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pigweed / third_party / github / zephyrproject-rtos / zephyr / b867f0e8a629880e9a1536c084d8f3785a42754b / . / drivers / dma / dma_iproc_pax.h
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/*
* Copyright 2020 Broadcom
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef DMA_IPROC_PAX
#define DMA_IPROC_PAX
/* Broadcom PAX-DMA RM register defines */
#define PAX_DMA_REG_ADDR(_base, _offs) ((_base) + (_offs))
#define PAX_DMA_RING_ADDR_OFFSET(_ring) (0x10000 * (_ring))
/* Per-Ring register offsets */
#define RING_VER 0x000
#define RING_BD_START_ADDR 0x004
#define RING_BD_READ_PTR 0x008
#define RING_BD_WRITE_PTR 0x00c
#define RING_BD_READ_PTR_DDR_LS 0x010
#define RING_BD_READ_PTR_DDR_MS 0x014
#define RING_CMPL_START_ADDR 0x018
#define RING_CMPL_WRITE_PTR 0x01c
#define RING_NUM_REQ_RECV_LS 0x020
#define RING_NUM_REQ_RECV_MS 0x024
#define RING_NUM_REQ_TRANS_LS 0x028
#define RING_NUM_REQ_TRANS_MS 0x02c
#define RING_NUM_REQ_OUTSTAND 0x030
#define RING_CONTROL 0x034
#define RING_FLUSH_DONE 0x038
#define RING_MSI_ADDR_LS 0x03c
#define RING_MSI_ADDR_MS 0x040
#define RING_CMPL_WR_PTR_DDR_CONTROL 0x048
#define RING_BD_READ_PTR_DDR_CONTROL 0x04c
#define RING_WRITE_SEQ_NUM 0x050
#define RING_READ_SEQ_NUM 0x054
#define RING_BD_MEM_WRITE_ADDRESS 0x058
#define RING_AXI_BEAT_CNT 0x05c
#define RING_AXI_BURST_CNT 0x060
#define RING_MSI_DATA_VALUE 0x064
#define RING_PACKET_ALIGNMENT_STATUS0 0x068
#define RING_PACKET_ALIGNMENT_STATUS1 0x06c
#define RING_PACKET_ALIGNMENT_STATUS2 0x070
#define RING_DOORBELL_BD_WRITE_COUNT 0x074
/* RING Manager Common Registers */
#define RM_COMM_CTRL_REG(_ring) (0x100 * (_ring))
#define RM_MSI_DEVID_REG(_ring) (0x100 * (_ring) + 0x4)
#define RM_AE0_AE_CONTROL 0x2000
#define RM_AE0_NUMBER_OF_PACKETS_RECEIVED_LS_BITS 0x2004
#define RM_AE0_NUMBER_OF_PACKETS_RECEIVED_MS_BITS 0x2008
#define RM_AE0_NUMBER_OF_PACKETS_TRANSMITTED_LS_BITS 0x200c
#define RM_AE0_NUMBER_OF_PACKETS_TRANSMITTED_MS_BITS 0x2010
#define RM_AE0_OUTSTANDING_PACKET 0x2014
#define RM_AE0_AE_FLUSH_STATUS 0x2018
#define RM_AE0_AE_FIFO_WRITE_POINTER 0x201c
#define RM_AE0_AE_FIFO_READ_POINTER 0x2020
#define RM_AE1_AE_CONTROL 0x2100
#define RM_AE1_NUMBER_OF_PACKETS_RECEIVED_LS_BITS 0x2104
#define RM_AE1_NUMBER_OF_PACKETS_RECEIVED_MS_BITS 0x2108
#define RM_AE1_NUMBER_OF_PACKETS_TRANSMITTED_LS_BITS 0x210c
#define RM_AE1_NUMBER_OF_PACKETS_TRANSMITTED_MS_BITS 0x2110
#define RM_AE1_OUTSTANDING_PACKET 0x2114
#define RM_AE1_AE_FLUSH_STATUS 0x2118
#define RM_AE1_AE_FIFO_WRITE_POINTER 0x211c
#define RM_AE1_AE_FIFO_READ_POINTER 0x2120
#define RM_COMM_RING_SECURITY_SETTING 0x3000
#define RM_COMM_CONTROL 0x3008
#define RM_COMM_TIMER_CONTROL_0 0x300c
#define RM_COMM_TIMER_CONTROL_1 0x3010
#define RM_COMM_BD_THRESHOLD 0x3014
#define RM_COMM_BURST_LENGTH 0x3018
#define RM_COMM_FIFO_FULL_THRESHOLD 0x301c
#define RM_COMM_MASK_SEQUENCE_MAX_COUNT 0x3020
#define RM_COMM_AE_TIMEOUT 0x3024
#define RM_COMM_RING_OR_AE_STATUS_LOG_ENABLE 0x3028
#define RM_COMM_RING_FLUSH_TIMEOUT 0x302c
#define RM_COMM_MEMORY_CONFIGURATION 0x3030
#define RM_COMM_AXI_CONTROL 0x3034
#define RM_COMM_GENERAL_MSI_DEVICE_ID 0x3038
#define RM_COMM_GENERAL_MSI_ADDRESS_LS 0x303c
#define RM_COMM_GENERAL_MSI_ADDRESS_MS 0x3040
#define RM_COMM_CONFIG_INTERRUPT_STATUS_MASK 0x3044
#define RM_COMM_CONFIG_INTERRUPT_STATUS_CLEAR 0x3048
#define RM_COMM_TOGGLE_INTERRUPT_STATUS_MASK 0x304c
#define RM_COMM_TOGGLE_INTERRUPT_STATUS_CLEAR 0x3050
#define RM_COMM_DDR_ADDR_GEN_INTERRUPT_STATUS_MASK 0x3054
#define RM_COMM_DDR_ADDR_GEN_INTERRUPT_STATUS_CLEAR 0x3058
#define RM_COMM_PACKET_ALIGNMENT_INTERRUPT_STATUS_MASK 0x305c
#define RM_COMM_PACKET_ALIGNMENT_INTERRUPT_STATUS_CLEAR 0x3060
#define RM_COMM_AE_INTERFACE_GROUP_0_INTERRUPT_MASK 0x3064
#define RM_COMM_AE_INTERFACE_GROUP_0_INTERRUPT_CLEAR 0x3068
#define RM_COMM_AE_INTERFACE_GROUP_1_INTERRUPT_MASK 0x306c
#define RM_COMM_AE_INTERFACE_GROUP_1_INTERRUPT_CLEAR 0x3070
#define RM_COMM_AE_INTERFACE_GROUP_2_INTERRUPT_MASK 0x3074
#define RM_COMM_AE_INTERFACE_GROUP_2_INTERRUPT_CLEAR 0x3078
#define RM_COMM_AE_INTERFACE_GROUP_3_INTERRUPT_MASK 0x307c
#define RM_COMM_AE_INTERFACE_GROUP_3_INTERRUPT_CLEAR 0x3080
#define RM_COMM_AE_INTERFACE_GROUP_4_INTERRUPT_MASK 0x3084
#define RM_COMM_AE_INTERFACE_GROUP_4_INTERRUPT_CLEAR 0x3088
#define RM_COMM_AE_INTERFACE_GROUP_5_INTERRUPT_MASK 0x308c
#define RM_COMM_AE_INTERFACE_GROUP_5_INTERRUPT_CLEAR 0x3090
#define RM_COMM_AE_INTERFACE_GROUP_6_INTERRUPT_MASK 0x3094
#define RM_COMM_AE_INTERFACE_GROUP_6_INTERRUPT_CLEAR 0x3098
#define RM_COMM_AE_INTERFACE_GROUP_7_INTERRUPT_MASK 0x309c
#define RM_COMM_AE_INTERFACE_GROUP_7_INTERRUPT_CLEAR 0x30a0
#define RM_COMM_AE_INTERFACE_TOP_INTERRUPT_STATUS_MASK 0x30a4
#define RM_COMM_AE_INTERFACE_TOP_INTERRUPT_STATUS_CLEAR 0x30a8
#define RM_COMM_REORDER_INTERRUPT_STATUS_MASK 0x30ac
#define RM_COMM_REORDER_INTERRUPT_STATUS_CLEAR 0x30b0
#define RM_COMM_DME_INTERRUPT_STATUS_MASK 0x30b4
#define RM_COMM_DME_INTERRUPT_STATUS_CLEAR 0x30b8
#define RM_COMM_REORDER_FIFO_PROG_THRESHOLD 0x30bc
#define RM_COMM_GROUP_PKT_EXTENSION_SUPPORT 0x30c0
#define RM_COMM_GENERAL_MSI_DATA_VALUE 0x30c4
#define RM_COMM_AXI_READ_BURST_THRESHOLD 0x30c8
#define RM_COMM_GROUP_RING_COUNT 0x30cc
#define RM_COMM_MSI_DISABLE 0x30d8
#define RM_COMM_RESERVE 0x30fc
#define RM_COMM_RING_FLUSH_STATUS 0x3100
#define RM_COMM_RING_SEQUENCE_NUMBER_OVERFLOW 0x3104
#define RM_COMM_AE_SEQUENCE_NUMBER_OVERFLOW 0x3108
#define RM_COMM_MAX_SEQUENCE_NUMBER_FOR_ANY_RING 0x310c
#define RM_COMM_MAX_SEQUENCE_NUMBER_ON_MONITOR_RING 0x3110
#define RM_COMM_MAX_SEQUENCE_NUMBER_ON_ANY_AE 0x3114
#define RM_COMM_MAX_SEQUENCE_NUMBER_ON_MONITOR_AE 0x3118
#define RM_COMM_MIN_MAX_LATENCY_MONITOR_RING_TOGGLE 0x311c
#define RM_COMM_MIN_MAX_LATENCY_MONITOR_RING_ADDRESSGEN 0x3120
#define RM_COMM_RING_ACTIVITY 0x3124
#define RM_COMM_AE_ACTIVITY 0x3128
#define RM_COMM_MAIN_HW_INIT_DONE 0x312c
#define RM_COMM_MEMORY_POWER_STATUS 0x3130
#define RM_COMM_CONFIG_STATUS_0 0x3134
#define RM_COMM_CONFIG_STATUS_1 0x3138
#define RM_COMM_TOGGLE_STATUS_0 0x313c
#define RM_COMM_TOGGLE_STATUS_1 0x3140
#define RM_COMM_DDR_ADDR_GEN_STATUS_0 0x3144
#define RM_COMM_DDR_ADDR_GEN_STATUS_1 0x3148
#define RM_COMM_PACKET_ALIGNMENT_STATUS_0 0x314c
#define RM_COMM_PACKET_ALIGNMENT_STATUS_1 0x3150
#define RM_COMM_PACKET_ALIGNMENT_STATUS_2 0x3154
#define RM_COMM_PACKET_ALIGNMENT_STATUS_3 0x3158
#define RM_COMM_AE_INTERFACE_GROUP_0_STATUS_0 0x315c
#define RM_COMM_AE_INTERFACE_GROUP_0_STATUS_1 0x3160
#define RM_COMM_AE_INTERFACE_GROUP_1_STATUS_0 0x3164
#define RM_COMM_AE_INTERFACE_GROUP_1_STATUS_1 0x3168
#define RM_COMM_AE_INTERFACE_GROUP_2_STATUS_0 0x316c
#define RM_COMM_AE_INTERFACE_GROUP_2_STATUS_1 0x3170
#define RM_COMM_AE_INTERFACE_GROUP_3_STATUS_0 0x3174
#define RM_COMM_AE_INTERFACE_GROUP_3_STATUS_1 0x3178
#define RM_COMM_AE_INTERFACE_GROUP_4_STATUS_0 0x317c
#define RM_COMM_AE_INTERFACE_GROUP_4_STATUS_1 0x3180
#define RM_COMM_AE_INTERFACE_GROUP_5_STATUS_0 0x3184
#define RM_COMM_AE_INTERFACE_GROUP_5_STATUS_1 0x3188
#define RM_COMM_AE_INTERFACE_GROUP_6_STATUS_0 0x318c
#define RM_COMM_AE_INTERFACE_GROUP_6_STATUS_1 0x3190
#define RM_COMM_AE_INTERFACE_GROUP_7_STATUS_0 0x3194
#define RM_COMM_AE_INTERFACE_GROUP_7_STATUS_1 0x3198
#define RM_COMM_AE_INTERFACE_TOP_STATUS_0 0x319c
#define RM_COMM_AE_INTERFACE_TOP_STATUS_1 0x31a0
#define RM_COMM_REORDER_STATUS_0 0x31a4
#define RM_COMM_REORDER_STATUS_1 0x31a8
#define RM_COMM_REORDER_STATUS_2 0x31ac
#define RM_COMM_REORDER_STATUS_3 0x31b0
#define RM_COMM_REORDER_STATUS_4 0x31b4
#define RM_COMM_REORDER_STATUS_5 0x31b8
#define RM_COMM_CONFIG_INTERRUPT_STATUS 0x31bc
#define RM_COMM_TOGGLE_INTERRUPT_STATUS 0x31c0
#define RM_COMM_DDR_ADDR_GEN_INTERRUPT_STATUS 0x31c4
#define RM_COMM_PACKET_ALIGNMENT_INTERRUPT_STATUS 0x31c8
#define RM_COMM_AE_INTERFACE_GROUP_0_INTERRUPT_STATUS 0x31cc
#define RM_COMM_AE_INTERFACE_GROUP_1_INTERRUPT_STATUS 0x31d0
#define RM_COMM_AE_INTERFACE_GROUP_2_INTERRUPT_STATUS 0x31d4
#define RM_COMM_AE_INTERFACE_GROUP_3_INTERRUPT_STATUS 0x31d8
#define RM_COMM_AE_INTERFACE_GROUP_4_INTERRUPT_STATUS 0x31dc
#define RM_COMM_AE_INTERFACE_GROUP_5_INTERRUPT_STATUS 0x31e0
#define RM_COMM_AE_INTERFACE_GROUP_6_INTERRUPT_STATUS 0x31e4
#define RM_COMM_AE_INTERFACE_GROUP_7_INTERRUPT_STATUS 0x31e8
#define RM_COMM_AE_INTERFACE_TOP_INTERRUPT_STATUS 0x31ec
#define RM_COMM_REORDER_INTERRUPT_STATUS 0x31f0
#define RM_COMM_DME_INTERRUPT_STATUS 0x31f4
#define RM_COMM_PACKET_ALIGNMENT_STATUS_4 0x31f8
#define RM_COMM_PACKET_ALIGNMENT_STATUS_5 0x31fc
#define RM_COMM_PACKET_ALIGNMENT_STATUS_6 0x3200
#define RM_COMM_MSI_INTR_INTERRUPT_STATUS 0x3204
#define RM_COMM_BD_FETCH_MODE_CONTROL 0x3360
#define RM_COMM_THRESHOLD_CFG_RD_FIFO_MAX_THRESHOLD_SHIFT 16
#define RM_COMM_THRESHOLD_CFG_RD_FIFO_MAX_THRESHOLD_SHIFT_VAL 32
#define RM_COMM_THRESHOLD_CFG_RD_FIFO_MAX_THRESHOLD_MASK 0x1FF
#define RM_COMM_PKT_ALIGNMENT_BD_FIFO_FULL_THRESHOLD_SHIFT 25
#define RM_COMM_PKT_ALIGNMENT_BD_FIFO_FULL_THRESHOLD_VAL 40
#define RM_COMM_PKT_ALIGNMENT_BD_FIFO_FULL_THRESHOLD_MASK 0x7F
#define RM_COMM_BD_FIFO_FULL_THRESHOLD_VAL 224
#define RM_COMM_BD_FIFO_FULL_THRESHOLD_SHIFT 16
#define RM_COMM_BD_FIFO_FULL_THRESHOLD_MASK 0x1FF
/* PAX_DMA_RM_COMM_RM_BURST_LENGTH */
#define RM_COMM_BD_FETCH_CACHE_ALIGNED_DISABLED BIT(28)
#define RM_COMM_VALUE_FOR_DDR_ADDR_GEN_SHIFT 16
#define RM_COMM_VALUE_FOR_TOGGLE_SHIFT 0
#define RM_COMM_VALUE_FOR_DDR_ADDR_GEN_VAL 32
#define RM_COMM_VALUE_FOR_TOGGLE_VAL 32
#define RM_COMM_DISABLE_GRP_BD_FIFO_FLOW_CONTROL_FOR_PKT_ALIGNMENT BIT(1)
#define RM_COMM_DISABLE_PKT_ALIGNMENT_BD_FIFO_FLOW_CONTROL BIT(0)
/* RM version */
#define RING_VER_MAGIC 0x76303031
/* Register RING_CONTROL fields */
#define RING_CONTROL_MASK_DISABLE_CONTROL 6
#define RING_CONTROL_FLUSH BIT(5)
#define RING_CONTROL_ACTIVE BIT(4)
/* Register RING_FLUSH_DONE fields */
#define RING_FLUSH_DONE_MASK 0x1
#define RING_MASK_SEQ_MAX_COUNT_MASK 0x3ff
/* RM_COMM_MAIN_HW_INIT_DONE DONE fields */
#define RM_COMM_MAIN_HW_INIT_DONE_MASK 0x1
/* Register RING_CMPL_WR_PTR_DDR_CONTROL fields */
#define RING_BD_READ_PTR_DDR_TIMER_VAL_SHIFT 16
#define RING_BD_READ_PTR_DDR_TIMER_VAL_MASK 0xffff
#define RING_BD_READ_PTR_DDR_ENABLE_SHIFT 15
#define RING_BD_READ_PTR_DDR_ENABLE_MASK 0x1
/* Register RING_BD_READ_PTR_DDR_CONTROL fields */
#define RING_BD_CMPL_WR_PTR_DDR_TIMER_VAL_SHIFT 16
#define RING_BD_CMPL_WR_PTR_DDR_TIMER_VAL_MASK 0xffff
#define RING_BD_CMPL_WR_PTR_DDR_ENABLE_SHIFT 15
#define RING_BD_CMPL_WR_PTR_DDR_ENABLE_MASK 0x1
/*
* AE_TIMEOUT is (2^AE_TIMEOUT_BITS) - (2 * NumOfAEs * 2^FIFO_DEPTH_BITS)
* AE_TIMEOUT_BITS=32, NumOfAEs=2, FIFO_DEPTH_BITS=5
* timeout val = 2^32 - 2*2*2^5
*/
#define RM_COMM_AE_TIMEOUT_VAL 0xffffff80
/* RM timer control fields for 4 rings */
#define RM_COMM_TIMER_CONTROL_FAST 0xaf
#define RM_COMM_TIMER_CONTROL_FAST_SHIFT 16
#define RM_COMM_TIMER_CONTROL_MEDIUM 0x15e
#define RM_COMM_TIMER_CONTROL0_VAL \
((RM_COMM_TIMER_CONTROL_FAST << RM_COMM_TIMER_CONTROL_FAST_SHIFT) | \
(RM_COMM_TIMER_CONTROL_MEDIUM))
#define RM_COMM_TIMER_CONTROL_SLOW 0x2bc
#define RM_COMM_TIMER_CONTROL_SLOW_SHIFT 16
#define RM_COMM_TIMER_CONTROL_IDLE 0x578
#define RM_COMM_TIMER_CONTROL1_VAL \
((RM_COMM_TIMER_CONTROL_SLOW << RM_COMM_TIMER_CONTROL_SLOW_SHIFT) | \
(RM_COMM_TIMER_CONTROL_IDLE))
#define RM_COMM_RM_BURST_LENGTH 0x80008
/* Register RM_COMM_AXI_CONTROL fields */
#define RM_COMM_AXI_CONTROL_RD_CH_EN_SHIFT 24
#define RM_COMM_AXI_CONTROL_RD_CH_EN \
BIT(RM_COMM_AXI_CONTROL_RD_CH_EN_SHIFT)
#define RM_COMM_AXI_CONTROL_WR_CH_EN_SHIFT 28
#define RM_COMM_AXI_CONTROL_WR_CH_EN \
BIT(RM_COMM_AXI_CONTROL_WR_CH_EN_SHIFT)
/* Register Per-ring RING_COMMON_CONTROL fields */
#define RING_COMM_CTRL_AE_GROUP_SHIFT 0
#define RING_COMM_CTRL_AE_GROUP_MASK (0x7 << RING_COMM_CTRL_AE_GROUP_SHIFT)
/* Register AE0_AE_CONTROL/AE1_AE_CONTROL fields */
#define RM_AE_CONTROL_ACTIVE BIT(4)
#define RM_AE_CTRL_AE_GROUP_SHIFT 0
#define RM_AE_CTRL_AE_GROUP_MASK (0x7 << RM_AE_CTRL_AE_GROUP_SHIFT)
/* Register RING_CMPL_WR_PTR_DDR_CONTROL fields */
#define RING_DDR_CONTROL_COUNT_SHIFT 0
#define RING_DDR_CONTROL_COUNT_MASK 0x3ff
#define RING_DDR_CONTROL_COUNT(x) (((x) & RING_DDR_CONTROL_COUNT_MASK) \
<< RING_DDR_CONTROL_COUNT_SHIFT)
#define RING_DDR_CONTROL_COUNT_VAL 0x1U
#define RING_DDR_CONTROL_ENABLE_SHIFT 15
#define RING_DDR_CONTROL_ENABLE BIT(RING_DDR_CONTROL_ENABLE_SHIFT)
#define RING_DDR_CONTROL_TIMER_SHIFT 16
#define RING_DDR_CONTROL_TIMER_MASK 0xffff
#define RING_DDR_CONTROL_TIMER(x) (((x) & RING_DDR_CONTROL_TIMER_MASK) \
<< RING_DDR_CONTROL_TIMER_SHIFT)
/*
* Set no timeout value for completion write path as it would generate
* multiple interrupts during large transfers. And if timeout value is
* set, completion write pointers has to be checked on each interrupt
* to ensure that transfer is actually done.
*/
#define RING_DDR_CONTROL_TIMER_VAL (0xFFFF)
/* completion DME status code */
#define PAX_DMA_STATUS_AXI_RRESP_ERR BIT(0)
#define PAX_DMA_STATUS_AXI_BRESP_ERR BIT(1)
#define PAX_DMA_STATUS_PCIE_CA_ERR BIT(2)
#define PAX_DMA_STATUS_PCIE_UR_ERR BIT(3)
#define PAX_DMA_STATUS_PCIE_CMPL_TOUT_ERR BIT(4)
#define PAX_DMA_STATUS_PCIE_RX_POISON BIT(5)
#define PAX_DMA_STATUS_ERROR_MASK ( \
PAX_DMA_STATUS_AXI_RRESP_ERR | \
PAX_DMA_STATUS_AXI_BRESP_ERR | \
PAX_DMA_STATUS_PCIE_CA_ERR | \
PAX_DMA_STATUS_PCIE_UR_ERR | \
PAX_DMA_STATUS_PCIE_CMPL_TOUT_ERR | \
PAX_DMA_STATUS_PCIE_RX_POISON \
)
/* completion RM status code */
#define RM_COMPLETION_SUCCESS 0x0
#define RM_COMPLETION_AE_TIMEOUT 0x3FF
#define RM_COMM_MSI_CONFIG_INTERRUPT_ACCESS_ERR_MASK BIT(9)
#define RM_COMM_MSI_CONFIG_INTERRUPT_BRESP_ERR_MASK BIT(8)
#define RM_COMM_MSI_DISABLE_MASK BIT(0)
/* Buffer Descriptor definitions */
#define PAX_DMA_TYPE_RM_HEADER 0x1
#define PAX_DMA_TYPE_NEXT_PTR 0x5
/* one desc ring size( is 4K, 4K aligned */
#define PAX_DMA_RM_DESC_RING_SIZE 4096
#define PAX_DMA_RING_BD_ALIGN_ORDER 12
/* completion ring size(bytes) is 8K, 8K aligned */
#define PAX_DMA_RM_CMPL_RING_SIZE 8192
#define PAX_DMA_RING_CMPL_ALIGN_ORDER 13
#define PAX_DMA_RING_BD_ALIGN_CHECK(addr) \
(!((addr) & ((0x1 << RING_BD_ALIGN_ORDER) - 1)))
#define RING_CMPL_ALIGN_CHECK(addr) \
(!((addr) & ((0x1 << RING_CMPL_ALIGN_ORDER) - 1)))
/* RM descriptor width: 8 bytes */
#define PAX_DMA_RM_DESC_BDWIDTH 8
/* completion msg desc takes 1 BD */
#define PAX_DMA_CMPL_DESC_SIZE PAX_DMA_RM_DESC_BDWIDTH
/* Next table desc takes 1 BD */
#define PAX_DMA_NEXT_TBL_DESC_SIZE PAX_DMA_RM_DESC_BDWIDTH
/* Header desc takes 1 BD */
#define PAX_DMA_HEADER_DESC_SIZE PAX_DMA_RM_DESC_BDWIDTH
/* Total BDs in ring: 4K/8bytes = 512 BDs */
#define PAX_DMA_RM_RING_BD_COUNT (PAX_DMA_RM_DESC_RING_SIZE / \
PAX_DMA_RM_DESC_BDWIDTH)
/* Initial RM header is first BD in ring */
#define PAX_DMA_HEADER_INDEX 0
#define PAX_DMA_HEADER_ADDR(_ring) (void *)((uintptr_t)(_ring) + \
PAX_DMA_HEADER_INDEX * PAX_DMA_RM_DESC_BDWIDTH)
/* NEXT TABLE desc offset is last BD in ring */
#define PAX_DMA_NEXT_TBL_INDEX (PAX_DMA_RM_RING_BD_COUNT - 1)
#define PAX_DMA_NEXT_TBL_ADDR(_ring) (void *)((uintptr_t)(_ring) + \
PAX_DMA_NEXT_TBL_INDEX * PAX_DMA_RM_DESC_BDWIDTH)
/* DMA transfers supported from 4 bytes thru 16M, size aligned to 4 bytes */
#define PAX_DMA_MIN_SIZE 4
#define PAX_DMA_MAX_SIZE (16 * 1024 * 1024)
/* Host and Card address need 4-byte alignment */
#define PAX_DMA_ADDR_ALIGN 4
#define RM_RING_REG(_pd, _r, _write_ptr) \
((_pd)->ring[_r].ring_base + (_write_ptr))
#define RM_COMM_REG(_pd, _write_ptr) ((_pd)->rm_comm_base + (_write_ptr))
#define PAX_DMA_REG(_pd, _write_ptr) ((_pd)->dma_base + (_write_ptr))
#define PAX_DMA_MAX_CMPL_COUNT 1024
#define PAX_DMA_LAST_CMPL_IDX (PAX_DMA_MAX_CMPL_COUNT - 1)
#define PAX_DMA_RING_ALIGN BIT(PAX_DMA_RING_CMPL_ALIGN_ORDER)
/* num of completions received, circular buffer */
#define PAX_DMA_GET_CMPL_COUNT(wptr, rptr) (((wptr) >= (rptr)) ? \
((wptr) - (rptr)) : (PAX_DMA_MAX_CMPL_COUNT - (rptr) + (wptr)))
/* location of current cmpl pkt, take care of pointer wrap-around */
#define PAX_DMA_CURR_CMPL_IDX(wptr) \
(((wptr) == 0) ? PAX_DMA_LAST_CMPL_IDX : (wptr) - 1)
/* Timeout (milliseconds) for completion alert in interrupt mode */
#define PAX_DMA_TIMEOUT 10000
/* TODO: add macro to enable data memory barrier, to ensure writes to memory */
#define dma_mb()
/* Max polling cycles for completion wait, >= 1 second */
#define PAX_DMA_MAX_POLL_WAIT 1000000
/* Max polling cycles for posted write sync >= 1 second */
#define PAX_DMA_MAX_SYNC_WAIT 1000000
enum ring_idx {
PAX_DMA_RING0 = 0,
PAX_DMA_RING1,
PAX_DMA_RING2,
PAX_DMA_RING3,
PAX_DMA_RINGS_MAX
};
/*
* DMA direction
*/
enum pax_dma_dir {
CARD_TO_HOST = 0x1,
HOST_TO_CARD = 0x2
};
/* Completion packet */
struct cmpl_pkt {
uint64_t opq : 16; /*pkt_id 15:0*/
uint64_t res : 16; /*reserved 16:31*/
uint64_t dma_status : 16; /*PAX DMA status 32:47*/
uint64_t ae_num : 6; /*RM status[47:53] processing AE number */
uint64_t rm_status : 10; /*RM status[54:63] completion/timeout status*/
} __attribute__ ((__packed__));
/* Driver internal structures */
struct dma_iproc_pax_addr64 {
uint32_t addr_lo;
uint32_t addr_hi;
} __attribute__((__packed__));
/* DMA payload for RM internal API */
struct dma_iproc_pax_payload {
uint64_t pci_addr;
uint64_t axi_addr;
uint32_t xfer_sz;
enum pax_dma_dir direction;
};
/* magic to sync completion of posted writes to host */
struct dma_iproc_pax_write_sync_data {
/* sglist count, max 254 */
uint32_t total_pkts:9;
/* ring-id 0-3 */
uint32_t ring:2;
/* opaque-id 0-31 */
uint32_t opaque:5;
/* magic pattern */
uint32_t signature:16;
};
/* BD ring status */
struct dma_iproc_pax_ring_status {
/* current desc write_ptret, write pointer */
void *write_ptr;
/* current valid toggle */
uint32_t toggle;
/* completion queue read offset */
uint32_t cmpl_rd_offs;
/* opaque value for current payload */
uint32_t opq;
/* posted write sync data */
struct dma_iproc_pax_write_sync_data sync_data;
};
struct dma_iproc_pax_ring_data {
/* ring index */
uint32_t idx;
/* Per-Ring register base */
uint32_t ring_base;
/* Allocated mem for BD and CMPL */
void *ring_mem;
/* Buffer descriptors, 4K aligned */
void *bd;
/* Completion descriptors, 8K aligned */
void *cmpl;
/* payload struct for internal API */
struct dma_iproc_pax_payload *payload;
/* ring current status */
struct dma_iproc_pax_ring_status curr;
/* assigned packet id upto 32 values */
uint32_t pkt_id;
/* per-ring lock */
struct k_mutex lock;
/* alert for the ring */
struct k_sem alert;
/* posted write sync src location */
struct dma_iproc_pax_write_sync_data *sync_loc;
/* posted write sync pci dst address */
struct dma_iproc_pax_addr64 sync_pci;
/* ring status */
int ring_active;
/* dma callback and argument */
dma_callback_t dma_callback;
void *callback_arg;
uint32_t descs_inflight;
uint32_t non_hdr_bd_count;
uint32_t total_pkt_count;
uintptr_t current_hdr;
};
struct dma_iproc_pax_data {
/* PAXB0 PAX DMA registers */
uint32_t dma_base;
/* Ring manager common registers */
uint32_t rm_comm_base;
/* Num of rings to use in s/w */
int used_rings;
/* DMA lock */
struct k_mutex dma_lock;
/* Per-Ring data */
struct dma_iproc_pax_ring_data ring[PAX_DMA_RINGS_MAX];
};
/* PAX DMA config */
struct dma_iproc_pax_cfg {
/* PAXB0 PAX DMA registers */
uint32_t dma_base;
/* Per-Ring register base addr */
uint32_t rm_base;
/* Ring manager common registers */
uint32_t rm_comm_base;
/* Num of rings to be used */
int use_rings;
void *bd_memory_base;
uint32_t scr_addr_loc;
const struct device *pcie_dev;
};
#endif