// SPDX-License-Identifier: GPL-2.0 // // Copyright (c) 2018 MediaTek Inc. #include #include #include #include #include #include #include #define CMDQ_WRITE_ENABLE_MASK BIT(0) #define CMDQ_POLL_ENABLE_MASK BIT(0) /* dedicate the last GPR_R15 to assign the register address to be poll */ #define CMDQ_POLL_ADDR_GPR (15) #define CMDQ_EOC_IRQ_EN BIT(0) #define CMDQ_REG_TYPE 1 #define CMDQ_JUMP_RELATIVE 0 #define CMDQ_JUMP_ABSOLUTE 1 struct cmdq_instruction { union { u32 value; u32 mask; struct { u16 arg_c; u16 src_reg; }; }; union { u16 offset; u16 event; u16 reg_dst; }; union { u8 subsys; struct { u8 sop:5; u8 arg_c_t:1; u8 src_t:1; u8 dst_t:1; }; }; u8 op; }; int cmdq_dev_get_client_reg(struct device *dev, struct cmdq_client_reg *client_reg, int idx) { struct of_phandle_args spec; int err; if (!client_reg) return -ENOENT; err = of_parse_phandle_with_fixed_args(dev->of_node, "mediatek,gce-client-reg", 3, idx, &spec); if (err < 0) { dev_err(dev, "error %d can't parse gce-client-reg property (%d)", err, idx); return err; } client_reg->subsys = (u8)spec.args[0]; client_reg->offset = (u16)spec.args[1]; client_reg->size = (u16)spec.args[2]; of_node_put(spec.np); return 0; } EXPORT_SYMBOL(cmdq_dev_get_client_reg); struct cmdq_client *cmdq_mbox_create(struct device *dev, int index) { struct cmdq_client *client; client = kzalloc(sizeof(*client), GFP_KERNEL); if (!client) return (struct cmdq_client *)-ENOMEM; client->client.dev = dev; client->client.tx_block = false; client->client.knows_txdone = true; client->chan = mbox_request_channel(&client->client, index); if (IS_ERR(client->chan)) { long err; dev_err(dev, "failed to request channel\n"); err = PTR_ERR(client->chan); kfree(client); return ERR_PTR(err); } return client; } EXPORT_SYMBOL(cmdq_mbox_create); void cmdq_mbox_destroy(struct cmdq_client *client) { mbox_free_channel(client->chan); kfree(client); } EXPORT_SYMBOL(cmdq_mbox_destroy); int cmdq_pkt_create(struct cmdq_client *client, struct cmdq_pkt *pkt, size_t size) { struct device *dev; dma_addr_t dma_addr; pkt->va_base = kzalloc(size, GFP_KERNEL); if (!pkt->va_base) return -ENOMEM; pkt->buf_size = size; dev = client->chan->mbox->dev; dma_addr = dma_map_single(dev, pkt->va_base, pkt->buf_size, DMA_TO_DEVICE); if (dma_mapping_error(dev, dma_addr)) { dev_err(dev, "dma map failed, size=%u\n", (u32)(u64)size); kfree(pkt->va_base); return -ENOMEM; } pkt->pa_base = dma_addr; return 0; } EXPORT_SYMBOL(cmdq_pkt_create); void cmdq_pkt_destroy(struct cmdq_client *client, struct cmdq_pkt *pkt) { dma_unmap_single(client->chan->mbox->dev, pkt->pa_base, pkt->buf_size, DMA_TO_DEVICE); kfree(pkt->va_base); } EXPORT_SYMBOL(cmdq_pkt_destroy); static int cmdq_pkt_append_command(struct cmdq_pkt *pkt, struct cmdq_instruction inst) { struct cmdq_instruction *cmd_ptr; if (unlikely(pkt->cmd_buf_size + CMDQ_INST_SIZE > pkt->buf_size)) { /* * In the case of allocated buffer size (pkt->buf_size) is used * up, the real required size (pkt->cmdq_buf_size) is still * increased, so that the user knows how much memory should be * ultimately allocated after appending all commands and * flushing the command packet. Therefor, the user can call * cmdq_pkt_create() again with the real required buffer size. */ pkt->cmd_buf_size += CMDQ_INST_SIZE; WARN_ONCE(1, "%s: buffer size %u is too small !\n", __func__, (u32)pkt->buf_size); return -ENOMEM; } cmd_ptr = pkt->va_base + pkt->cmd_buf_size; *cmd_ptr = inst; pkt->cmd_buf_size += CMDQ_INST_SIZE; return 0; } int cmdq_pkt_write(struct cmdq_pkt *pkt, u8 subsys, u16 offset, u32 value) { struct cmdq_instruction inst; inst.op = CMDQ_CODE_WRITE; inst.value = value; inst.offset = offset; inst.subsys = subsys; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_write); int cmdq_pkt_write_mask(struct cmdq_pkt *pkt, u8 subsys, u16 offset, u32 value, u32 mask) { struct cmdq_instruction inst = { {0} }; u16 offset_mask = offset; int err; if (mask != 0xffffffff) { inst.op = CMDQ_CODE_MASK; inst.mask = ~mask; err = cmdq_pkt_append_command(pkt, inst); if (err < 0) return err; offset_mask |= CMDQ_WRITE_ENABLE_MASK; } err = cmdq_pkt_write(pkt, subsys, offset_mask, value); return err; } EXPORT_SYMBOL(cmdq_pkt_write_mask); int cmdq_pkt_read_s(struct cmdq_pkt *pkt, u16 high_addr_reg_idx, u16 addr_low, u16 reg_idx) { struct cmdq_instruction inst = {}; inst.op = CMDQ_CODE_READ_S; inst.dst_t = CMDQ_REG_TYPE; inst.sop = high_addr_reg_idx; inst.reg_dst = reg_idx; inst.src_reg = addr_low; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_read_s); int cmdq_pkt_write_s(struct cmdq_pkt *pkt, u16 high_addr_reg_idx, u16 addr_low, u16 src_reg_idx) { struct cmdq_instruction inst = {}; inst.op = CMDQ_CODE_WRITE_S; inst.src_t = CMDQ_REG_TYPE; inst.sop = high_addr_reg_idx; inst.offset = addr_low; inst.src_reg = src_reg_idx; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_write_s); int cmdq_pkt_write_s_mask(struct cmdq_pkt *pkt, u16 high_addr_reg_idx, u16 addr_low, u16 src_reg_idx, u32 mask) { struct cmdq_instruction inst = {}; int err; inst.op = CMDQ_CODE_MASK; inst.mask = ~mask; err = cmdq_pkt_append_command(pkt, inst); if (err < 0) return err; inst.mask = 0; inst.op = CMDQ_CODE_WRITE_S_MASK; inst.src_t = CMDQ_REG_TYPE; inst.sop = high_addr_reg_idx; inst.offset = addr_low; inst.src_reg = src_reg_idx; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_write_s_mask); int cmdq_pkt_write_s_value(struct cmdq_pkt *pkt, u8 high_addr_reg_idx, u16 addr_low, u32 value) { struct cmdq_instruction inst = {}; inst.op = CMDQ_CODE_WRITE_S; inst.sop = high_addr_reg_idx; inst.offset = addr_low; inst.value = value; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_write_s_value); int cmdq_pkt_write_s_mask_value(struct cmdq_pkt *pkt, u8 high_addr_reg_idx, u16 addr_low, u32 value, u32 mask) { struct cmdq_instruction inst = {}; int err; inst.op = CMDQ_CODE_MASK; inst.mask = ~mask; err = cmdq_pkt_append_command(pkt, inst); if (err < 0) return err; inst.op = CMDQ_CODE_WRITE_S_MASK; inst.sop = high_addr_reg_idx; inst.offset = addr_low; inst.value = value; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_write_s_mask_value); int cmdq_pkt_mem_move(struct cmdq_pkt *pkt, dma_addr_t src_addr, dma_addr_t dst_addr) { const u16 high_addr_reg_idx = CMDQ_THR_SPR_IDX0; const u16 value_reg_idx = CMDQ_THR_SPR_IDX1; int ret; /* read the value of src_addr into high_addr_reg_idx */ ret = cmdq_pkt_assign(pkt, high_addr_reg_idx, CMDQ_ADDR_HIGH(src_addr)); if (ret < 0) return ret; ret = cmdq_pkt_read_s(pkt, high_addr_reg_idx, CMDQ_ADDR_LOW(src_addr), value_reg_idx); if (ret < 0) return ret; /* write the value of value_reg_idx into dst_addr */ ret = cmdq_pkt_assign(pkt, high_addr_reg_idx, CMDQ_ADDR_HIGH(dst_addr)); if (ret < 0) return ret; ret = cmdq_pkt_write_s(pkt, high_addr_reg_idx, CMDQ_ADDR_LOW(dst_addr), value_reg_idx); if (ret < 0) return ret; return 0; } EXPORT_SYMBOL(cmdq_pkt_mem_move); int cmdq_pkt_wfe(struct cmdq_pkt *pkt, u16 event, bool clear) { struct cmdq_instruction inst = { {0} }; u32 clear_option = clear ? CMDQ_WFE_UPDATE : 0; if (event >= CMDQ_MAX_EVENT) return -EINVAL; inst.op = CMDQ_CODE_WFE; inst.value = CMDQ_WFE_OPTION | clear_option; inst.event = event; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_wfe); int cmdq_pkt_clear_event(struct cmdq_pkt *pkt, u16 event) { struct cmdq_instruction inst = { {0} }; if (event >= CMDQ_MAX_EVENT) return -EINVAL; inst.op = CMDQ_CODE_WFE; inst.value = CMDQ_WFE_UPDATE; inst.event = event; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_clear_event); int cmdq_pkt_set_event(struct cmdq_pkt *pkt, u16 event) { struct cmdq_instruction inst = {}; if (event >= CMDQ_MAX_EVENT) return -EINVAL; inst.op = CMDQ_CODE_WFE; inst.value = CMDQ_WFE_UPDATE | CMDQ_WFE_UPDATE_VALUE; inst.event = event; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_set_event); int cmdq_pkt_poll(struct cmdq_pkt *pkt, u8 subsys, u16 offset, u32 value) { struct cmdq_instruction inst = { {0} }; int err; inst.op = CMDQ_CODE_POLL; inst.value = value; inst.offset = offset; inst.subsys = subsys; err = cmdq_pkt_append_command(pkt, inst); return err; } EXPORT_SYMBOL(cmdq_pkt_poll); int cmdq_pkt_poll_mask(struct cmdq_pkt *pkt, u8 subsys, u16 offset, u32 value, u32 mask) { struct cmdq_instruction inst = { {0} }; int err; inst.op = CMDQ_CODE_MASK; inst.mask = ~mask; err = cmdq_pkt_append_command(pkt, inst); if (err < 0) return err; offset = offset | CMDQ_POLL_ENABLE_MASK; err = cmdq_pkt_poll(pkt, subsys, offset, value); return err; } EXPORT_SYMBOL(cmdq_pkt_poll_mask); int cmdq_pkt_poll_addr(struct cmdq_pkt *pkt, dma_addr_t addr, u32 value, u32 mask) { struct cmdq_instruction inst = { {0} }; u8 use_mask = 0; int ret; /* * Append an MASK instruction to set the mask for following POLL instruction * which enables use_mask bit. */ if (mask != GENMASK(31, 0)) { inst.op = CMDQ_CODE_MASK; inst.mask = ~mask; ret = cmdq_pkt_append_command(pkt, inst); if (ret < 0) return ret; use_mask = CMDQ_POLL_ENABLE_MASK; } /* * POLL is an legacy operation in GCE and it does not support SPR and CMDQ_CODE_LOGIC, * so it can not use cmdq_pkt_assign to keep polling register address to SPR. * If user wants to poll a register address which doesn't have a subsys id, * user needs to use GPR and CMDQ_CODE_MASK to move polling register address to GPR. */ inst.op = CMDQ_CODE_MASK; inst.dst_t = CMDQ_REG_TYPE; inst.sop = CMDQ_POLL_ADDR_GPR; inst.value = addr; ret = cmdq_pkt_append_command(pkt, inst); if (ret < 0) return ret; /* Append POLL instruction to poll the register address assign to GPR previously. */ inst.op = CMDQ_CODE_POLL; inst.dst_t = CMDQ_REG_TYPE; inst.sop = CMDQ_POLL_ADDR_GPR; inst.offset = use_mask; inst.value = value; ret = cmdq_pkt_append_command(pkt, inst); if (ret < 0) return ret; return 0; } EXPORT_SYMBOL(cmdq_pkt_poll_addr); int cmdq_pkt_assign(struct cmdq_pkt *pkt, u16 reg_idx, u32 value) { struct cmdq_instruction inst = {}; inst.op = CMDQ_CODE_LOGIC; inst.dst_t = CMDQ_REG_TYPE; inst.reg_dst = reg_idx; inst.value = value; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_assign); int cmdq_pkt_jump_abs(struct cmdq_pkt *pkt, dma_addr_t addr, u8 shift_pa) { struct cmdq_instruction inst = {}; inst.op = CMDQ_CODE_JUMP; inst.offset = CMDQ_JUMP_ABSOLUTE; inst.value = addr >> shift_pa; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_jump_abs); int cmdq_pkt_jump_rel(struct cmdq_pkt *pkt, s32 offset, u8 shift_pa) { struct cmdq_instruction inst = { {0} }; inst.op = CMDQ_CODE_JUMP; inst.value = (u32)offset >> shift_pa; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_jump_rel); int cmdq_pkt_eoc(struct cmdq_pkt *pkt) { struct cmdq_instruction inst = { {0} }; inst.op = CMDQ_CODE_EOC; inst.value = CMDQ_EOC_IRQ_EN; return cmdq_pkt_append_command(pkt, inst); } EXPORT_SYMBOL(cmdq_pkt_eoc); int cmdq_pkt_finalize(struct cmdq_pkt *pkt) { struct cmdq_instruction inst = { {0} }; int err; /* insert EOC and generate IRQ for each command iteration */ inst.op = CMDQ_CODE_EOC; inst.value = CMDQ_EOC_IRQ_EN; err = cmdq_pkt_append_command(pkt, inst); if (err < 0) return err; /* JUMP to end */ inst.op = CMDQ_CODE_JUMP; inst.value = CMDQ_JUMP_PASS >> cmdq_get_shift_pa(((struct cmdq_client *)pkt->cl)->chan); err = cmdq_pkt_append_command(pkt, inst); return err; } EXPORT_SYMBOL(cmdq_pkt_finalize); MODULE_LICENSE("GPL v2");