WIDTH_32_BIT 0x0 #define JZ_DMA_WIDTH_8_BIT 0x1 #define JZ_DMA_WIDTH_16_BIT 0x2 #define JZ_DMA_BUSWIDTHS (BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | \ BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | \ BIT(DMA_SLAVE_BUSWIDTH_4_BYTES)) #define JZ4780_DMA_CTRL_OFFSET 0x1000 /* macros for use with jz4780_dma_soc_data.flags */ #define JZ_SOC_DATA_ALLOW_LEGACY_DT BIT(0) #define JZ_SOC_DATA_PROGRAMMABLE_DMA BIT(1) #define JZ_SOC_DATA_PER_CHAN_PM BIT(2) #define JZ_SOC_DATA_NO_DCKES_DCKEC BIT(3) #define JZ_SOC_DATA_BREAK_LINKS BIT(4) /** * struct jz4780_dma_hwdesc - descriptor structure read by the DMA controller. * @dcm: value for the DCM (channel command) register * @dsa: source address * @dta: target address * @dtc: transfer count (number of blocks of the transfer size specified in DCM * to transfer) in the low 24 bits, offset of the next descriptor from the * descriptor base address in the upper 8 bits. */ struct jz4780_dma_hwdesc { u32 dcm; u32 dsa; u32 dta; u32 dtc; }; /* Size of allocations for hardware descriptor blocks. */ #define JZ_DMA_DESC_BLOCK_SIZE PAGE_SIZE #define JZ_DMA_MAX_DESC \ (JZ_DMA_DESC_BLOCK_SIZE / sizeof(struct jz4780_dma_hwdesc)) struct jz4780_dma_desc { struct virt_dma_desc vdesc; struct jz4780_dma_hwdesc *desc; dma_addr_t desc_phys; unsigned int count; enum dma_transaction_type type; u32 transfer_type; u32 status; }; struct jz4780_dma_chan { struct virt_dma_chan vchan; unsigned int id; struct dma_pool *desc_pool; u32 transfer_type_tx, transfer_type_rx; u32 transfer_shift; struct dma_slave_config config; struct jz4780_dma_desc *desc; unsigned int curr_hwdesc; }; struct jz4780_dma_soc_data { unsigned int nb_channels; unsigned int transfer_ord_max; unsigned long flags; }; struct jz4780_dma_dev { struct dma_device dma_device; void __iomem *chn_base; void __iomem *ctrl_base; struct clk *clk; unsigned int irq; const struct jz4780_dma_soc_data *soc_data; u32 chan_reserved; struct jz4780_dma_chan chan[]; }; struct jz4780_dma_filter_data { u32 transfer_type_tx, transfer_type_rx; int channel; }; static inline struct jz4780_dma_chan *to_jz4780_dma_chan(struct dma_chan *chan) { return container_of(chan, struct jz4780_dma_chan, vchan.chan); } static inline struct jz4780_dma_desc *to_jz4780_dma_desc( struct virt_dma_desc *vdesc) { return container_of(vdesc, struct jz4780_dma_desc, vdesc); } static inline struct jz4780_dma_dev *jz4780_dma_chan_parent( struct jz4780_dma_chan *jzchan) { return container_of(jzchan->vchan.chan.device, struct jz4780_dma_dev, dma_device); } static inline u32 jz4780_dma_chn_readl(struct jz4780_dma_dev *jzdma, unsigned int chn, unsigned int reg) { return readl(jzdma->chn_base + reg + JZ_DMA_REG_CHAN(chn)); } static inline void jz4780_dma_chn_writel(struct jz4780_dma_dev *jzdma, unsigned int chn, unsigned int reg, u32 val) { writel(val, jzdma->chn_base + reg + JZ_DMA_REG_CHAN(chn)); } static inline u32 jz4780_dma_ctrl_readl(struct jz4780_dma_dev *jzdma, unsigned int reg) { return readl(jzdma->ctrl_base + reg); } static inline void jz4780_dma_ctrl_writel(struct jz4780_dma_dev *jzdma, unsigned int reg, u32 val) { writel(val, jzdma->ctrl_base + reg); } static inline void jz4780_dma_chan_enable(struct jz4780_dma_dev *jzdma, unsigned int chn) { if (jzdma->soc_data->flags & JZ_SOC_DATA_PER_CHAN_PM) { unsigned int reg; if (jzdma->soc_data->flags & JZ_SOC_DATA_NO_DCKES_DCKEC) reg = JZ_DMA_REG_DCKE; else reg = JZ_DMA_REG_DCKES; jz4780_dma_ctrl_writel(jzdma, reg, BIT(chn)); } } static inline void jz4780_dma_chan_disable(struct jz4780_dma_dev *jzdma, unsigned int chn) { if ((jzdma->soc_data->flags & JZ_SOC_DATA_PER_CHAN_PM) && !(jzdma->soc_data->flags & JZ_SOC_DATA_NO_DCKES_DCKEC)) jz4780_dma_ctrl_writel(jzdma, JZ_DMA_REG_DCKEC, BIT(chn)); } static struct jz4780_dma_desc * jz4780_dma_desc_alloc(struct jz4780_dma_chan *jzchan, unsigned int count, enum dma_transaction_type type, enum dma_transfer_direction direction) { struct jz4780_dma_desc *desc; if (count > JZ_DMA_MAX_DESC) return NULL; desc = kzalloc(sizeof(*desc), GFP_NOWAIT); if (!desc) return NULL; desc->desc = dma_pool_alloc(jzchan->desc_pool, GFP_NOWAIT, &desc->desc_phys); if (!desc->desc) { kfree(desc); return NULL; } desc->count = count; desc->type = type; if (direction == DMA_DEV_TO_MEM) desc->transfer_type = jzchan->transfer_type_rx; else desc->transfer_type = jzchan->transfer_type_tx; return desc; } static void jz4780_dma_desc_free(struct virt_dma_desc *vdesc) { struct jz4780_dma_desc *desc = to_jz4780_dma_desc(vdesc); struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(vdesc->tx.chan); dma_pool_free(jzchan->desc_pool, desc->desc, desc->desc_phys); kfree(desc); } static u32 jz4780_dma_transfer_size(struct jz4780_dma_chan *jzchan, unsigned long val, u32 *shift) { struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); int ord = ffs(val) - 1; /* * 8 byte transfer sizes unsupported so fall back on 4. If it's larger * than the maximum, just limit it. It is perfectly safe to fall back * in this way since we won't exceed the maximum burst size supported * by the device, the only effect is reduced efficiency. This is better * than refusing to perform the request at all. */ if (ord == 3) ord = 2; else if (ord > jzdma->soc_data->transfer_ord_max) ord = jzdma->soc_data->transfer_ord_max; *shift = ord; switch (ord) { case 0: return JZ_DMA_SIZE_1_BYTE; case 1: return JZ_DMA_SIZE_2_BYTE; case 2: return JZ_DMA_SIZE_4_BYTE; case 4: return JZ_DMA_SIZE_16_BYTE; case 5: return JZ_DMA_SIZE_32_BYTE; case 6: return JZ_DMA_SIZE_64_BYTE; default: return JZ_DMA_SIZE_128_BYTE; } } static int jz4780_dma_setup_hwdesc(struct jz4780_dma_chan *jzchan, struct jz4780_dma_hwdesc *desc, dma_addr_t addr, size_t len, enum dma_transfer_direction direction) { struct dma_slave_config *config = &jzchan->config; u32 width, maxburst, tsz; if (direction == DMA_MEM_TO_DEV) { desc->dcm = JZ_DMA_DCM_SAI; desc->dsa = addr; desc->dta = config->dst_addr; width = config->dst_addr_width; maxburst = config->dst_maxburst; } else { desc->dcm = JZ_DMA_DCM_DAI; desc->dsa = config->src_addr; desc->dta = addr; width = config->src_addr_width; maxburst = config->src_maxburst; } /* * This calculates the maximum transfer size that can be used with the * given address, length, width and maximum burst size. The address * must be aligned to the transfer size, the total length must be * divisible by the transfer size, and we must not use more than the * maximum burst specified by the user. */ tsz = jz4780_dma_transfer_size(jzchan, addr | len | (width * maxburst), &jzchan->transfer_shift); switch (width) { case DMA_SLAVE_BUSWIDTH_1_BYTE: case DMA_SLAVE_BUSWIDTH_2_BYTES: break; case DMA_SLAVE_BUSWIDTH_4_BYTES: width = JZ_DMA_WIDTH_32_BIT; break; default: return -EINVAL; } desc->dcm |= tsz << JZ_DMA_DCM_TSZ_SHIFT; desc->dcm |= width << JZ_DMA_DCM_SP_SHIFT; desc->dcm |= width << JZ_DMA_DCM_DP_SHIFT; desc->dtc = len >> jzchan->transfer_shift; return 0; } static struct dma_async_tx_descriptor *jz4780_dma_prep_slave_sg( struct dma_chan *chan, struct scatterlist *sgl, unsigned int sg_len, enum dma_transfer_direction direction, unsigned long flags, void *context) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); struct jz4780_dma_desc *desc; unsigned int i; int err; desc = jz4780_dma_desc_alloc(jzchan, sg_len, DMA_SLAVE, direction); if (!desc) return NULL; for (i = 0; i < sg_len; i++) { err = jz4780_dma_setup_hwdesc(jzchan, &desc->desc[i], sg_dma_address(&sgl[i]), sg_dma_len(&sgl[i]), direction); if (err < 0) { jz4780_dma_desc_free(&jzchan->desc->vdesc); return NULL; } desc->desc[i].dcm |= JZ_DMA_DCM_TIE; if (i != (sg_len - 1) && !(jzdma->soc_data->flags & JZ_SOC_DATA_BREAK_LINKS)) { /* Automatically proceed to the next descriptor. */ desc->desc[i].dcm |= JZ_DMA_DCM_LINK; /* * The upper 8 bits of the DTC field in the descriptor * must be set to (offset from descriptor base of next * descriptor >> 4). */ desc->desc[i].dtc |= (((i + 1) * sizeof(*desc->desc)) >> 4) << 24; } } return vchan_tx_prep(&jzchan->vchan, &desc->vdesc, flags); } static struct dma_async_tx_descriptor *jz4780_dma_prep_dma_cyclic( struct dma_chan *chan, dma_addr_t buf_addr, size_t buf_len, size_t period_len, enum dma_transfer_direction direction, unsigned long flags) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct jz4780_dma_desc *desc; unsigned int periods, i; int err; if (buf_len % period_len) return NULL; periods = buf_len / period_len; desc = jz4780_dma_desc_alloc(jzchan, periods, DMA_CYCLIC, direction); if (!desc) return NULL; for (i = 0; i < periods; i++) { err = jz4780_dma_setup_hwdesc(jzchan, &desc->desc[i], buf_addr, period_len, direction); if (err < 0) { jz4780_dma_desc_free(&jzchan->desc->vdesc); return NULL; } buf_addr += period_len; /* * Set the link bit to indicate that the controller should * automatically proceed to the next descriptor. In * jz4780_dma_begin(), this will be cleared if we need to issue * an interrupt after each period. */ desc->desc[i].dcm |= JZ_DMA_DCM_TIE | JZ_DMA_DCM_LINK; /* * The upper 8 bits of the DTC field in the descriptor must be * set to (offset from descriptor base of next descriptor >> 4). * If this is the last descriptor, link it back to the first, * i.e. leave offset set to 0, otherwise point to the next one. */ if (i != (periods - 1)) { desc->desc[i].dtc |= (((i + 1) * sizeof(*desc->desc)) >> 4) << 24; } } return vchan_tx_prep(&jzchan->vchan, &desc->vdesc, flags); } static struct dma_async_tx_descriptor *jz4780_dma_prep_dma_memcpy( struct dma_chan *chan, dma_addr_t dest, dma_addr_t src, size_t len, unsigned long flags) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct jz4780_dma_desc *desc; u32 tsz; desc = jz4780_dma_desc_alloc(jzchan, 1, DMA_MEMCPY, 0); if (!desc) return NULL; tsz = jz4780_dma_transfer_size(jzchan, dest | src | len, &jzchan->transfer_shift); desc->transfer_type = JZ_DMA_DRT_AUTO; desc->desc[0].dsa = src; desc->desc[0].dta = dest; desc->desc[0].dcm = JZ_DMA_DCM_TIE | JZ_DMA_DCM_SAI | JZ_DMA_DCM_DAI | tsz << JZ_DMA_DCM_TSZ_SHIFT | JZ_DMA_WIDTH_32_BIT << JZ_DMA_DCM_SP_SHIFT | JZ_DMA_WIDTH_32_BIT << JZ_DMA_DCM_DP_SHIFT; desc->desc[0].dtc = len >> jzchan->transfer_shift; return vchan_tx_prep(&jzchan->vchan, &desc->vdesc, flags); } static void jz4780_dma_begin(struct jz4780_dma_chan *jzchan) { struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); struct virt_dma_desc *vdesc; unsigned int i; dma_addr_t desc_phys; if (!jzchan->desc) { vdesc = vchan_next_desc(&jzchan->vchan); if (!vdesc) return; list_del(&vdesc->node); jzchan->desc = to_jz4780_dma_desc(vdesc); jzchan->curr_hwdesc = 0; if (jzchan->desc->type == DMA_CYCLIC && vdesc->tx.callback) { /* * The DMA controller doesn't support triggering an * interrupt after processing each descriptor, only * after processing an entire terminated list of * descriptors. For a cyclic DMA setup the list of * descriptors is not terminated so we can never get an * interrupt. * * If the user requested a callback for a cyclic DMA * setup then we workaround this hardware limitation * here by degrading to a set of unlinked descriptors * which we will submit in sequence in response to the * completion of processing the previous descriptor. */ for (i = 0; i < jzchan->desc->count; i++) jzchan->desc->desc[i].dcm &= ~JZ_DMA_DCM_LINK; } } else { /* * There is an existing transfer, therefore this must be one * for which we unlinked the descriptors above. Advance to the * next one in the list. */ jzchan->curr_hwdesc = (jzchan->curr_hwdesc + 1) % jzchan->desc->count; } /* Enable the channel's clock. */ jz4780_dma_chan_enable(jzdma, jzchan->id); /* Use 4-word descriptors. */ jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DCS, 0); /* Set transfer type. */ jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DRT, jzchan->desc->transfer_type); /* * Set the transfer count. This is redundant for a descriptor-driven * transfer. However, there can be a delay between the transfer start * time and when DTCn reg contains the new transfer count. Setting * it explicitly ensures residue is computed correctly at all times. */ jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DTC, jzchan->desc->desc[jzchan->curr_hwdesc].dtc); /* Write descriptor address and initiate descriptor fetch. */ desc_phys = jzchan->desc->desc_phys + (jzchan->curr_hwdesc * sizeof(*jzchan->desc->desc)); jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DDA, desc_phys); jz4780_dma_ctrl_writel(jzdma, JZ_DMA_REG_DDRS, BIT(jzchan->id)); /* Enable the channel. */ jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DCS, JZ_DMA_DCS_CTE); } static void jz4780_dma_issue_pending(struct dma_chan *chan) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); unsigned long flags; spin_lock_irqsave(&jzchan->vchan.lock, flags); if (vchan_issue_pending(&jzchan->vchan) && !jzchan->desc) jz4780_dma_begin(jzchan); spin_unlock_irqrestore(&jzchan->vchan.lock, flags); } static int jz4780_dma_terminate_all(struct dma_chan *chan) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); unsigned long flags; LIST_HEAD(head); spin_lock_irqsave(&jzchan->vchan.lock, flags); /* Clear the DMA status and stop the transfer. */ jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DCS, 0); if (jzchan->desc) { vchan_terminate_vdesc(&jzchan->desc->vdesc); jzchan->desc = NULL; } jz4780_dma_chan_disable(jzdma, jzchan->id); vchan_get_all_descriptors(&jzchan->vchan, &head); spin_unlock_irqrestore(&jzchan->vchan.lock, flags); vchan_dma_desc_free_list(&jzchan->vchan, &head); return 0; } static void jz4780_dma_synchronize(struct dma_chan *chan) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); vchan_synchronize(&jzchan->vchan); jz4780_dma_chan_disable(jzdma, jzchan->id); } static int jz4780_dma_config(struct dma_chan *chan, struct dma_slave_config *config) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); if ((config->src_addr_width == DMA_SLAVE_BUSWIDTH_8_BYTES) || (config->dst_addr_width == DMA_SLAVE_BUSWIDTH_8_BYTES)) return -EINVAL; /* Copy the reset of the slave configuration, it is used later. */ memcpy(&jzchan->config, config, sizeof(jzchan->config)); return 0; } static size_t jz4780_dma_desc_residue(struct jz4780_dma_chan *jzchan, struct jz4780_dma_desc *desc, unsigned int next_sg) { struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); unsigned int count = 0; unsigned int i; for (i = next_sg; i < desc->count; i++) count += desc->desc[i].dtc & GENMASK(23, 0); if (next_sg != 0) count += jz4780_dma_chn_readl(jzdma, jzchan->id, JZ_DMA_REG_DTC); return count << jzchan->transfer_shift; } static enum dma_status jz4780_dma_tx_status(struct dma_chan *chan, dma_cookie_t cookie, struct dma_tx_state *txstate) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct virt_dma_desc *vdesc; enum dma_status status; unsigned long flags; unsigned long residue = 0; spin_lock_irqsave(&jzchan->vchan.lock, flags); status = dma_cookie_status(chan, cookie, txstate); if ((status == DMA_COMPLETE) || (txstate == NULL)) goto out_unlock_irqrestore; vdesc = vchan_find_desc(&jzchan->vchan, cookie); if (vdesc) { /* On the issued list, so hasn't been processed yet */ residue = jz4780_dma_desc_residue(jzchan, to_jz4780_dma_desc(vdesc), 0); } else if (cookie == jzchan->desc->vdesc.tx.cookie) { residue = jz4780_dma_desc_residue(jzchan, jzchan->desc, jzchan->curr_hwdesc + 1); } dma_set_residue(txstate, residue); if (vdesc && jzchan->desc && vdesc == &jzchan->desc->vdesc && jzchan->desc->status & (JZ_DMA_DCS_AR | JZ_DMA_DCS_HLT)) status = DMA_ERROR; out_unlock_irqrestore: spin_unlock_irqrestore(&jzchan->vchan.lock, flags); return status; } static bool jz4780_dma_chan_irq(struct jz4780_dma_dev *jzdma, struct jz4780_dma_chan *jzchan) { const unsigned int soc_flags = jzdma->soc_data->flags; struct jz4780_dma_desc *desc = jzchan->desc; u32 dcs; bool ack = true; spin_lock(&jzchan->vchan.lock); dcs = jz4780_dma_chn_readl(jzdma, jzchan->id, JZ_DMA_REG_DCS); jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DCS, 0); if (dcs & JZ_DMA_DCS_AR) { dev_warn(&jzchan->vchan.chan.dev->device, "address error (DCS=0x%x)\n", dcs); } if (dcs & JZ_DMA_DCS_HLT) { dev_warn(&jzchan->vchan.chan.dev->device, "channel halt (DCS=0x%x)\n", dcs); } if (jzchan->desc) { jzchan->desc->status = dcs; if ((dcs & (JZ_DMA_DCS_AR | JZ_DMA_DCS_HLT)) == 0) { if (jzchan->desc->type == DMA_CYCLIC) { vchan_cyclic_callback(&jzchan->desc->vdesc); jz4780_dma_begin(jzchan); } else if (dcs & JZ_DMA_DCS_TT) { if (!(soc_flags & JZ_SOC_DATA_BREAK_LINKS) || (jzchan->curr_hwdesc + 1 == desc->count)) { vchan_cookie_complete(&desc->vdesc); jzchan->desc = NULL; } jz4780_dma_begin(jzchan); } else { /* False positive - continue the transfer */ ack = false; jz4780_dma_chn_writel(jzdma, jzchan->id, JZ_DMA_REG_DCS, JZ_DMA_DCS_CTE); } } } else { dev_err(&jzchan->vchan.chan.dev->device, "channel IRQ with no active transfer\n"); } spin_unlock(&jzchan->vchan.lock); return ack; } static irqreturn_t jz4780_dma_irq_handler(int irq, void *data) { struct jz4780_dma_dev *jzdma = data; unsigned int nb_channels = jzdma->soc_data->nb_channels; unsigned long pending; u32 dmac; int i; pending = jz4780_dma_ctrl_readl(jzdma, JZ_DMA_REG_DIRQP); for_each_set_bit(i, &pending, nb_channels) { if (jz4780_dma_chan_irq(jzdma, &jzdma->chan[i])) pending &= ~BIT(i); } /* Clear halt and address error status of all channels. */ dmac = jz4780_dma_ctrl_readl(jzdma, JZ_DMA_REG_DMAC); dmac &= ~(JZ_DMA_DMAC_HLT | JZ_DMA_DMAC_AR); jz4780_dma_ctrl_writel(jzdma, JZ_DMA_REG_DMAC, dmac); /* Clear interrupt pending status. */ jz4780_dma_ctrl_writel(jzdma, JZ_DMA_REG_DIRQP, pending); return IRQ_HANDLED; } static int jz4780_dma_alloc_chan_resources(struct dma_chan *chan) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); jzchan->desc_pool = dma_pool_create(dev_name(&chan->dev->device), chan->device->dev, JZ_DMA_DESC_BLOCK_SIZE, PAGE_SIZE, 0); if (!jzchan->desc_pool) { dev_err(&chan->dev->device, "failed to allocate descriptor pool\n"); return -ENOMEM; } return 0; } static void jz4780_dma_free_chan_resources(struct dma_chan *chan) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); vchan_free_chan_resources(&jzchan->vchan); dma_pool_destroy(jzchan->desc_pool); jzchan->desc_pool = NULL; } static bool jz4780_dma_filter_fn(struct dma_chan *chan, void *param) { struct jz4780_dma_chan *jzchan = to_jz4780_dma_chan(chan); struct jz4780_dma_dev *jzdma = jz4780_dma_chan_parent(jzchan); struct jz4780_dma_filter_data *data = param; if (data->channel > -1) { if (data->channel != jzchan->id) return false; } else if (jzdma->chan_reserved & BIT(jzchan->id)) { return false; } jzchan->transfer_type_tx = data->transfer_type_tx; jzchan->transfer_type_rx = data->transfer_type_rx; return true; } static struct dma_chan *jz4780_of_dma_xlate(struct of_phandle_args *dma_spec, struct of_dma *ofdma) { struct jz4780_dma_dev *jzdma = ofdma->of_dma_data; dma_cap_mask_t mask = jzdma->dma_device.cap_mask; struct jz4780_dma_filter_data data; if (dma_spec->args_count == 2) { data.transfer_type_tx = dma_spec->args[0]; data.transfer_type_rx = dma_spec->args[0]; data.channel = dma_spec->args[1]; } else if (dma_spec->args_count == 3) { data.transfer_type_tx = dma_spec->args[0]; data.transfer_type_rx = dma_spec->args[1]; data.channel = dma_spec->args[2]; } else { return NULL; } if (data.channel > -1) { if (data.channel >= jzdma->soc_data->nb_channels) { dev_err(jzdma->dma_device.dev, "device requested non-existent channel %u\n", data.channel); return NULL; } /* Can only select a channel marked as reserved. */ if (!(jzdma->chan_reserved & BIT(data.channel))) { dev_err(jzdma->dma_device.dev, "device requested unreserved channel %u\n", data.channel); return NULL; } jzdma->chan[data.channel].transfer_type_tx = data.transfer_type_tx; jzdma->chan[data.channel].transfer_type_rx = data.transfer_type_rx; return dma_get_slave_channel( &jzdma->chan[data.channel].vchan.chan); } else { return __dma_request_channel(&mask, jz4780_dma_filter_fn, &data, ofdma->of_node); } } static int jz4780_dma_probe(struct platform_device *pdev) { struct device *dev = &pdev->dev; const struct jz4780_dma_soc_data *soc_data; struct jz4780_dma_dev *jzdma; struct jz4780_dma_chan *jzchan; struct dma_device *dd; struct resource *res; int i, ret; if (!dev->of_node) { dev_err(dev, "This driver must be probed from devicetree\n"); return -EINVAL; } soc_data = device_get_match_data(dev); if (!soc_data) return -EINVAL; jzdma = devm_kzalloc(dev, struct_size(jzdma, chan, soc_data->nb_channels), GFP_KERNEL); if (!jzdma) return -ENOMEM; jzdma->soc_data = soc_data; platform_set_drvdata(pdev, jzdma); jzdma->chn_base = devm_platform_ioremap_resource(pdev, 0); if (IS_ERR(jzdma->chn_base)) return PTR_ERR(jzdma->chn_base); res = platform_get_resource(pdev, IORESOURCE_MEM, 1); if (res) { jzdma->ctrl_base = devm_ioremap_resource(dev, res); if (IS_ERR(jzdma->ctrl_base)) return PTR_ERR(jzdma->ctrl_base); } else if (soc_data->flags & JZ_SOC_DATA_ALLOW_LEGACY_DT) { /* * On JZ4780, if the second memory resource was not supplied, * assume we're using an old devicetree, and calculate the * offset to the control registers. */ jzdma->ctrl_base = jzdma->chn_base + JZ4780_DMA_CTRL_OFFSET; } else { dev_err(dev, "failed to get I/O memory\n"); return -EINVAL; } jzdma->clk = devm_clk_get(dev, NULL); if (IS_ERR(jzdma->clk)) { dev_err(dev, "failed to get clock\n"); ret = PTR_ERR(jzdma->clk); return ret; } clk_prepare_enable(jzdma->clk); /* Property is optional, if it doesn't exist the value will remain 0. */ of_property_read_u32_index(dev->of_node, "ingenic,reserved-channels", 0, &jzdma->chan_reserved); dd = &jzdma->dma_device; /* * The real segment size limit is dependent on the size unit selected * for the transfer. Because the size unit is selected automatically * and may be as small as 1 byte, use a safe limit of 2^24-1 bytes to * ensure the 24-bit transfer count in the descriptor cannot overflow. */ dma_set_max_seg_size(dev, 0xffffff); dma_cap_set(DMA_MEMCPY, dd->cap_mask); dma_cap_set(DMA_SLAVE, dd->cap_mask); dma_cap_set(DMA_CYCLIC, dd->cap_mask); dd->dev = dev; dd->copy_align = DMAENGINE_ALIGN_4_BYTES; dd->device_alloc_chan_resources = jz4780_dma_alloc_chan_resources; dd->device_free_chan_resources = jz4780_dma_free_chan_resources; dd->device_prep_slave_sg = jz4780_dma_prep_slave_sg; dd->device_prep_dma_cyclic = jz4780_dma_prep_dma_cyclic; dd->device_prep_dma_memcpy = jz4780_dma_prep_dma_memcpy; dd->device_config = jz4780_dma_config; dd->device_terminate_all = jz4780_dma_terminate_all; dd->device_synchronize = jz4780_dma_synchronize; dd->device_tx_status = jz4780_dma_tx_status; dd->device_issue_pending = jz4780_dma_issue_pending; dd->src_addr_widths = JZ_DMA_BUSWIDTHS; dd->dst_addr_widths = JZ_DMA_BUSWIDTHS; dd->directions = BIT(DMA_DEV_TO_MEM) | BIT(DMA_MEM_TO_DEV); dd->residue_granularity = DMA_RESIDUE_GRANULARITY_BURST; dd->max_sg_burst = JZ_DMA_MAX_DESC; /* * Enable DMA controller, mark all channels as not programmable. * Also set the FMSC bit - it increases MSC performance, so it makes * little sense not to enable it. */ jz4780_dma_ctrl_writel(jzdma, JZ_DMA_REG_DMAC, JZ_DMA_DMAC_DMAE | JZ_DMA_DMAC_FAIC | JZ_DMA_DMAC_FMSC); if (soc_data->flags & JZ_SOC_DATA_PROGRAMMABLE_DMA) jz4780_dma_ctrl_writel(jzdma, JZ_DMA_REG_DMACP, 0); INIT_LIST_HEAD(&dd->channels); for (i = 0; i < soc_data->nb_channels; i++) { jzchan = &jzdma->chan[i]; jzchan->id = i; vchan_init(&jzchan->vchan, dd); jzchan->vchan.desc_free = jz4780_dma_desc_free; } /* * On JZ4760, chan0 won't enable properly the first time. * Enabling then disabling chan1 will magically make chan0 work * correctly. */ jz4780_dma_chan_enable(jzdma, 1); jz4780_dma_chan_disable(jzdma, 1); ret = platform_get_irq(pdev, 0); if (ret < 0) goto err_disable_clk; jzdma->irq = ret; ret = request_irq(jzdma->irq, jz4780_dma_irq_handler, 0, dev_name(dev), jzdma); if (ret) { dev_err(dev, "failed to request IRQ %u!\n", jzdma->irq); goto err_disable_clk; } ret = dmaenginem_async_device_register(dd); if (ret) { dev_err(dev, "failed to register device\n"); goto err_free_irq; } /* Register with OF DMA helpers. */ ret = of_dma_controller_register(dev->of_node, jz4780_of_dma_xlate, jzdma); if (ret) { dev_err(dev, "failed to register OF DMA controller\n"); goto err_free_irq; } dev_info(dev, "JZ4780 DMA controller initialised\n"); return 0; err_free_irq: free_irq(jzdma->irq, jzdma); err_disable_clk: clk_disable_unprepare(jzdma->clk); return ret; } static int jz4780_dma_remove(struct platform_device *pdev) { struct jz4780_dma_dev *jzdma = platform_get_drvdata(pdev); int i; of_dma_controller_free(pdev->dev.of_node); clk_disable_unprepare(jzdma->clk); free_irq(jzdma->irq, jzdma); for (i = 0; i < jzdma->soc_data->nb_channels; i++) tasklet_kill(&jzdma->chan[i].vchan.task); return 0; } static const struct jz4780_dma_soc_data jz4740_dma_soc_data = { .nb_channels = 6, .transfer_ord_max = 5, .flags = JZ_SOC_DATA_BREAK_LINKS, }; static const struct jz4780_dma_soc_data jz4725b_dma_soc_data = { .nb_channels = 6, .transfer_ord_max = 5, .flags = JZ_SOC_DATA_PER_CHAN_PM | JZ_SOC_DATA_NO_DCKES_DCKEC | JZ_SOC_DATA_BREAK_LINKS, }; static const struct jz4780_dma_soc_data jz4760_dma_soc_data = { .nb_channels = 5, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM | JZ_SOC_DATA_NO_DCKES_DCKEC, }; static const struct jz4780_dma_soc_data jz4760_mdma_soc_data = { .nb_channels = 2, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM | JZ_SOC_DATA_NO_DCKES_DCKEC, }; static const struct jz4780_dma_soc_data jz4760_bdma_soc_data = { .nb_channels = 3, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM | JZ_SOC_DATA_NO_DCKES_DCKEC, }; static const struct jz4780_dma_soc_data jz4760b_dma_soc_data = { .nb_channels = 5, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM, }; static const struct jz4780_dma_soc_data jz4760b_mdma_soc_data = { .nb_channels = 2, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM, }; static const struct jz4780_dma_soc_data jz4760b_bdma_soc_data = { .nb_channels = 3, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM, }; static const struct jz4780_dma_soc_data jz4770_dma_soc_data = { .nb_channels = 6, .transfer_ord_max = 6, .flags = JZ_SOC_DATA_PER_CHAN_PM, }; static const struct jz4780_dma_soc_data jz4780_dma_soc_data = { .nb_channels = 32, .transfer_ord_max = 7, .flags = JZ_SOC_DATA_ALLOW_LEGACY_DT | JZ_SOC_DATA_PROGRAMMABLE_DMA, }; static const struct jz4780_dma_soc_data x1000_dma_soc_data = { .nb_channels = 8, .transfer_ord_max = 7, .flags = JZ_SOC_DATA_PROGRAMMABLE_DMA, }; static const struct jz4780_dma_soc_data x1830_dma_soc_data = { .nb_channels = 32, .transfer_ord_max = 7, .flags = JZ_SOC_DATA_PROGRAMMABLE_DMA, }; static const struct of_device_id jz4780_dma_dt_match[] = { { .compatible = "ingenic,jz4740-dma", .data = &jz4740_dma_soc_data }, { .compatible = "ingenic,jz4725b-dma", .data = &jz4725b_dma_soc_data }, { .compatible = "ingenic,jz4760-dma", .data = &jz4760_dma_soc_data }, { .compatible = "ingenic,jz4760-mdma", .data = &jz4760_mdma_soc_data }, { .compatible = "ingenic,jz4760-bdma", .data = &jz4760_bdma_soc_data }, { .compatible = "ingenic,jz4760b-dma", .data = &jz4760b_dma_soc_data }, { .compatible = "ingenic,jz4760b-mdma", .data = &jz4760b_mdma_soc_data }, { .compatible = "ingenic,jz4760b-bdma", .data = &jz4760b_bdma_soc_data }, { .compatible = "ingenic,jz4770-dma", .data = &jz4770_dma_soc_data }, { .compatible = "ingenic,jz4780-dma", .data = &jz4780_dma_soc_data }, { .compatible = "ingenic,x1000-dma", .data = &x1000_dma_soc_data }, { .compatible = "ingenic,x1830-dma", .data = &x1830_dma_soc_data }, {}, }; MODULE_DEVICE_TABLE(of, jz4780_dma_dt_match); static struct platform_driver jz4780_dma_driver = { .probe = jz4780_dma_probe, .remove = jz4780_dma_remove, .driver = { .name = "jz4780-dma", .of_match_table = jz4780_dma_dt_match, }, }; static int __init jz4780_dma_init(void) { return platform_driver_register(&jz4780_dma_driver); } subsys_initcall(jz4780_dma_init); static void __exit jz4780_dma_exit(void) { platform_driver_unregister(&jz4780_dma_driver); } module_exit(jz4780_dma_exit); MODULE_AUTHOR("Alex Smith <alex@alex-smith.me.uk>"); MODULE_DESCRIPTION("Ingenic JZ4780 DMA controller driver"); MODULE_LICENSE("GPL"); |