/* * Copyright (c) 2021 Antmicro * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include "fpga_eos_s3.h" void eos_s3_fpga_enable_clk(void) { CRU->C16_CLK_GATE = C16_CLK_GATE_PATH_0_ON; CRU->C21_CLK_GATE = C21_CLK_GATE_PATH_0_ON; CRU->C09_CLK_GATE = C09_CLK_GATE_PATH_1_ON | C09_CLK_GATE_PATH_2_ON; CRU->C02_CLK_GATE = C02_CLK_GATE_PATH_1_ON; } void eos_s3_fpga_disable_clk(void) { CRU->C16_CLK_GATE = C16_CLK_GATE_PATH_0_OFF; CRU->C21_CLK_GATE = C21_CLK_GATE_PATH_0_OFF; CRU->C09_CLK_GATE = C09_CLK_GATE_PATH_1_OFF | C09_CLK_GATE_PATH_2_OFF; CRU->C02_CLK_GATE = C02_CLK_GATE_PATH_1_OFF; } struct quickfeather_fpga_data { char *FPGA_info; }; static enum FPGA_status eos_s3_fpga_get_status(const struct device *dev) { ARG_UNUSED(dev); if (PMU->FB_STATUS == FPGA_STATUS_ACTIVE) { return FPGA_STATUS_ACTIVE; } else return FPGA_STATUS_INACTIVE; } static const char *eos_s3_fpga_get_info(const struct device *dev) { struct quickfeather_fpga_data *data = dev->data; return data->FPGA_info; } static int eos_s3_fpga_on(const struct device *dev) { if (eos_s3_fpga_get_status(dev) == FPGA_STATUS_ACTIVE) { return 0; } /* wake up the FPGA power domain */ PMU->FFE_FB_PF_SW_WU = PMU_FFE_FB_PF_SW_WU_FB_WU; while (PMU->FFE_FB_PF_SW_WU == PMU_FFE_FB_PF_SW_WU_FB_WU) { /* The register will clear itself if the FPGA starts */ }; eos_s3_fpga_enable_clk(); /* enable FPGA programming */ PMU->GEN_PURPOSE_0 = FB_CFG_ENABLE; PIF->CFG_CTL = CFG_CTL_LOAD_ENABLE; return 0; } static int eos_s3_fpga_off(const struct device *dev) { if (eos_s3_fpga_get_status(dev) == FPGA_STATUS_INACTIVE) { return 0; } PMU->FB_PWR_MODE_CFG = PMU_FB_PWR_MODE_CFG_FB_SD; PMU->FFE_FB_PF_SW_PD = PMU_FFE_FB_PF_SW_PD_FB_PD; eos_s3_fpga_disable_clk(); return 0; } static int eos_s3_fpga_reset(const struct device *dev) { if (eos_s3_fpga_get_status(dev) == FPGA_STATUS_ACTIVE) { eos_s3_fpga_off(dev); } eos_s3_fpga_on(dev); if (eos_s3_fpga_get_status(dev) == FPGA_STATUS_INACTIVE) { return -EAGAIN; } return 0; } static int eos_s3_fpga_load(const struct device *dev, uint32_t *image_ptr, uint32_t img_size) { if (eos_s3_fpga_get_status(dev) == FPGA_STATUS_INACTIVE) { return -EINVAL; } volatile uint32_t *bitstream = (volatile uint32_t *)image_ptr; for (uint32_t chunk_cnt = 0; chunk_cnt < (img_size / 4); chunk_cnt++) { PIF->CFG_DATA = *bitstream; bitstream++; } /* disable FPGA programming */ PMU->GEN_PURPOSE_0 = FB_CFG_DISABLE; PIF->CFG_CTL = CFG_CTL_LOAD_DISABLE; PMU->FB_ISOLATION = FB_ISOLATION_DISABLE; return 0; } static int eos_s3_fpga_init(const struct device *dev) { IO_MUX->PAD_19_CTRL = PAD_ENABLE; struct quickfeather_fpga_data *data = dev->data; data->FPGA_info = FPGA_INFO; eos_s3_fpga_reset(dev); return 0; } static struct quickfeather_fpga_data fpga_data; static const struct fpga_driver_api eos_s3_api = { .reset = eos_s3_fpga_reset, .load = eos_s3_fpga_load, .get_status = eos_s3_fpga_get_status, .on = eos_s3_fpga_on, .off = eos_s3_fpga_off, .get_info = eos_s3_fpga_get_info }; DEVICE_DEFINE(fpga, "FPGA", &eos_s3_fpga_init, NULL, &fpga_data, NULL, APPLICATION, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, &eos_s3_api);