/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include static struct elf_se_hdr *fw_list[SE_PROTOCOL_MAX]; void qupv3_se_fw_load_and_init(unsigned int bus, unsigned int protocol, unsigned int mode) { uint32_t i; uint32_t reg_value; const uint8_t *cfg_idx_arr; const uint32_t *cfg_val_arr; const uint32_t *fw_val_arr; struct elf_se_hdr *hdr; struct qup_regs *regs = qup[bus].regs; static const char * const filename[] = { [SE_PROTOCOL_SPI] = "fallback/spi_fw", [SE_PROTOCOL_UART] = "fallback/uart_fw", [SE_PROTOCOL_I2C] = "fallback/i2c_fw", }; if (protocol >= SE_PROTOCOL_MAX || !filename[protocol]) die("*ERROR* * INVALID PROTOCOL ***\n"); if (!fw_list[protocol]) { fw_list[protocol] = cbfs_map(filename[protocol], NULL); if (!fw_list[protocol]) die("*ERROR* * cbfs_map failed ***\n"); } hdr = fw_list[protocol]; assert(hdr->magic == SEFW_MAGIC_HEADER) cfg_idx_arr = (const uint8_t *)hdr + hdr->cfg_idx_offset; cfg_val_arr = (const uint32_t *)((uint8_t *)hdr + hdr->cfg_val_offset); fw_val_arr = (const uint32_t *)((uint8_t *)hdr + hdr->fw_offset); /* Unlock SE for FW loading */ write32(®s->se_geni_fw_multilock_protns, 0x0); write32(®s->se_geni_fw_multilock_msa, 0x0); /* First, ensure GENI FW is disabled */ write32(®s->geni_output_ctrl, 0x0); clrbits_le32(®s->geni_dfs_if_cfg, GENI_DFS_IF_CFG_DFS_IF_EN_BMSK); setbits_le32(®s->geni_cgc_ctrl, GENI_CGC_CTRL_PROG_RAM_SCLK_OFF_BMSK | GENI_CGC_CTRL_PROG_RAM_HCLK_OFF_BMSK); write32(®s->se_geni_clk_ctrl, 0x0); clrbits_le32(®s->geni_cgc_ctrl, GENI_CGC_CTRL_PROG_RAM_SCLK_OFF_BMSK | GENI_CGC_CTRL_PROG_RAM_HCLK_OFF_BMSK); /* HPG section 3.1.7.1 */ if (protocol != SE_PROTOCOL_UART) { setbits_le32(®s->geni_dfs_if_cfg, GENI_DFS_IF_CFG_DFS_IF_EN_BMSK); /* configure clock dfsr */ clock_configure_dfsr(bus); } /* HPG section 3.1.7.2 */ /* No Init Required */ /* HPG section 3.1.7.3 */ write32(®s->dma_general_cfg, DMA_GENERAL_CFG_AHB_SEC_SLV_CLK_CGC_ON_BMSK | DMA_GENERAL_CFG_DMA_AHB_SLV_CLK_CGC_ON_BMSK | DMA_GENERAL_CFG_DMA_TX_CLK_CGC_ON_BMSK | DMA_GENERAL_CFG_DMA_RX_CLK_CGC_ON_BMSK); write32(®s->geni_cgc_ctrl, DEFAULT_CGC_EN); /* HPG section 3.1.7.4 */ write32(®s->geni_init_cfg_revision, hdr->cfg_version); write32(®s->geni_s_init_cfg_revision, hdr->cfg_version); assert(cfg_idx_arr[hdr->cfg_size_in_items - 1] * sizeof(uint32_t) <= MAX_OFFSET_CFG_REG); for (i = 0; i < hdr->cfg_size_in_items; i++) write32(®s->geni_cfg_reg0 + cfg_idx_arr[i], cfg_val_arr[i]); /* HPG section 3.1.7.9 */ /* non-UART configuration, UART driver can configure as desired for UART */ write32(®s->geni_rx_rfr_watermark_reg, FIFO_DEPTH - 2); /* HPG section 3.1.7.5 */ /* Don't change any SPI polarity, client driver will handle this */ setbits_le32(®s->geni_output_ctrl, DEFAULT_IO_OUTPUT_CTRL_MSK); /* HPG section 3.1.7.6 */ reg_value = read32(®s->geni_dma_mode_en); if (mode == GSI) { reg_value |= GENI_DMA_MODE_EN_GENI_DMA_MODE_EN_BMSK; write32(®s->geni_dma_mode_en, reg_value); write32(®s->se_irq_en, 0x0); write32(®s->se_gsi_event_en, SE_GSI_EVENT_EN_BMSK); } else if (mode == FIFO) { reg_value &= ~GENI_DMA_MODE_EN_GENI_DMA_MODE_EN_BMSK; write32(®s->geni_dma_mode_en, reg_value); write32(®s->se_irq_en, SE_IRQ_EN_RMSK); write32(®s->se_gsi_event_en, 0x0); } else if (mode == CPU_DMA) { reg_value |= GENI_DMA_MODE_EN_GENI_DMA_MODE_EN_BMSK; write32(®s->geni_dma_mode_en, reg_value); write32(®s->se_irq_en, SE_IRQ_EN_RMSK); write32(®s->se_gsi_event_en, 0x0); } /* HPG section 3.1.7.7 */ write32(®s->geni_m_irq_enable, M_COMMON_GENI_M_IRQ_EN); reg_value = S_CMD_OVERRUN_EN | S_ILLEGAL_CMD_EN | S_CMD_CANCEL_EN | S_CMD_ABORT_EN | S_GP_IRQ_0_EN | S_GP_IRQ_1_EN | S_GP_IRQ_2_EN | S_GP_IRQ_3_EN | S_RX_FIFO_WR_ERR_EN | S_RX_FIFO_RD_ERR_EN; write32(®s->geni_s_irq_enable, reg_value); /* HPG section 3.1.7.8 */ /* GPI/DMA mode */ reg_value = DMA_TX_IRQ_EN_SET_RESET_DONE_EN_SET_BMSK | DMA_TX_IRQ_EN_SET_SBE_EN_SET_BMSK | DMA_TX_IRQ_EN_SET_DMA_DONE_EN_SET_BMSK; write32(®s->dma_tx_irq_en_set, reg_value); reg_value = DMA_RX_IRQ_EN_SET_FLUSH_DONE_EN_SET_BMSK | DMA_RX_IRQ_EN_SET_RESET_DONE_EN_SET_BMSK | DMA_RX_IRQ_EN_SET_SBE_EN_SET_BMSK | DMA_RX_IRQ_EN_SET_DMA_DONE_EN_SET_BMSK; write32(®s->dma_rx_irq_en_set, reg_value); /* HPG section 3.1.7.10 */ reg_value = (hdr->serial_protocol << FW_REV_PROTOCOL_SHFT) | (hdr->fw_version & 0xFF << FW_REV_VERSION_SHFT); write32(®s->se_geni_fw_revision, reg_value); reg_value = (hdr->serial_protocol << FW_REV_PROTOCOL_SHFT) | (hdr->fw_version & 0xFF << FW_REV_VERSION_SHFT); write32(®s->se_s_fw_revision, reg_value); assert(hdr->fw_size_in_items <= SIZE_GENI_FW_RAM); memcpy((®s->se_geni_cfg_ramn), fw_val_arr, hdr->fw_size_in_items * sizeof(uint32_t)); /* HPG section 3.1.7.12 */ write32(®s->geni_force_default_reg, 0x1); setbits_le32(®s->geni_cgc_ctrl, GENI_CGC_CTRL_PROG_RAM_SCLK_OFF_BMSK |GENI_CGC_CTRL_PROG_RAM_HCLK_OFF_BMSK); setbits_le32(®s->se_geni_clk_ctrl, GENI_CLK_CTRL_SER_CLK_SEL_BMSK); clrbits_le32(®s->geni_cgc_ctrl, (GENI_CGC_CTRL_PROG_RAM_SCLK_OFF_BMSK | GENI_CGC_CTRL_PROG_RAM_HCLK_OFF_BMSK)); /* HPG section 3.1.7.13 */ /* GSI/DMA mode */ setbits_le32(®s->se_dma_if_en, DMA_IF_EN_DMA_IF_EN_BMSK); /* HPG section 3.1.7.14 */ reg_value = read32(®s->se_fifo_if_disable); if ((mode == MIXED) || (mode == FIFO)) reg_value &= ~FIFO_IF_DISABLE; else reg_value |= FIFO_IF_DISABLE; write32(®s->se_fifo_if_disable, reg_value); write32(®s->se_geni_clk_ctrl, 0x1); /* Lock SE from FW loading */ write32(®s->se_geni_fw_multilock_protns, 0x1); write32(®s->se_geni_fw_multilock_msa, 0x1); } void gpi_firmware_load(int addr) { uint32_t i; uint32_t regVal = 0; struct gsi_fw_hdr *gsi_hdr; struct gsi_fw_iep *fwIep; struct gsi_fw_iram *fwIRam; struct gsi_regs *regs = (struct gsi_regs *)(uintptr_t) addr; static const char * const filename = "fallback/gsi_fw"; /* Assign firmware header base */ gsi_hdr = cbfs_map(filename, NULL); if (!gsi_hdr) die("*ERROR* * cbfs_map() failed ***\n"); assert(gsi_hdr->magic == GSI_FW_MAGIC_HEADER) /* Assign IEP entry base */ fwIep = (struct gsi_fw_iep *)(((uint8_t *)gsi_hdr) + gsi_hdr->iep_offset); /* Assign firmware IRAM entry base */ fwIRam = (struct gsi_fw_iram *)(((uint8_t *)gsi_hdr) + gsi_hdr->fw_offset); clrbits_le32(®s->gsi_cgc_ctrl, GSI_CGC_CTRL_REGION_2_HW_CGC_EN_BMSK); write32(®s->gsi_periph_base_lsb, 0); write32(®s->gsi_periph_base_msb, 0); /* Load IEP */ for (i = 0; i < gsi_hdr->iep_size_in_items; i++) { /* Check if offset does not exceed GSI address space size */ if (fwIep[i].offset < GSI_REG_BASE_SIZE) write32((void *)®s->gsi_cfg + fwIep[i].offset, fwIep[i].value); } /* Load firmware in IRAM */ assert((gsi_hdr->fw_size_in_items * 2) < (GSI_INST_RAM_n_MAX_n + 1)) /* Program Firmware version */ write32(®s->gsi_manager_mcs_code_ver, fwIRam->iram_dword0); memcpy((®s->gsi_inst_ramn), (void *)fwIRam, gsi_hdr->fw_size_in_items * GSI_FW_BYTES_PER_LINE); setbits_le32(®s->gsi_mcs_cfg, GSI_MCS_CFG_MCS_ENABLE_BMSK); setbits_le32(®s->gsi_cfg, GSI_CFG_DOUBLE_MCS_CLK_FREQ_BMSK | GSI_CFG_GSI_ENABLE_BMSK); write32(®s->gsi_ee_n_scratch_0_addr, 0x0); write32(®s->ee_n_gsi_ee_generic_cmd, 0x81); do { regVal = read32(®s->gsi_ee_n_scratch_0_addr); } while (regVal > 1); } static void qup_common_init(int addr) { struct qupv3_common_reg *qupv3_common; /* HPG section 3.1.2 */ qupv3_common = (struct qupv3_common_reg *)(uintptr_t) addr; setbits32(&qupv3_common->qupv3_common_cfg_reg, QUPV3_COMMON_CFG_FAST_SWITCH_TO_HIGH_DISABLE_BMSK); /* HPG section 3.1.7.3 */ setbits32(&qupv3_common->qupv3_se_ahb_m_cfg_reg, QUPV3_SE_AHB_M_CFG_AHB_M_CLK_CGC_ON_BMSK); } void qupv3_fw_init(void) { uint8_t i; /* Turn on all QUP clocks */ for (i = 0; i < QUPV3_SE_MAX; i++) clock_enable_qup(i); qup_common_init(QUP_WRAP0_BASE); qup_common_init(QUP_WRAP1_BASE); }