rt-thread/bsp/phytium/libraries/standalone/drivers/eth/fxmac/fxmac_intr.c

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/*
* Copyright : (C) 2022 Phytium Information Technology, Inc.
* All Rights Reserved.
*
* This program is OPEN SOURCE software: you can redistribute it and/or modify it
* under the terms of the Phytium Public License as published by the Phytium Technology Co.,Ltd,
* either version 1.0 of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the Phytium Public License for more details.
*
*
* FilePath: fxmac_intr.c
* Date: 2022-04-06 14:46:52
* LastEditTime: 2022-04-06 14:46:58
* Description:  This file is for
*
* Modify History:
* Ver   Who        Date         Changes
* ----- ------     --------    --------------------------------------
*/
#include "fxmac.h"
#include "fxmac_hw.h"
#include "fassert.h"
/************************** Constant Definitions *****************************/
/**************************** Type Definitions *******************************/
/***************** Macros (Inline Functions) Definitions *********************/
/************************** Function Prototypes ******************************/
/************************** Variable Definitions *****************************/
/**
* @name: FXmacSetHandler
* @msg: Install an asynchronous handler function for the given handler_type:
*
* @param instance_p is a pointer to the instance to be worked on.
* @param handler_type indicates what interrupt handler type is.
* FXMAC_HANDLER_DMASEND, FXMAC_HANDLER_DMARECV and
* FXMAC_HANDLER_ERROR.
* @param func_pointer is the pointer to the callback function
* @param call_back_ref is the upper layer callback reference passed back when
* when the callback function is invoked.
*
* @return {FError} FT_SUCCESS set is ok
*/
FError FXmacSetHandler(FXmac *instance_p, u32 handler_type,
void *func_pointer, void *call_back_ref)
{
FError status;
FASSERT(instance_p != NULL);
FASSERT(func_pointer != NULL);
FASSERT(instance_p->is_ready == (u32)FT_COMPONENT_IS_READY);
status = (FError)(FT_SUCCESS);
switch (handler_type)
{
case FXMAC_HANDLER_DMASEND:
instance_p->send_irq_handler = ((FXmacIrqHandler)(void *)func_pointer);
instance_p->send_args = call_back_ref;
break;
case FXMAC_HANDLER_DMARECV:
instance_p->recv_irq_handler = ((FXmacIrqHandler)(void *)func_pointer);
instance_p->recv_args = call_back_ref;
break;
case FXMAC_HANDLER_ERROR:
instance_p->error_irq_handler = ((FXmacErrorIrqHandler)(void *)func_pointer);
instance_p->error_args = call_back_ref;
break;
case FXMAC_HANDLER_LINKCHANGE:
instance_p->link_change_handler = ((FXmacIrqHandler)(void *)func_pointer);
instance_p->link_change_args = call_back_ref;
break;
case FXMAC_HANDLER_RESTART:
instance_p->restart_handler = ((FXmacIrqHandler)(void *)func_pointer);
instance_p->restart_args = call_back_ref;
break;
default:
status = (FError)(FXMAC_ERR_INVALID_PARAM);
break;
}
return status;
}
/**
* @name: FXmacIntrHandler
* @msg: 中断处理函数
* @param {s32} vector is interrrupt num
* @param {void} *args is a arguments variables
* @return {*}
* @note 目前中断只支持单queue的情况
*/
void FXmacIntrHandler(s32 vector, void *args)
{
u32 reg_isr;
u32 reg_qx_isr;
u32 reg_temp;
u32 reg_ctrl;
u32 tx_queue_id; /* 0 ~ FT_XMAC_QUEUE_MAX_NUM ,Index queue number */
u32 rx_queue_id; /* 0 ~ FT_XMAC_QUEUE_MAX_NUM ,Index queue number */
FXmac *instance_p = (FXmac *)args;
FASSERT(instance_p != NULL);
FASSERT(instance_p->is_ready == (u32)FT_COMPONENT_IS_READY);
tx_queue_id = instance_p->tx_bd_queue.queue_id;
rx_queue_id = instance_p->rx_bd_queue.queue_id;
FASSERT((rx_queue_id < FT_XMAC_QUEUE_MAX_NUM) && (tx_queue_id < FT_XMAC_QUEUE_MAX_NUM))
/* This ISR will try to handle as many interrupts as it can in a single
* call. However, in most of the places where the user's error handler
* is called, this ISR exits because it is expected that the user will
* reset the device in nearly all instances.
*/
if ((u32)vector == instance_p->config.queue_irq_num[tx_queue_id])
{
if (tx_queue_id == 0)
{
reg_isr = FXMAC_READREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET);
if ((reg_isr & FXMAC_IXR_TXCOMPL_MASK) != 0x00000000U)
{
/* Clear TX status register TX complete indication but preserve
* error bits if there is any */
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_TXSR_OFFSET,
((u32)FXMAC_TXSR_TXCOMPL_MASK |
(u32)FXMAC_TXSR_USEDREAD_MASK));
if (instance_p->send_irq_handler)
{
/* code */
instance_p->send_irq_handler(instance_p->send_args);
}
/* add */
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_TXCOMPL_MASK);
}
/* Transmit error conditions interrupt */
if (((reg_isr & FXMAC_IXR_TX_ERR_MASK) != 0x00000000U) &&
(!(reg_isr & FXMAC_IXR_TXCOMPL_MASK) != 0x00000000U))
{
/* Clear TX status register */
reg_temp = FXMAC_READREG32(instance_p->config.base_address, FXMAC_TXSR_OFFSET);
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_TXSR_OFFSET, reg_temp);
if (instance_p->error_irq_handler)
{
instance_p->error_irq_handler(instance_p->error_args, FXMAC_SEND, reg_temp);
}
/* add */
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_TX_ERR_MASK);
}
/* add restart */
if ((reg_isr & FXMAC_IXR_TXUSED_MASK) != 0x00000000U)
{
/* add */
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_TXUSED_MASK);
if (instance_p->restart_handler)
{
instance_p->restart_handler(instance_p->restart_args);
}
}
/* link chaged */
if ((reg_isr & FXMAC_IXR_LINKCHANGE_MASK) != 0x00000000U)
{
if (instance_p->link_change_handler)
{
instance_p->link_change_handler(instance_p->link_change_args);
}
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_LINKCHANGE_MASK);
}
}
else /* use queue number more than 0 */
{
reg_isr = FXMAC_READREG32(instance_p->config.base_address,
FXMAC_QUEUE_REGISTER_OFFSET(FXMAC_INTQ1_STS_OFFSET, tx_queue_id));
/* Transmit Q1 complete interrupt */
if (((reg_isr & FXMAC_INTQUESR_TXCOMPL_MASK) != 0x00000000U))
{
/* Clear TX status register TX complete indication but preserve
* error bits if there is any */
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_QUEUE_REGISTER_OFFSET(FXMAC_INTQ1_STS_OFFSET, tx_queue_id),
FXMAC_INTQUESR_TXCOMPL_MASK);
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_TXSR_OFFSET,
((u32)FXMAC_TXSR_TXCOMPL_MASK |
(u32)FXMAC_TXSR_USEDREAD_MASK));
instance_p->send_irq_handler(instance_p->send_args);
}
/* Transmit Q1 error conditions interrupt */
if (((reg_isr & FXMAC_INTQ1SR_TXERR_MASK) != 0x00000000U) &&
((reg_isr & FXMAC_INTQ1SR_TXCOMPL_MASK) != 0x00000000U))
{
/* Clear Interrupt Q1 status register */
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_QUEUE_REGISTER_OFFSET(FXMAC_INTQ1_STS_OFFSET, tx_queue_id), reg_isr);
instance_p->error_irq_handler(instance_p->error_args, FXMAC_SEND,
reg_isr);
}
}
}
if ((u32)vector == instance_p->config.queue_irq_num[rx_queue_id])
{
if (rx_queue_id == 0)
{
reg_isr = FXMAC_READREG32(instance_p->config.base_address,
FXMAC_ISR_OFFSET);
/* Receive complete interrupt */
if ((reg_isr & FXMAC_IXR_RXCOMPL_MASK) != 0x00000000U)
{
/* Clear RX status register RX complete indication but preserve
* error bits if there is any */
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_RXSR_OFFSET,
((u32)FXMAC_RXSR_FRAMERX_MASK |
(u32)FXMAC_RXSR_BUFFNA_MASK));
instance_p->recv_irq_handler(instance_p->recv_args);
/* add */
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_RXCOMPL_MASK);
}
/* Receive error conditions interrupt */
if ((reg_isr & FXMAC_IXR_RX_ERR_MASK) != 0x00000000U)
{
/* Clear RX status register */
reg_temp = FXMAC_READREG32(instance_p->config.base_address,
FXMAC_RXSR_OFFSET);
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_RXSR_OFFSET, reg_temp);
/* Fix for CR # 692702. Write to bit 18 of net_ctrl
* register to flush a packet out of Rx SRAM upon
* an error for receive buffer not available. */
if ((reg_isr & FXMAC_IXR_RXUSED_MASK) != 0x00000000U)
{
reg_ctrl = FXMAC_READREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET);
reg_ctrl |= (u32)FXMAC_NWCTRL_FLUSH_DPRAM_MASK;
/* add */
reg_ctrl &= (u32)(~FXMAC_NWCTRL_RXEN_MASK);
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET, reg_ctrl);
/* add */
reg_ctrl |= (u32)FXMAC_NWCTRL_RXEN_MASK;
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET, reg_ctrl);
}
/* add */
if ((reg_isr & FXMAC_IXR_RXOVR_MASK) != 0x00000000U)
{
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_RXOVR_MASK);
}
/* add */
if ((reg_isr & FXMAC_IXR_HRESPNOK_MASK) != 0x00000000U)
{
FXMAC_WRITEREG32(instance_p->config.base_address, FXMAC_ISR_OFFSET, FXMAC_IXR_HRESPNOK_MASK);
}
if (reg_temp != 0)
{
instance_p->error_irq_handler(instance_p->error_args,
FXMAC_RECV, reg_temp);
}
}
}
else /* use queue number more than 0 */
{
reg_isr = FXMAC_READREG32(instance_p->config.base_address,
FXMAC_QUEUE_REGISTER_OFFSET(FXMAC_INTQ1_STS_OFFSET, rx_queue_id));
/* Receive complete interrupt */
if ((reg_isr & FXMAC_INTQUESR_RCOMP_MASK) != 0x00000000U)
{
/* Clear RX status register RX complete indication but preserve
* error bits if there is any */
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_QUEUE_REGISTER_OFFSET(FXMAC_INTQ1_STS_OFFSET, rx_queue_id),
FXMAC_INTQUESR_RCOMP_MASK);
instance_p->recv_irq_handler(instance_p->recv_args);
}
/* Receive error conditions interrupt */
if ((reg_isr & FXMAC_IXR_RX_ERR_MASK) != 0x00000000U)
{
reg_ctrl =
FXMAC_READREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET);
reg_ctrl &= ~(u32)FXMAC_NWCTRL_RXEN_MASK;
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET, reg_ctrl);
/* Clear RX status register */
reg_temp = FXMAC_READREG32(instance_p->config.base_address,
FXMAC_RXSR_OFFSET);
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_RXSR_OFFSET, reg_temp);
/* Fix for CR # 692702. Write to bit 18 of net_ctrl
* register to flush a packet out of Rx SRAM upon
* an error for receive buffer not available. */
if ((reg_isr & FXMAC_IXR_RXUSED_MASK) != 0x00000000U)
{
reg_ctrl =
FXMAC_READREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET);
reg_ctrl |= (u32)FXMAC_NWCTRL_FLUSH_DPRAM_MASK;
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_NWCTRL_OFFSET, reg_ctrl);
}
/* Clear RX status register RX complete indication but preserve
* error bits if there is any */
FXMAC_WRITEREG32(instance_p->config.base_address,
FXMAC_QUEUE_REGISTER_OFFSET(FXMAC_INTQ1_STS_OFFSET, rx_queue_id),
FXMAC_INTQUESR_RXUBR_MASK);
instance_p->recv_irq_handler(instance_p->recv_args);
if (reg_temp != 0)
{
instance_p->error_irq_handler(instance_p->error_args,
FXMAC_RECV, reg_temp);
}
}
}
}
}
/**
* @name: FXmacQueueIrqDisable
* @msg: Disable queue irq
* @param {FXmac} *instance_p a pointer to the instance to be worked on.
* @param {u32} queue_num queue number
* @param {u32} mask is interrupt disable value mask
*/
void FXmacQueueIrqDisable(FXmac *instance_p, u32 queue_num, u32 mask)
{
FXmacConfig *config_p;
FASSERT(instance_p != NULL);
FASSERT(instance_p->is_ready == (u32)FT_COMPONENT_IS_READY);
FASSERT(instance_p->config.max_queue_num > queue_num);
config_p = &instance_p->config;
if (queue_num == 0)
{
FXMAC_WRITEREG32(config_p->base_address, FXMAC_IDR_OFFSET, mask & FXMAC_IXR_ALL_MASK);
}
else
{
FXMAC_WRITEREG32(config_p->base_address, FXMAC_INTQX_IDR_SIZE_OFFSET(queue_num), mask & FXMAC_IXR_ALL_MASK);
}
}
/**
* @name: FXmacQueueIrqEnable
* @msg: Enable queue irq
* @param {FXmac} *instance_p a pointer to the instance to be worked on.
* @param {u32} queue_num is queue number
* @param {u32} mask is interrupt Enable value mask
*/
void FXmacQueueIrqEnable(FXmac *instance_p, u32 queue_num, u32 mask)
{
FXmacConfig *config_p;
FASSERT(instance_p != NULL);
FASSERT(instance_p->is_ready == (u32)FT_COMPONENT_IS_READY);
FASSERT(instance_p->config.max_queue_num > queue_num);
config_p = &instance_p->config;
if (queue_num == 0)
{
FXMAC_WRITEREG32(config_p->base_address, FXMAC_IER_OFFSET, mask & FXMAC_IXR_ALL_MASK);
}
else
{
FXMAC_WRITEREG32(config_p->base_address, FXMAC_INTQX_IER_SIZE_OFFSET(queue_num), mask & FXMAC_IXR_ALL_MASK);
}
}