| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/C/Linux/drivers/net/wwan/t7xx/ (Open Source Betriebssystem Version 6.17.9©) Datei vom 24.10.2025 mit Größe 39 kB |
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Quelle t7xx_dpmaif.c Sprache: C |
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// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2021, MediaTek Inc. * Copyright (c) 2021-2022, Intel Corporation. * * Authors: * Amir Hanania <amir.hanania@intel.com> * Haijun Liu <haijun.liu@mediatek.com> * Moises Veleta <moises.veleta@intel.com> * Ricardo Martinez <ricardo.martinez@linux.intel.com> * * Contributors: * Andy Shevchenko <andriy.shevchenko@linux.intel.com> * Chiranjeevi Rapolu <chiranjeevi.rapolu@intel.com> * Eliot Lee <eliot.lee@intel.com> * Sreehari Kancharla <sreehari.kancharla@intel.com> */ #include <linux/bits.h> #include <linux/bitfield.h> #include <linux/bitops.h> #include <linux/delay.h> #include <linux/dev_printk.h> #include <linux/io.h> #include <linux/iopoll.h> #include <linux/types.h> #include "t7xx_dpmaif.h" #include "t7xx_reg.h" #define ioread32_poll_timeout_atomic(addr, val, cond, delay_us, timeout_us) \ readx_poll_timeout_atomic(ioread32, addr, val, cond, delay_us, timeout_us) static int t7xx_dpmaif_init_intr(struct dpmaif_hw_info *hw_info) { struct dpmaif_isr_en_mask *isr_en_msk = &hw_info->isr_en_mask; u32 value, ul_intr_enable, dl_intr_enable; int ret; ul_intr_enable = DP_UL_INT_ERR_MSK | DP_UL_INT_QDONE_MSK; isr_en_msk->ap_ul_l2intr_en_msk = ul_intr_enable; iowrite32(DPMAIF_AP_ALL_L2TISAR0_MASK, hw_info->pcie_base + DPMAIF_AP_L2TISAR0); /* Set interrupt enable mask */ iowrite32(ul_intr_enable, hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMCR0); iowrite32(~ul_intr_enable, hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMSR0); /* Check mask status */ ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMR0, value, (value & ul_intr_enable) != ul_intr_enable, 0, DPMAIF_CHECK_INIT_TIMEOUT_US); if (ret) return ret; dl_intr_enable = DP_DL_INT_PITCNT_LEN_ERR | DP_DL_INT_BATCNT_LEN_ERR; isr_en_msk->ap_dl_l2intr_err_en_msk = dl_intr_enable; ul_intr_enable = DPMAIF_DL_INT_DLQ0_QDONE | DPMAIF_DL_INT_DLQ0_PITCNT_LEN | DPMAIF_DL_INT_DLQ1_QDONE | DPMAIF_DL_INT_DLQ1_PITCNT_LEN; isr_en_msk->ap_ul_l2intr_en_msk = ul_intr_enable; iowrite32(DPMAIF_AP_APDL_ALL_L2TISAR0_MASK, hw_info->pcie_base + DPMAIF_AP_APDL_L2TI /* Set DL ISR PD enable mask */ iowrite32(~ul_intr_enable, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMR0, value, (value & ul_intr_enable) != ul_intr_enable, 0, DPMAIF_CHECK_INIT_TIMEOUT_US); if (ret) return ret; isr_en_msk->ap_udl_ip_busy_en_msk = DPMAIF_UDL_IP_BUSY; iowrite32(DPMAIF_AP_IP_BUSY_MASK, hw_info->pcie_base + DPMAIF_AP_IP_BUSY); iowrite32(isr_en_msk->ap_udl_ip_busy_en_msk, hw_info->pcie_base + DPMAIF_AO_AP_DLUL_IP_BUSY_MASK); value = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_AP_L1TIMR0); value |= DPMAIF_DL_INT_Q2APTOP | DPMAIF_DL_INT_Q2TOQ1; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_UL_AP_L1TIMR0); iowrite32(DPMA_HPC_ALL_INT_MASK, hw_info->pcie_base + DPMAIF_HPC_INTR_MASK); return 0; } static void t7xx_dpmaif_mask_ulq_intr(struct dpmaif_hw_info *hw_info, unsigned int q_nu { struct dpmaif_isr_en_mask *isr_en_msk; u32 value, ul_int_que_done; int ret; isr_en_msk = &hw_info->isr_en_mask; ul_int_que_done = BIT(q_num + DP_UL_INT_DONE_OFFSET) & DP_UL_INT_QDONE_MSK; isr_en_msk->ap_ul_l2intr_en_msk &= ~ul_int_que_done; iowrite32(ul_int_que_done, hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMSR0); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMR0, value, (value & ul_int_que_done) == ul_int_que_done, 0, DPMAIF_CHECK_TIMEOUT_US); if (ret) dev_err(hw_info->dev, "Could not mask the UL interrupt. DPMAIF_AO_UL_AP_L2TIMR0 is 0x%x\n", value); } void t7xx_dpmaif_unmask_ulq_intr(struct dpmaif_hw_info *hw_info, unsigned int q_num) { struct dpmaif_isr_en_mask *isr_en_msk; u32 value, ul_int_que_done; int ret; isr_en_msk = &hw_info->isr_en_mask; ul_int_que_done = BIT(q_num + DP_UL_INT_DONE_OFFSET) & DP_UL_INT_QDONE_MSK; isr_en_msk->ap_ul_l2intr_en_msk |= ul_int_que_done; iowrite32(ul_int_que_done, hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMCR0); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMR0, value, (value & ul_int_que_done) != ul_int_que_done, 0, DPMAIF_CHECK_TIMEOUT_US); if (ret) dev_err(hw_info->dev, "Could not unmask the UL interrupt. DPMAIF_AO_UL_AP_L2TIMR0 is 0x%x\n", value); } void t7xx_dpmaif_dl_unmask_batcnt_len_err_intr(struct dpmaif_hw_info *hw_info) { hw_info->isr_en_mask.ap_dl_l2intr_en_msk |= DP_DL_INT_BATCNT_LEN_ERR; iowrite32(DP_DL_INT_BATCNT_LEN_ERR, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMCR0) } void t7xx_dpmaif_dl_unmask_pitcnt_len_err_intr(struct dpmaif_hw_info *hw_info) { hw_info->isr_en_mask.ap_dl_l2intr_en_msk |= DP_DL_INT_PITCNT_LEN_ERR; iowrite32(DP_DL_INT_PITCNT_LEN_ERR, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMCR0) } static u32 t7xx_update_dlq_intr(struct dpmaif_hw_info *hw_info, u32 q_done) { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMR0); iowrite32(q_done, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); return value; } static int t7xx_mask_dlq_intr(struct dpmaif_hw_info *hw_info, unsigned int qno) { u32 value, q_done; int ret; q_done = qno == DPF_RX_QNO0 ? DPMAIF_DL_INT_DLQ0_QDONE : DPMAIF_DL_INT_DLQ1_QDONE; iowrite32(q_done, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); ret = read_poll_timeout_atomic(t7xx_update_dlq_intr, value, value & q_done, 0, DPMAIF_CHECK_TIMEOUT_US, false, hw_info, q_done); if (ret) { dev_err(hw_info->dev, "Could not mask the DL interrupt. DPMAIF_AO_UL_AP_L2TIMR0 is 0x%x\n", value); return -ETIMEDOUT; } hw_info->isr_en_mask.ap_dl_l2intr_en_msk &= ~q_done; return 0; } void t7xx_dpmaif_dlq_unmask_rx_done(struct dpmaif_hw_info *hw_info, unsigned int qno) { u32 mask; mask = qno == DPF_RX_QNO0 ? DPMAIF_DL_INT_DLQ0_QDONE : DPMAIF_DL_INT_DLQ1_QDONE; iowrite32(mask, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMCR0); hw_info->isr_en_mask.ap_dl_l2intr_en_msk |= mask; } void t7xx_dpmaif_clr_ip_busy_sts(struct dpmaif_hw_info *hw_info) { u32 ip_busy_sts; ip_busy_sts = ioread32(hw_info->pcie_base + DPMAIF_AP_IP_BUSY); iowrite32(ip_busy_sts, hw_info->pcie_base + DPMAIF_AP_IP_BUSY); } static void t7xx_dpmaif_dlq_mask_rx_pitcnt_len_err_intr(struct dpmaif_hw_info *hw_in unsigned int qno) { if (qno == DPF_RX_QNO0) iowrite32(DPMAIF_DL_INT_DLQ0_PITCNT_LEN, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); else iowrite32(DPMAIF_DL_INT_DLQ1_PITCNT_LEN, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); } void t7xx_dpmaif_dlq_unmask_pitcnt_len_err_intr(struct dpmaif_hw_info *hw_info, unsigned int qno) { if (qno == DPF_RX_QNO0) iowrite32(DPMAIF_DL_INT_DLQ0_PITCNT_LEN, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMCR0); else iowrite32(DPMAIF_DL_INT_DLQ1_PITCNT_LEN, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMCR0); } void t7xx_dpmaif_ul_clr_all_intr(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_AP_ALL_L2TISAR0_MASK, hw_info->pcie_base + DPMAIF_AP_L2TISAR0); } void t7xx_dpmaif_dl_clr_all_intr(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_AP_APDL_ALL_L2TISAR0_MASK, hw_info->pcie_base + DPMAIF_AP_APDL_L2TI } static void t7xx_dpmaif_set_intr_para(struct dpmaif_hw_intr_st_para *para, enum dpmaif_hw_intr_type intr_type, unsigned int intr_queue) { para->intr_types[para->intr_cnt] = intr_type; para->intr_queues[para->intr_cnt] = intr_queue; para->intr_cnt++; } /* The para->intr_cnt counter is set to zero before this function is called. * It does not check for overflow as there is no risk of overflowing intr_types or intr_queues. */ static void t7xx_dpmaif_hw_check_tx_intr(struct dpmaif_hw_info *hw_info, unsigned int intr_status, struct dpmaif_hw_intr_st_para *para) { unsigned long value; value = FIELD_GET(DP_UL_INT_QDONE_MSK, intr_status); if (value) { unsigned int index; t7xx_dpmaif_set_intr_para(para, DPF_INTR_UL_DONE, value); for_each_set_bit(index, &value, DPMAIF_TXQ_NUM) t7xx_dpmaif_mask_ulq_intr(hw_info, index); } value = FIELD_GET(DP_UL_INT_EMPTY_MSK, intr_status); if (value) t7xx_dpmaif_set_intr_para(para, DPF_INTR_UL_DRB_EMPTY, value); value = FIELD_GET(DP_UL_INT_MD_NOTREADY_MSK, intr_status); if (value) t7xx_dpmaif_set_intr_para(para, DPF_INTR_UL_MD_NOTREADY, value); value = FIELD_GET(DP_UL_INT_MD_PWR_NOTREADY_MSK, intr_status); if (value) t7xx_dpmaif_set_intr_para(para, DPF_INTR_UL_MD_PWR_NOTREADY, value); value = FIELD_GET(DP_UL_INT_ERR_MSK, intr_status); if (value) t7xx_dpmaif_set_intr_para(para, DPF_INTR_UL_LEN_ERR, value); /* Clear interrupt status */ iowrite32(intr_status, hw_info->pcie_base + DPMAIF_AP_L2TISAR0); } /* The para->intr_cnt counter is set to zero before this function is called. * It does not check for overflow as there is no risk of overflowing intr_types or intr_queues. */ static void t7xx_dpmaif_hw_check_rx_intr(struct dpmaif_hw_info *hw_info, unsigned int intr_status, struct dpmaif_hw_intr_st_para *para, int qno) { if (qno == DPF_RX_QNO_DFT) { if (intr_status & DP_DL_INT_SKB_LEN_ERR) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_SKB_LEN_ERR, DPF_RX_QNO_DFT); if (intr_status & DP_DL_INT_BATCNT_LEN_ERR) { t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_BATCNT_LEN_ERR, DPF_RX_QNO_DFT); hw_info->isr_en_mask.ap_dl_l2intr_en_msk &= ~DP_DL_INT_BATCNT_LEN_ERR; iowrite32(DP_DL_INT_BATCNT_LEN_ERR, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); } if (intr_status & DP_DL_INT_PITCNT_LEN_ERR) { t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_PITCNT_LEN_ERR, DPF_RX_QNO_DFT); hw_info->isr_en_mask.ap_dl_l2intr_en_msk &= ~DP_DL_INT_PITCNT_LEN_ERR; iowrite32(DP_DL_INT_PITCNT_LEN_ERR, hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMSR0); } if (intr_status & DP_DL_INT_PKT_EMPTY_MSK) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_PKT_EMPTY_SET, DPF_RX_QNO_DFT); if (intr_status & DP_DL_INT_FRG_EMPTY_MSK) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_FRG_EMPTY_SET, DPF_RX_QNO_DFT); if (intr_status & DP_DL_INT_MTU_ERR_MSK) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_MTU_ERR, DPF_RX_QNO_DFT); if (intr_status & DP_DL_INT_FRG_LEN_ERR_MSK) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_FRGCNT_LEN_ERR, DPF_RX_QNO_DFT); if (intr_status & DP_DL_INT_Q0_PITCNT_LEN_ERR) { t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_Q0_PITCNT_LEN_ERR, BIT(qno)); t7xx_dpmaif_dlq_mask_rx_pitcnt_len_err_intr(hw_info, qno); } if (intr_status & DP_DL_INT_HPC_ENT_TYPE_ERR) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_HPC_ENT_TYPE_ERR, DPF_RX_QNO_DFT); if (intr_status & DP_DL_INT_Q0_DONE) { /* Mask RX done interrupt immediately after it occurs, do not clear * the interrupt if the mask operation fails. */ if (!t7xx_mask_dlq_intr(hw_info, qno)) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_Q0_DONE, BIT(qno)); else intr_status &= ~DP_DL_INT_Q0_DONE; } } else { if (intr_status & DP_DL_INT_Q1_PITCNT_LEN_ERR) { t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_Q1_PITCNT_LEN_ERR, BIT(qno)); t7xx_dpmaif_dlq_mask_rx_pitcnt_len_err_intr(hw_info, qno); } if (intr_status & DP_DL_INT_Q1_DONE) { if (!t7xx_mask_dlq_intr(hw_info, qno)) t7xx_dpmaif_set_intr_para(para, DPF_INTR_DL_Q1_DONE, BIT(qno)); else intr_status &= ~DP_DL_INT_Q1_DONE; } } intr_status |= DP_DL_INT_BATCNT_LEN_ERR; /* Clear interrupt status */ iowrite32(intr_status, hw_info->pcie_base + DPMAIF_AP_APDL_L2TISAR0); } /** * t7xx_dpmaif_hw_get_intr_cnt() - Reads interrupt status and count from HW. * @hw_info: Pointer to struct hw_info. * @para: Pointer to struct dpmaif_hw_intr_st_para. * @qno: Queue number. * * Reads RX/TX interrupt status from HW and clears UL/DL status as needed. * * Return: Interrupt count. */ int t7xx_dpmaif_hw_get_intr_cnt(struct dpmaif_hw_info *hw_info, struct dpmaif_hw_intr_st_para *para, int qno) { u32 rx_intr_status, tx_intr_status = 0; u32 rx_intr_qdone, tx_intr_qdone = 0; rx_intr_status = ioread32(hw_info->pcie_base + DPMAIF_AP_APDL_L2TISAR0); rx_intr_qdone = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_APDL_L2TIMR0); /* TX interrupt status */ if (qno == DPF_RX_QNO_DFT) { /* All ULQ and DLQ0 interrupts use the same source no need to check ULQ interrupts * when a DLQ1 interrupt has occurred. */ tx_intr_status = ioread32(hw_info->pcie_base + DPMAIF_AP_L2TISAR0); tx_intr_qdone = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_AP_L2TIMR0); } t7xx_dpmaif_clr_ip_busy_sts(hw_info); if (qno == DPF_RX_QNO_DFT) { /* Do not schedule bottom half again or clear UL interrupt status when we * have already masked it. */ tx_intr_status &= ~tx_intr_qdone; if (tx_intr_status) t7xx_dpmaif_hw_check_tx_intr(hw_info, tx_intr_status, para); } if (rx_intr_status) { if (qno == DPF_RX_QNO0) { rx_intr_status &= DP_DL_Q0_STATUS_MASK; if (rx_intr_qdone & DPMAIF_DL_INT_DLQ0_QDONE) /* Do not schedule bottom half again or clear DL * queue done interrupt status when we have already masked it. */ rx_intr_status &= ~DP_DL_INT_Q0_DONE; } else { rx_intr_status &= DP_DL_Q1_STATUS_MASK; if (rx_intr_qdone & DPMAIF_DL_INT_DLQ1_QDONE) rx_intr_status &= ~DP_DL_INT_Q1_DONE; } if (rx_intr_status) t7xx_dpmaif_hw_check_rx_intr(hw_info, rx_intr_status, para, qno); } return para->intr_cnt; } static int t7xx_dpmaif_sram_init(struct dpmaif_hw_info *hw_info) { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AP_MEM_CLR); value |= DPMAIF_MEM_CLR; iowrite32(value, hw_info->pcie_base + DPMAIF_AP_MEM_CLR); return ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_AP_MEM_CLR, value, !(value & DPMAIF_MEM_CLR), 0, DPMAIF_CHECK_INIT_TIMEOUT_US); } static void t7xx_dpmaif_hw_reset(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_AP_AO_RST_BIT, hw_info->pcie_base + DPMAIF_AP_AO_RGU_ASSERT); udelay(2); iowrite32(DPMAIF_AP_RST_BIT, hw_info->pcie_base + DPMAIF_AP_RGU_ASSERT); udelay(2); iowrite32(DPMAIF_AP_AO_RST_BIT, hw_info->pcie_base + DPMAIF_AP_AO_RGU_DEASSERT); udelay(2); iowrite32(DPMAIF_AP_RST_BIT, hw_info->pcie_base + DPMAIF_AP_RGU_DEASSERT); udelay(2); } static int t7xx_dpmaif_hw_config(struct dpmaif_hw_info *hw_info) { u32 ap_port_mode; int ret; t7xx_dpmaif_hw_reset(hw_info); ret = t7xx_dpmaif_sram_init(hw_info); if (ret) return ret; ap_port_mode = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); ap_port_mode |= DPMAIF_PORT_MODE_PCIE; iowrite32(ap_port_mode, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); iowrite32(DPMAIF_CG_EN, hw_info->pcie_base + DPMAIF_AP_CG_EN); return 0; } static void t7xx_dpmaif_pcie_dpmaif_sign(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_PCIE_MODE_SET_VALUE, hw_info->pcie_base + DPMAIF_UL_RESERVE_AO_RW); } static void t7xx_dpmaif_dl_performance(struct dpmaif_hw_info *hw_info) { u32 enable_bat_cache, enable_pit_burst; enable_bat_cache = ioread32(hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); enable_bat_cache |= DPMAIF_DL_BAT_CACHE_PRI; iowrite32(enable_bat_cache, hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); enable_pit_burst = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); enable_pit_burst |= DPMAIF_DL_BURST_PIT_EN; iowrite32(enable_pit_burst, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); } /* DPMAIF DL DLQ part HW setting */ static void t7xx_dpmaif_hw_hpc_cntl_set(struct dpmaif_hw_info *hw_info) { unsigned int value; value = DPMAIF_HPC_DLQ_PATH_MODE | DPMAIF_HPC_ADD_MODE_DF << 2; value |= DPMAIF_HASH_PRIME_DF << 4; value |= DPMAIF_HPC_TOTAL_NUM << 8; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_HPC_CNTL); } static void t7xx_dpmaif_hw_agg_cfg_set(struct dpmaif_hw_info *hw_info) { unsigned int value; value = DPMAIF_AGG_MAX_LEN_DF | DPMAIF_AGG_TBL_ENT_NUM_DF << 16; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_DLQ_AGG_CFG); } static void t7xx_dpmaif_hw_hash_bit_choose_set(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_DLQ_HASH_BIT_CHOOSE_DF, hw_info->pcie_base + DPMAIF_AO_DL_DLQPIT_INIT_CON5); } static void t7xx_dpmaif_hw_mid_pit_timeout_thres_set(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_MID_TIMEOUT_THRES_DF, hw_info->pcie_base + DPMAIF_AO_DL_DLQPIT_TIME } static void t7xx_dpmaif_hw_dlq_timeout_thres_set(struct dpmaif_hw_info *hw_info) { unsigned int value, i; /* Each register holds two DLQ threshold timeout values */ for (i = 0; i < DPMAIF_HPC_MAX_TOTAL_NUM / 2; i++) { value = FIELD_PREP(DPMAIF_DLQ_LOW_TIMEOUT_THRES_MKS, DPMAIF_DLQ_TIMEOUT_THRES_DF); value |= FIELD_PREP(DPMAIF_DLQ_HIGH_TIMEOUT_THRES_MSK, DPMAIF_DLQ_TIMEOUT_THRES_DF); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_DLQPIT_TIMEOUT1 + sizeof(u32) * i); } } static void t7xx_dpmaif_hw_dlq_start_prs_thres_set(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_DLQ_PRS_THRES_DF, hw_info->pcie_base + DPMAIF_AO_DL_DLQPIT_TRIG_THR } static void t7xx_dpmaif_dl_dlq_hpc_hw_init(struct dpmaif_hw_info *hw_info) { t7xx_dpmaif_hw_hpc_cntl_set(hw_info); t7xx_dpmaif_hw_agg_cfg_set(hw_info); t7xx_dpmaif_hw_hash_bit_choose_set(hw_info); t7xx_dpmaif_hw_mid_pit_timeout_thres_set(hw_info); t7xx_dpmaif_hw_dlq_timeout_thres_set(hw_info); t7xx_dpmaif_hw_dlq_start_prs_thres_set(hw_info); } static int t7xx_dpmaif_dl_bat_init_done(struct dpmaif_hw_info *hw_info, bool frg_en) { u32 value, dl_bat_init = 0; int ret; if (frg_en) dl_bat_init = DPMAIF_DL_BAT_FRG_INIT; dl_bat_init |= DPMAIF_DL_BAT_INIT_ALLSET; dl_bat_init |= DPMAIF_DL_BAT_INIT_EN; ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_BAT_INIT, value, !(value & DPMAIF_DL_BAT_INIT_NOT_READY), 0, DPMAIF_CHECK_INIT_TIMEOUT_US); if (ret) { dev_err(hw_info->dev, "Data plane modem DL BAT is not ready\n"); return ret; } iowrite32(dl_bat_init, hw_info->pcie_base + DPMAIF_DL_BAT_INIT); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_BAT_INIT, value, !(value & DPMAIF_DL_BAT_INIT_NOT_READY), 0, DPMAIF_CHECK_INIT_TIMEOUT_US); if (ret) dev_err(hw_info->dev, "Data plane modem DL BAT initialization failed\n"); return ret; } static void t7xx_dpmaif_dl_set_bat_base_addr(struct dpmaif_hw_info *hw_info, dma_addr_t addr) { iowrite32(lower_32_bits(addr), hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON0); iowrite32(upper_32_bits(addr), hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON3); } static void t7xx_dpmaif_dl_set_bat_size(struct dpmaif_hw_info *hw_info, unsigned int si { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); value &= ~DPMAIF_BAT_SIZE_MSK; value |= size & DPMAIF_BAT_SIZE_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); } static void t7xx_dpmaif_dl_bat_en(struct dpmaif_hw_info *hw_info, bool enable) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); if (enable) value |= DPMAIF_BAT_EN_MSK; else value &= ~DPMAIF_BAT_EN_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); } static void t7xx_dpmaif_dl_set_ao_bid_maxcnt(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON0); value &= ~DPMAIF_BAT_BID_MAXCNT_MSK; value |= FIELD_PREP(DPMAIF_BAT_BID_MAXCNT_MSK, DPMAIF_HW_PKT_BIDCNT); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON0); } static void t7xx_dpmaif_dl_set_ao_mtu(struct dpmaif_hw_info *hw_info) { iowrite32(DPMAIF_HW_MTU_SIZE, hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON1); } static void t7xx_dpmaif_dl_set_ao_pit_chknum(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON2); value &= ~DPMAIF_PIT_CHK_NUM_MSK; value |= FIELD_PREP(DPMAIF_PIT_CHK_NUM_MSK, DPMAIF_HW_CHK_PIT_NUM); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON2); } static void t7xx_dpmaif_dl_set_ao_remain_minsz(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON0); value &= ~DPMAIF_BAT_REMAIN_MINSZ_MSK; value |= FIELD_PREP(DPMAIF_BAT_REMAIN_MINSZ_MSK, DPMAIF_HW_BAT_REMAIN / DPMAIF_BAT_REMAIN_SZ_BASE); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON0); } static void t7xx_dpmaif_dl_set_ao_bat_bufsz(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON2); value &= ~DPMAIF_BAT_BUF_SZ_MSK; value |= FIELD_PREP(DPMAIF_BAT_BUF_SZ_MSK, DPMAIF_HW_BAT_PKTBUF / DPMAIF_BAT_BUFFER_SZ_BASE); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON2); } static void t7xx_dpmaif_dl_set_ao_bat_rsv_length(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON2); value &= ~DPMAIF_BAT_RSV_LEN_MSK; value |= DPMAIF_HW_BAT_RSVLEN; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_PKTINFO_CON2); } static void t7xx_dpmaif_dl_set_pkt_alignment(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); value &= ~DPMAIF_PKT_ALIGN_MSK; value |= DPMAIF_PKT_ALIGN_EN; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); } static void t7xx_dpmaif_dl_set_pkt_checksum(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); value |= DPMAIF_DL_PKT_CHECKSUM_EN; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); } static void t7xx_dpmaif_dl_set_ao_frg_check_thres(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_FRG_THRES); value &= ~DPMAIF_FRG_CHECK_THRES_MSK; value |= DPMAIF_HW_CHK_FRG_NUM; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_FRG_THRES); } static void t7xx_dpmaif_dl_set_ao_frg_bufsz(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_FRG_THRES); value &= ~DPMAIF_FRG_BUF_SZ_MSK; value |= FIELD_PREP(DPMAIF_FRG_BUF_SZ_MSK, DPMAIF_HW_FRG_PKTBUF / DPMAIF_FRG_BUFFER_SZ_BASE); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_FRG_THRES); } static void t7xx_dpmaif_dl_frg_ao_en(struct dpmaif_hw_info *hw_info, bool enable) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_FRG_THRES); if (enable) value |= DPMAIF_FRG_EN_MSK; else value &= ~DPMAIF_FRG_EN_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_FRG_THRES); } static void t7xx_dpmaif_dl_set_ao_bat_check_thres(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); value &= ~DPMAIF_BAT_CHECK_THRES_MSK; value |= FIELD_PREP(DPMAIF_BAT_CHECK_THRES_MSK, DPMAIF_HW_CHK_BAT_NUM); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_RDY_CHK_THRES); } static void t7xx_dpmaif_dl_set_pit_seqnum(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PIT_SEQ_END); value &= ~DPMAIF_DL_PIT_SEQ_MSK; value |= DPMAIF_DL_PIT_SEQ_VALUE; iowrite32(value, hw_info->pcie_base + DPMAIF_AO_DL_PIT_SEQ_END); } static void t7xx_dpmaif_dl_set_dlq_pit_base_addr(struct dpmaif_hw_info *hw_info, dma_addr_t addr) { iowrite32(lower_32_bits(addr), hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON0); iowrite32(upper_32_bits(addr), hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON4); } static void t7xx_dpmaif_dl_set_dlq_pit_size(struct dpmaif_hw_info *hw_info, unsigned i { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON1); value &= ~DPMAIF_PIT_SIZE_MSK; value |= size & DPMAIF_PIT_SIZE_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON1); iowrite32(0, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON2); iowrite32(0, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON3); iowrite32(0, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON5); iowrite32(0, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON6); } static void t7xx_dpmaif_dl_dlq_pit_en(struct dpmaif_hw_info *hw_info) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON3); value |= DPMAIF_DLQPIT_EN_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT_CON3); } static void t7xx_dpmaif_dl_dlq_pit_init_done(struct dpmaif_hw_info *hw_info, unsigned int pit_idx) { unsigned int dl_pit_init; int timeout; u32 value; dl_pit_init = DPMAIF_DL_PIT_INIT_ALLSET; dl_pit_init |= (pit_idx << DPMAIF_DLQPIT_CHAN_OFS); dl_pit_init |= DPMAIF_DL_PIT_INIT_EN; timeout = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT, value, !(value & DPMAIF_DL_PIT_INIT_NOT_READY), DPMAIF_CHECK_DELAY_US, DPMAIF_CHECK_INIT_TIMEOUT_US); if (timeout) { dev_err(hw_info->dev, "Data plane modem DL PIT is not ready\n"); return; } iowrite32(dl_pit_init, hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT); timeout = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_DLQPIT_INIT, value, !(value & DPMAIF_DL_PIT_INIT_NOT_READY), DPMAIF_CHECK_DELAY_US, DPMAIF_CHECK_INIT_TIMEOUT_US); if (timeout) dev_err(hw_info->dev, "Data plane modem DL PIT initialization failed\n"); } static void t7xx_dpmaif_config_dlq_pit_hw(struct dpmaif_hw_info *hw_info, unsigned int struct dpmaif_dl *dl_que) { t7xx_dpmaif_dl_set_dlq_pit_base_addr(hw_info, dl_que->pit_base); t7xx_dpmaif_dl_set_dlq_pit_size(hw_info, dl_que->pit_size_cnt); t7xx_dpmaif_dl_dlq_pit_en(hw_info); t7xx_dpmaif_dl_dlq_pit_init_done(hw_info, q_num); } static void t7xx_dpmaif_config_all_dlq_hw(struct dpmaif_hw_info *hw_info) { int i; for (i = 0; i < DPMAIF_RXQ_NUM; i++) t7xx_dpmaif_config_dlq_pit_hw(hw_info, i, &hw_info->dl_que[i]); } static void t7xx_dpmaif_dl_all_q_en(struct dpmaif_hw_info *hw_info, bool enable) { u32 dl_bat_init, value; int timeout; value = ioread32(hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); if (enable) value |= DPMAIF_BAT_EN_MSK; else value &= ~DPMAIF_BAT_EN_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_BAT_INIT_CON1); dl_bat_init = DPMAIF_DL_BAT_INIT_ONLY_ENABLE_BIT; dl_bat_init |= DPMAIF_DL_BAT_INIT_EN; timeout = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_BAT_INIT, value, !(value & DPMAIF_DL_BAT_INIT_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); if (timeout) dev_err(hw_info->dev, "Timeout updating BAT setting to HW\n"); iowrite32(dl_bat_init, hw_info->pcie_base + DPMAIF_DL_BAT_INIT); timeout = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_BAT_INIT, value, !(value & DPMAIF_DL_BAT_INIT_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); if (timeout) dev_err(hw_info->dev, "Data plane modem DL BAT is not ready\n"); } static int t7xx_dpmaif_config_dlq_hw(struct dpmaif_hw_info *hw_info) { struct dpmaif_dl *dl_que; int ret; t7xx_dpmaif_dl_dlq_hpc_hw_init(hw_info); dl_que = &hw_info->dl_que[0]; /* All queues share one BAT/frag BAT table */ if (!dl_que->que_started) return -EBUSY; t7xx_dpmaif_dl_set_ao_remain_minsz(hw_info); t7xx_dpmaif_dl_set_ao_bat_bufsz(hw_info); t7xx_dpmaif_dl_set_ao_frg_bufsz(hw_info); t7xx_dpmaif_dl_set_ao_bat_rsv_length(hw_info); t7xx_dpmaif_dl_set_ao_bid_maxcnt(hw_info); t7xx_dpmaif_dl_set_pkt_alignment(hw_info); t7xx_dpmaif_dl_set_pit_seqnum(hw_info); t7xx_dpmaif_dl_set_ao_mtu(hw_info); t7xx_dpmaif_dl_set_ao_pit_chknum(hw_info); t7xx_dpmaif_dl_set_ao_bat_check_thres(hw_info); t7xx_dpmaif_dl_set_ao_frg_check_thres(hw_info); t7xx_dpmaif_dl_frg_ao_en(hw_info, true); t7xx_dpmaif_dl_set_bat_base_addr(hw_info, dl_que->frg_base); t7xx_dpmaif_dl_set_bat_size(hw_info, dl_que->frg_size_cnt); t7xx_dpmaif_dl_bat_en(hw_info, true); ret = t7xx_dpmaif_dl_bat_init_done(hw_info, true); if (ret) return ret; t7xx_dpmaif_dl_set_bat_base_addr(hw_info, dl_que->bat_base); t7xx_dpmaif_dl_set_bat_size(hw_info, dl_que->bat_size_cnt); t7xx_dpmaif_dl_bat_en(hw_info, false); ret = t7xx_dpmaif_dl_bat_init_done(hw_info, false); if (ret) return ret; /* Init PIT (two PIT table) */ t7xx_dpmaif_config_all_dlq_hw(hw_info); t7xx_dpmaif_dl_all_q_en(hw_info, true); t7xx_dpmaif_dl_set_pkt_checksum(hw_info); return 0; } static void t7xx_dpmaif_ul_update_drb_size(struct dpmaif_hw_info *hw_info, unsigned int q_num, unsigned int size) { unsigned int value; value = ioread32(hw_info->pcie_base + DPMAIF_UL_DRBSIZE_ADDRH_n(q_num)); value &= ~DPMAIF_DRB_SIZE_MSK; value |= size & DPMAIF_DRB_SIZE_MSK; iowrite32(value, hw_info->pcie_base + DPMAIF_UL_DRBSIZE_ADDRH_n(q_num)); } static void t7xx_dpmaif_ul_update_drb_base_addr(struct dpmaif_hw_info *hw_info, unsigned int q_num, dma_addr_t addr) { iowrite32(lower_32_bits(addr), hw_info->pcie_base + DPMAIF_ULQSAR_n(q_num)); iowrite32(upper_32_bits(addr), hw_info->pcie_base + DPMAIF_UL_DRB_ADDRH_n(q_num)); } static void t7xx_dpmaif_ul_rdy_en(struct dpmaif_hw_info *hw_info, unsigned int q_num, bool ready) { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_CHNL_ARB0); if (ready) value |= BIT(q_num); else value &= ~BIT(q_num); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_UL_CHNL_ARB0); } static void t7xx_dpmaif_ul_arb_en(struct dpmaif_hw_info *hw_info, unsigned int q_num, bool enable) { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_CHNL_ARB0); if (enable) value |= BIT(q_num + 8); else value &= ~BIT(q_num + 8); iowrite32(value, hw_info->pcie_base + DPMAIF_AO_UL_CHNL_ARB0); } static void t7xx_dpmaif_config_ulq_hw(struct dpmaif_hw_info *hw_info) { struct dpmaif_ul *ul_que; int i; for (i = 0; i < DPMAIF_TXQ_NUM; i++) { ul_que = &hw_info->ul_que[i]; if (ul_que->que_started) { t7xx_dpmaif_ul_update_drb_size(hw_info, i, ul_que->drb_size_cnt * DPMAIF_UL_DRB_SIZE_WORD); t7xx_dpmaif_ul_update_drb_base_addr(hw_info, i, ul_que->drb_base); t7xx_dpmaif_ul_rdy_en(hw_info, i, true); t7xx_dpmaif_ul_arb_en(hw_info, i, true); } else { t7xx_dpmaif_ul_arb_en(hw_info, i, false); } } } static int t7xx_dpmaif_hw_init_done(struct dpmaif_hw_info *hw_info) { u32 ap_cfg; int ret; ap_cfg = ioread32(hw_info->pcie_base + DPMAIF_AP_OVERWRITE_CFG); ap_cfg |= DPMAIF_SRAM_SYNC; iowrite32(ap_cfg, hw_info->pcie_base + DPMAIF_AP_OVERWRITE_CFG); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_AP_OVERWRITE_CFG, ap_cfg, !(ap_cfg & DPMAIF_SRAM_SYNC), 0, DPMAIF_CHECK_TIMEOUT_US); if (ret) return ret; iowrite32(DPMAIF_UL_INIT_DONE, hw_info->pcie_base + DPMAIF_AO_UL_INIT_SET); iowrite32(DPMAIF_DL_INIT_DONE, hw_info->pcie_base + DPMAIF_AO_DL_INIT_SET); return 0; } static bool t7xx_dpmaif_dl_idle_check(struct dpmaif_hw_info *hw_info) { u32 dpmaif_dl_is_busy = ioread32(hw_info->pcie_base + DPMAIF_DL_CHK_BUSY); return !(dpmaif_dl_is_busy & DPMAIF_DL_IDLE_STS); } static void t7xx_dpmaif_ul_all_q_en(struct dpmaif_hw_info *hw_info, bool enable) { u32 ul_arb_en = ioread32(hw_info->pcie_base + DPMAIF_AO_UL_CHNL_ARB0); if (enable) ul_arb_en |= DPMAIF_UL_ALL_QUE_ARB_EN; else ul_arb_en &= ~DPMAIF_UL_ALL_QUE_ARB_EN; iowrite32(ul_arb_en, hw_info->pcie_base + DPMAIF_AO_UL_CHNL_ARB0); } static bool t7xx_dpmaif_ul_idle_check(struct dpmaif_hw_info *hw_info) { u32 dpmaif_ul_is_busy = ioread32(hw_info->pcie_base + DPMAIF_UL_CHK_BUSY); return !(dpmaif_ul_is_busy & DPMAIF_UL_IDLE_STS); } void t7xx_dpmaif_ul_update_hw_drb_cnt(struct dpmaif_hw_info *hw_info, unsigned int q_n unsigned int drb_entry_cnt) { u32 ul_update, value; int err; ul_update = drb_entry_cnt & DPMAIF_UL_ADD_COUNT_MASK; ul_update |= DPMAIF_UL_ADD_UPDATE; err = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_ULQ_ADD_DESC_CH_n(q_nu value, !(value & DPMAIF_UL_ADD_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); if (err) { dev_err(hw_info->dev, "UL add is not ready\n"); return; } iowrite32(ul_update, hw_info->pcie_base + DPMAIF_ULQ_ADD_DESC_CH_n(q_num)); err = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_ULQ_ADD_DESC_CH_n(q_nu value, !(value & DPMAIF_UL_ADD_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); if (err) dev_err(hw_info->dev, "Timeout updating UL add\n"); } unsigned int t7xx_dpmaif_ul_get_rd_idx(struct dpmaif_hw_info *hw_info, unsigned int q_n { unsigned int value = ioread32(hw_info->pcie_base + DPMAIF_ULQ_STA0_n(q_num)); return FIELD_GET(DPMAIF_UL_DRB_RIDX_MSK, value) / DPMAIF_UL_DRB_SIZE_WORD; } int t7xx_dpmaif_dlq_add_pit_remain_cnt(struct dpmaif_hw_info *hw_info, unsigned int dl unsigned int pit_remain_cnt) { u32 dl_update, value; int ret; dl_update = pit_remain_cnt & DPMAIF_PIT_REM_CNT_MSK; dl_update |= DPMAIF_DL_ADD_UPDATE | (dlq_pit_idx << DPMAIF_ADD_DLQ_PIT_CHAN_OFS); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_DLQPIT_ADD, value, !(value & DPMAIF_DL_ADD_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); if (ret) { dev_err(hw_info->dev, "Data plane modem is not ready to add dlq\n"); return ret; } iowrite32(dl_update, hw_info->pcie_base + DPMAIF_DL_DLQPIT_ADD); ret = ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_DLQPIT_ADD, value, !(value & DPMAIF_DL_ADD_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); if (ret) { dev_err(hw_info->dev, "Data plane modem add dlq failed\n"); return ret; } return 0; } unsigned int t7xx_dpmaif_dl_dlq_pit_get_wr_idx(struct dpmaif_hw_info *hw_info, unsigned int dlq_pit_idx) { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_DLQ_WR_IDX + dlq_pit_idx * DLQ_PIT_IDX_SIZE); return value & DPMAIF_DL_RD_WR_IDX_MSK; } static int t7xx_dl_add_timedout(struct dpmaif_hw_info *hw_info) { u32 value; return ioread32_poll_timeout_atomic(hw_info->pcie_base + DPMAIF_DL_BAT_ADD, value, !(value & DPMAIF_DL_ADD_NOT_READY), 0, DPMAIF_CHECK_TIMEOUT_US); } int t7xx_dpmaif_dl_snd_hw_bat_cnt(struct dpmaif_hw_info *hw_info, unsigned int bat_ent { unsigned int value; if (t7xx_dl_add_timedout(hw_info)) { dev_err(hw_info->dev, "DL add BAT not ready\n"); return -EBUSY; } value = bat_entry_cnt & DPMAIF_DL_ADD_COUNT_MASK; value |= DPMAIF_DL_ADD_UPDATE; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_BAT_ADD); if (t7xx_dl_add_timedout(hw_info)) { dev_err(hw_info->dev, "DL add BAT timeout\n"); return -EBUSY; } return 0; } unsigned int t7xx_dpmaif_dl_get_bat_rd_idx(struct dpmaif_hw_info *hw_info, unsigned in { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_BAT_RD_IDX); return value & DPMAIF_DL_RD_WR_IDX_MSK; } unsigned int t7xx_dpmaif_dl_get_bat_wr_idx(struct dpmaif_hw_info *hw_info, unsigned in { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_BAT_WR_IDX); return value & DPMAIF_DL_RD_WR_IDX_MSK; } int t7xx_dpmaif_dl_snd_hw_frg_cnt(struct dpmaif_hw_info *hw_info, unsigned int frg_ent { unsigned int value; if (t7xx_dl_add_timedout(hw_info)) { dev_err(hw_info->dev, "Data plane modem is not ready to add frag DLQ\n"); return -EBUSY; } value = frg_entry_cnt & DPMAIF_DL_ADD_COUNT_MASK; value |= DPMAIF_DL_FRG_ADD_UPDATE | DPMAIF_DL_ADD_UPDATE; iowrite32(value, hw_info->pcie_base + DPMAIF_DL_BAT_ADD); if (t7xx_dl_add_timedout(hw_info)) { dev_err(hw_info->dev, "Data plane modem add frag DLQ failed"); return -EBUSY; } return 0; } unsigned int t7xx_dpmaif_dl_get_frg_rd_idx(struct dpmaif_hw_info *hw_info, unsigned in { u32 value; value = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_FRGBAT_RD_IDX); return value & DPMAIF_DL_RD_WR_IDX_MSK; } static void t7xx_dpmaif_set_queue_property(struct dpmaif_hw_info *hw_info, struct dpmaif_hw_params *init_para) { struct dpmaif_dl *dl_que; struct dpmaif_ul *ul_que; int i; for (i = 0; i < DPMAIF_RXQ_NUM; i++) { dl_que = &hw_info->dl_que[i]; dl_que->bat_base = init_para->pkt_bat_base_addr[i]; dl_que->bat_size_cnt = init_para->pkt_bat_size_cnt[i]; dl_que->pit_base = init_para->pit_base_addr[i]; dl_que->pit_size_cnt = init_para->pit_size_cnt[i]; dl_que->frg_base = init_para->frg_bat_base_addr[i]; dl_que->frg_size_cnt = init_para->frg_bat_size_cnt[i]; dl_que->que_started = true; } for (i = 0; i < DPMAIF_TXQ_NUM; i++) { ul_que = &hw_info->ul_que[i]; ul_que->drb_base = init_para->drb_base_addr[i]; ul_que->drb_size_cnt = init_para->drb_size_cnt[i]; ul_que->que_started = true; } } /** * t7xx_dpmaif_hw_stop_all_txq() - Stop all TX queues. * @hw_info: Pointer to struct hw_info. * * Disable HW UL queues. Checks busy UL queues to go to idle * with an attempt count of 1000000. * * Return: * * 0 - Success * * -ETIMEDOUT - Timed out checking busy queues */ int t7xx_dpmaif_hw_stop_all_txq(struct dpmaif_hw_info *hw_info) { int count = 0; t7xx_dpmaif_ul_all_q_en(hw_info, false); while (t7xx_dpmaif_ul_idle_check(hw_info)) { if (++count >= DPMAIF_MAX_CHECK_COUNT) { dev_err(hw_info->dev, "Failed to stop TX, status: 0x%x\n", ioread32(hw_info->pcie_base + DPMAIF_UL_CHK_BUSY)); return -ETIMEDOUT; } } return 0; } /** * t7xx_dpmaif_hw_stop_all_rxq() - Stop all RX queues. * @hw_info: Pointer to struct hw_info. * * Disable HW DL queue. Checks busy UL queues to go to idle * with an attempt count of 1000000. * Check that HW PIT write index equals read index with the same * attempt count. * * Return: * * 0 - Success. * * -ETIMEDOUT - Timed out checking busy queues. */ int t7xx_dpmaif_hw_stop_all_rxq(struct dpmaif_hw_info *hw_info) { unsigned int wr_idx, rd_idx; int count = 0; t7xx_dpmaif_dl_all_q_en(hw_info, false); while (t7xx_dpmaif_dl_idle_check(hw_info)) { if (++count >= DPMAIF_MAX_CHECK_COUNT) { dev_err(hw_info->dev, "Failed to stop RX, status: 0x%x\n", ioread32(hw_info->pcie_base + DPMAIF_DL_CHK_BUSY)); return -ETIMEDOUT; } } /* Check middle PIT sync done */ count = 0; do { wr_idx = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PIT_WR_IDX); wr_idx &= DPMAIF_DL_RD_WR_IDX_MSK; rd_idx = ioread32(hw_info->pcie_base + DPMAIF_AO_DL_PIT_RD_IDX); rd_idx &= DPMAIF_DL_RD_WR_IDX_MSK; if (wr_idx == rd_idx) return 0; } while (++count < DPMAIF_MAX_CHECK_COUNT); dev_err(hw_info->dev, "Check middle PIT sync fail\n"); return -ETIMEDOUT; } void t7xx_dpmaif_start_hw(struct dpmaif_hw_info *hw_info) { t7xx_dpmaif_ul_all_q_en(hw_info, true); t7xx_dpmaif_dl_all_q_en(hw_info, true); } /** * t7xx_dpmaif_hw_init() - Initialize HW data path API. * @hw_info: Pointer to struct hw_info. * @init_param: Pointer to struct dpmaif_hw_params. * * Configures port mode, clock config, HW interrupt initialization, and HW queue. * * Return: * * 0 - Success. * * -ERROR - Error code from failure sub-initializations. */ int t7xx_dpmaif_hw_init(struct dpmaif_hw_info *hw_info, struct dpmaif_hw_params *init_ { int ret; ret = t7xx_dpmaif_hw_config(hw_info); if (ret) { dev_err(hw_info->dev, "DPMAIF HW config failed\n"); return ret; } ret = t7xx_dpmaif_init_intr(hw_info); if (ret) { dev_err(hw_info->dev, "DPMAIF HW interrupts init failed\n"); return ret; } t7xx_dpmaif_set_queue_property(hw_info, init_param); t7xx_dpmaif_pcie_dpmaif_sign(hw_info); t7xx_dpmaif_dl_performance(hw_info); ret = t7xx_dpmaif_config_dlq_hw(hw_info); if (ret) { dev_err(hw_info->dev, "DPMAIF HW dlq config failed\n"); return ret; } t7xx_dpmaif_config_ulq_hw(hw_info); ret = t7xx_dpmaif_hw_init_done(hw_info); if (ret) dev_err(hw_info->dev, "DPMAIF HW queue init failed\n"); return ret; } bool t7xx_dpmaif_ul_clr_done(struct dpmaif_hw_info *hw_info, unsigned int qno) { u32 intr_status; intr_status = ioread32(hw_info->pcie_base + DPMAIF_AP_L2TISAR0); intr_status &= BIT(DP_UL_INT_DONE_OFFSET + qno); if (intr_status) { iowrite32(intr_status, hw_info->pcie_base + DPMAIF_AP_L2TISAR0); return true; } return false; }
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2026-04-07