M7350/kernel/drivers/platform/msm/sps/bam.c

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2024-09-09 08:57:42 +00:00
/* Copyright (c) 2011-2016, The Linux Foundation. All rights reserved.
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*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* 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
* GNU General Public License for more details.
*/
/* Bus-Access-Manager (BAM) Hardware manager. */
#include <linux/types.h> /* u32 */
#include <linux/kernel.h> /* pr_info() */
#include <linux/io.h> /* ioread32() */
#include <linux/bitops.h> /* find_first_bit() */
#include <linux/errno.h> /* ENODEV */
#include <linux/memory.h>
#include "bam.h"
#include "sps_bam.h"
/**
* Valid BAM Hardware version.
*
*/
#define BAM_MIN_VERSION 2
#define BAM_MAX_VERSION 0x2f
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
/* Maximum number of execution environment */
#define BAM_MAX_EES 8
/**
* BAM Hardware registers bitmask.
* format: <register>_<field>
*
*/
/* CTRL */
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#define BAM_MESS_ONLY_CANCEL_WB 0x100000
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#define CACHE_MISS_ERR_RESP_EN 0x80000
#define LOCAL_CLK_GATING 0x60000
#define IBC_DISABLE 0x10000
#define BAM_CACHED_DESC_STORE 0x8000
#define BAM_DESC_CACHE_SEL 0x6000
#define BAM_EN_ACCUM 0x10
#define BAM_EN 0x2
#define BAM_SW_RST 0x1
/* REVISION */
#define BAM_INACTIV_TMR_BASE 0xff000000
#define BAM_CMD_DESC_EN 0x800000
#define BAM_DESC_CACHE_DEPTH 0x600000
#define BAM_NUM_INACTIV_TMRS 0x100000
#define BAM_INACTIV_TMRS_EXST 0x80000
#define BAM_HIGH_FREQUENCY_BAM 0x40000
#define BAM_HAS_NO_BYPASS 0x20000
#define BAM_SECURED 0x10000
#define BAM_USE_VMIDMT 0x8000
#define BAM_AXI_ACTIVE 0x4000
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#define BAM_CE_BUFFER_SIZE 0x3000
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#define BAM_NUM_EES 0xf00
#define BAM_REVISION 0xff
/* SW_REVISION */
#define BAM_MAJOR 0xf0000000
#define BAM_MINOR 0xfff0000
#define BAM_STEP 0xffff
/* NUM_PIPES */
#define BAM_NON_PIPE_GRP 0xff000000
#define BAM_PERIPH_NON_PIPE_GRP 0xff0000
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#define BAM_DATA_ADDR_BUS_WIDTH 0xC000
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#define BAM_NUM_PIPES 0xff
/* TIMER */
#define BAM_TIMER 0xffff
/* TIMER_CTRL */
#define TIMER_RST 0x80000000
#define TIMER_RUN 0x40000000
#define TIMER_MODE 0x20000000
#define TIMER_TRSHLD 0xffff
/* DESC_CNT_TRSHLD */
#define BAM_DESC_CNT_TRSHLD 0xffff
/* IRQ_SRCS */
#define BAM_IRQ 0x80000000
#define P_IRQ 0x7fffffff
/* IRQ_STTS */
#define IRQ_STTS_BAM_TIMER_IRQ 0x10
#define IRQ_STTS_BAM_EMPTY_IRQ 0x8
#define IRQ_STTS_BAM_ERROR_IRQ 0x4
#define IRQ_STTS_BAM_HRESP_ERR_IRQ 0x2
/* IRQ_CLR */
#define IRQ_CLR_BAM_TIMER_IRQ 0x10
#define IRQ_CLR_BAM_EMPTY_CLR 0x8
#define IRQ_CLR_BAM_ERROR_CLR 0x4
#define IRQ_CLR_BAM_HRESP_ERR_CLR 0x2
/* IRQ_EN */
#define IRQ_EN_BAM_TIMER_IRQ 0x10
#define IRQ_EN_BAM_EMPTY_EN 0x8
#define IRQ_EN_BAM_ERROR_EN 0x4
#define IRQ_EN_BAM_HRESP_ERR_EN 0x2
/* AHB_MASTER_ERR_CTRLS */
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HVMID 0x7c0000
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_DIRECT_MODE 0x20000
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HCID 0x1f000
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HPROT 0xf00
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HBURST 0xe0
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HSIZE 0x18
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HWRITE 0x4
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HTRANS 0x3
/* TRUST_REG */
#define LOCK_EE_CTRL 0x2000
#define BAM_VMID 0x1f00
#define BAM_RST_BLOCK 0x80
#define BAM_EE 0x7
/* TEST_BUS_SEL */
#define BAM_SW_EVENTS_ZERO 0x200000
#define BAM_SW_EVENTS_SEL 0x180000
#define BAM_DATA_ERASE 0x40000
#define BAM_DATA_FLUSH 0x20000
#define BAM_CLK_ALWAYS_ON 0x10000
#define BAM_TESTBUS_SEL 0x7f
/* CNFG_BITS */
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#define CNFG_BITS_AOS_OVERFLOW_PRVNT 0x80000000
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#define CNFG_BITS_MULTIPLE_EVENTS_DESC_AVAIL_EN 0x40000000
#define CNFG_BITS_MULTIPLE_EVENTS_SIZE_EN 0x20000000
#define CNFG_BITS_BAM_ZLT_W_CD_SUPPORT 0x10000000
#define CNFG_BITS_BAM_CD_ENABLE 0x8000000
#define CNFG_BITS_BAM_AU_ACCUMED 0x4000000
#define CNFG_BITS_BAM_PSM_P_HD_DATA 0x2000000
#define CNFG_BITS_BAM_REG_P_EN 0x1000000
#define CNFG_BITS_BAM_WB_DSC_AVL_P_RST 0x800000
#define CNFG_BITS_BAM_WB_RETR_SVPNT 0x400000
#define CNFG_BITS_BAM_WB_CSW_ACK_IDL 0x200000
#define CNFG_BITS_BAM_WB_BLK_CSW 0x100000
#define CNFG_BITS_BAM_WB_P_RES 0x80000
#define CNFG_BITS_BAM_SI_P_RES 0x40000
#define CNFG_BITS_BAM_AU_P_RES 0x20000
#define CNFG_BITS_BAM_PSM_P_RES 0x10000
#define CNFG_BITS_BAM_PSM_CSW_REQ 0x8000
#define CNFG_BITS_BAM_SB_CLK_REQ 0x4000
#define CNFG_BITS_BAM_IBC_DISABLE 0x2000
#define CNFG_BITS_BAM_NO_EXT_P_RST 0x1000
#define CNFG_BITS_BAM_FULL_PIPE 0x800
#define CNFG_BITS_BAM_PIPE_CNFG 0x4
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/* PIPE_ATTR_EEn*/
#define BAM_ENABLED 0x80000000
#define P_ATTR 0x7fffffff
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/* P_ctrln */
#define P_LOCK_GROUP 0x1f0000
#define P_WRITE_NWD 0x800
#define P_PREFETCH_LIMIT 0x600
#define P_AUTO_EOB_SEL 0x180
#define P_AUTO_EOB 0x40
#define P_SYS_MODE 0x20
#define P_SYS_STRM 0x10
#define P_DIRECTION 0x8
#define P_EN 0x2
/* P_RSTn */
#define P_RST_P_SW_RST 0x1
/* P_HALTn */
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#define P_HALT_P_PIPE_EMPTY 0x8
#define P_HALT_P_LAST_DESC_ZLT 0x4
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#define P_HALT_P_PROD_HALTED 0x2
#define P_HALT_P_HALT 0x1
/* P_TRUST_REGn */
#define BAM_P_VMID 0x1f00
#define BAM_P_SUP_GROUP 0xf8
#define BAM_P_EE 0x7
/* P_IRQ_STTSn */
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#define P_IRQ_STTS_P_HRESP_ERR_IRQ 0x80
#define P_IRQ_STTS_P_PIPE_RST_ERR_IRQ 0x40
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#define P_IRQ_STTS_P_TRNSFR_END_IRQ 0x20
#define P_IRQ_STTS_P_ERR_IRQ 0x10
#define P_IRQ_STTS_P_OUT_OF_DESC_IRQ 0x8
#define P_IRQ_STTS_P_WAKE_IRQ 0x4
#define P_IRQ_STTS_P_TIMER_IRQ 0x2
#define P_IRQ_STTS_P_PRCSD_DESC_IRQ 0x1
/* P_IRQ_CLRn */
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#define P_IRQ_CLR_P_HRESP_ERR_CLR 0x80
#define P_IRQ_CLR_P_PIPE_RST_ERR_CLR 0x40
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#define P_IRQ_CLR_P_TRNSFR_END_CLR 0x20
#define P_IRQ_CLR_P_ERR_CLR 0x10
#define P_IRQ_CLR_P_OUT_OF_DESC_CLR 0x8
#define P_IRQ_CLR_P_WAKE_CLR 0x4
#define P_IRQ_CLR_P_TIMER_CLR 0x2
#define P_IRQ_CLR_P_PRCSD_DESC_CLR 0x1
/* P_IRQ_ENn */
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#define P_IRQ_EN_P_HRESP_ERR_EN 0x80
#define P_IRQ_EN_P_PIPE_RST_ERR_EN 0x40
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#define P_IRQ_EN_P_TRNSFR_END_EN 0x20
#define P_IRQ_EN_P_ERR_EN 0x10
#define P_IRQ_EN_P_OUT_OF_DESC_EN 0x8
#define P_IRQ_EN_P_WAKE_EN 0x4
#define P_IRQ_EN_P_TIMER_EN 0x2
#define P_IRQ_EN_P_PRCSD_DESC_EN 0x1
/* P_TIMERn */
#define P_TIMER_P_TIMER 0xffff
/* P_TIMER_ctrln */
#define P_TIMER_RST 0x80000000
#define P_TIMER_RUN 0x40000000
#define P_TIMER_MODE 0x20000000
#define P_TIMER_TRSHLD 0xffff
/* P_PRDCR_SDBNDn */
#define P_PRDCR_SDBNDn_BAM_P_SB_UPDATED 0x1000000
#define P_PRDCR_SDBNDn_BAM_P_TOGGLE 0x100000
#define P_PRDCR_SDBNDn_BAM_P_CTRL 0xf0000
#define P_PRDCR_SDBNDn_BAM_P_BYTES_FREE 0xffff
/* P_CNSMR_SDBNDn */
#define P_CNSMR_SDBNDn_BAM_P_SB_UPDATED 0x1000000
#define P_CNSMR_SDBNDn_BAM_P_WAIT_4_ACK 0x800000
#define P_CNSMR_SDBNDn_BAM_P_ACK_TOGGLE 0x400000
#define P_CNSMR_SDBNDn_BAM_P_ACK_TOGGLE_R 0x200000
#define P_CNSMR_SDBNDn_BAM_P_TOGGLE 0x100000
#define P_CNSMR_SDBNDn_BAM_P_CTRL 0xf0000
#define P_CNSMR_SDBNDn_BAM_P_BYTES_AVAIL 0xffff
/* P_EVNT_regn */
#define P_BYTES_CONSUMED 0xffff0000
#define P_DESC_FIFO_PEER_OFST 0xffff
/* P_SW_ofstsn */
#define SW_OFST_IN_DESC 0xffff0000
#define SW_DESC_OFST 0xffff
/* P_EVNT_GEN_TRSHLDn */
#define P_EVNT_GEN_TRSHLD_P_TRSHLD 0xffff
/* P_FIFO_sizesn */
#define P_DATA_FIFO_SIZE 0xffff0000
#define P_DESC_FIFO_SIZE 0xffff
#define P_RETR_CNTXT_RETR_DESC_OFST 0xffff0000
#define P_RETR_CNTXT_RETR_OFST_IN_DESC 0xffff
#define P_SI_CNTXT_SI_DESC_OFST 0xffff
#define P_DF_CNTXT_WB_ACCUMULATED 0xffff0000
#define P_DF_CNTXT_DF_DESC_OFST 0xffff
#define P_AU_PSM_CNTXT_1_AU_PSM_ACCUMED 0xffff0000
#define P_AU_PSM_CNTXT_1_AU_ACKED 0xffff
#define P_PSM_CNTXT_2_PSM_DESC_VALID 0x80000000
#define P_PSM_CNTXT_2_PSM_DESC_IRQ 0x40000000
#define P_PSM_CNTXT_2_PSM_DESC_IRQ_DONE 0x20000000
#define P_PSM_CNTXT_2_PSM_GENERAL_BITS 0x1e000000
#define P_PSM_CNTXT_2_PSM_CONS_STATE 0x1c00000
#define P_PSM_CNTXT_2_PSM_PROD_SYS_STATE 0x380000
#define P_PSM_CNTXT_2_PSM_PROD_B2B_STATE 0x70000
#define P_PSM_CNTXT_2_PSM_DESC_SIZE 0xffff
#define P_PSM_CNTXT_4_PSM_DESC_OFST 0xffff0000
#define P_PSM_CNTXT_4_PSM_SAVED_ACCUMED_SIZE 0xffff
#define P_PSM_CNTXT_5_PSM_BLOCK_BYTE_CNT 0xffff0000
#define P_PSM_CNTXT_5_PSM_OFST_IN_DESC 0xffff
#else
/* Maximum number of execution environment */
#define BAM_MAX_EES 4
/**
* BAM Hardware registers bitmask.
* format: <register>_<field>
*
*/
/* CTRL */
#define IBC_DISABLE 0x10000
#define BAM_CACHED_DESC_STORE 0x8000
#define BAM_DESC_CACHE_SEL 0x6000
/* BAM_PERIPH_IRQ_SIC_SEL is an obsolete field; This bit is reserved now */
#define BAM_PERIPH_IRQ_SIC_SEL 0x1000
#define BAM_EN_ACCUM 0x10
#define BAM_EN 0x2
#define BAM_SW_RST 0x1
/* REVISION */
#define BAM_INACTIV_TMR_BASE 0xff000000
#define BAM_INACTIV_TMRS_EXST 0x80000
#define BAM_HIGH_FREQUENCY_BAM 0x40000
#define BAM_HAS_NO_BYPASS 0x20000
#define BAM_SECURED 0x10000
#define BAM_NUM_EES 0xf00
#define BAM_REVISION 0xff
/* NUM_PIPES */
#define BAM_NON_PIPE_GRP 0xff000000
#define BAM_PERIPH_NON_PIPE_GRP 0xff0000
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#define BAM_DATA_ADDR_BUS_WIDTH 0xC000
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#define BAM_NUM_PIPES 0xff
/* DESC_CNT_TRSHLD */
#define BAM_DESC_CNT_TRSHLD 0xffff
/* IRQ_SRCS */
#define BAM_IRQ 0x80000000
#define P_IRQ 0x7fffffff
#define IRQ_STTS_BAM_EMPTY_IRQ 0x8
#define IRQ_STTS_BAM_ERROR_IRQ 0x4
#define IRQ_STTS_BAM_HRESP_ERR_IRQ 0x2
#define IRQ_CLR_BAM_EMPTY_CLR 0x8
#define IRQ_CLR_BAM_ERROR_CLR 0x4
#define IRQ_CLR_BAM_HRESP_ERR_CLR 0x2
#define IRQ_EN_BAM_EMPTY_EN 0x8
#define IRQ_EN_BAM_ERROR_EN 0x4
#define IRQ_EN_BAM_HRESP_ERR_EN 0x2
#define IRQ_SIC_SEL_BAM_IRQ_SIC_SEL 0x80000000
#define IRQ_SIC_SEL_P_IRQ_SIC_SEL 0x7fffffff
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HVMID 0x7c0000
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_DIRECT_MODE 0x20000
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HCID 0x1f000
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HPROT 0xf00
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HBURST 0xe0
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HSIZE 0x18
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HWRITE 0x4
#define AHB_MASTER_ERR_CTRLS_BAM_ERR_HTRANS 0x3
#define CNFG_BITS_BAM_AU_ACCUMED 0x4000000
#define CNFG_BITS_BAM_PSM_P_HD_DATA 0x2000000
#define CNFG_BITS_BAM_REG_P_EN 0x1000000
#define CNFG_BITS_BAM_WB_DSC_AVL_P_RST 0x800000
#define CNFG_BITS_BAM_WB_RETR_SVPNT 0x400000
#define CNFG_BITS_BAM_WB_CSW_ACK_IDL 0x200000
#define CNFG_BITS_BAM_WB_BLK_CSW 0x100000
#define CNFG_BITS_BAM_WB_P_RES 0x80000
#define CNFG_BITS_BAM_SI_P_RES 0x40000
#define CNFG_BITS_BAM_AU_P_RES 0x20000
#define CNFG_BITS_BAM_PSM_P_RES 0x10000
#define CNFG_BITS_BAM_PSM_CSW_REQ 0x8000
#define CNFG_BITS_BAM_SB_CLK_REQ 0x4000
#define CNFG_BITS_BAM_IBC_DISABLE 0x2000
#define CNFG_BITS_BAM_NO_EXT_P_RST 0x1000
#define CNFG_BITS_BAM_FULL_PIPE 0x800
#define CNFG_BITS_BAM_PIPE_CNFG 0x4
/* TEST_BUS_SEL */
#define BAM_DATA_ERASE 0x40000
#define BAM_DATA_FLUSH 0x20000
#define BAM_CLK_ALWAYS_ON 0x10000
#define BAM_TESTBUS_SEL 0x7f
/* TRUST_REG */
#define BAM_VMID 0x1f00
#define BAM_RST_BLOCK 0x80
#define BAM_EE 0x3
/* P_TRUST_REGn */
#define BAM_P_VMID 0x1f00
#define BAM_P_EE 0x3
/* P_PRDCR_SDBNDn */
#define P_PRDCR_SDBNDn_BAM_P_SB_UPDATED 0x1000000
#define P_PRDCR_SDBNDn_BAM_P_TOGGLE 0x100000
#define P_PRDCR_SDBNDn_BAM_P_CTRL 0xf0000
#define P_PRDCR_SDBNDn_BAM_P_BYTES_FREE 0xffff
/* P_CNSMR_SDBNDn */
#define P_CNSMR_SDBNDn_BAM_P_SB_UPDATED 0x1000000
#define P_CNSMR_SDBNDn_BAM_P_WAIT_4_ACK 0x800000
#define P_CNSMR_SDBNDn_BAM_P_ACK_TOGGLE 0x400000
#define P_CNSMR_SDBNDn_BAM_P_ACK_TOGGLE_R 0x200000
#define P_CNSMR_SDBNDn_BAM_P_TOGGLE 0x100000
#define P_CNSMR_SDBNDn_BAM_P_CTRL 0xf0000
#define P_CNSMR_SDBNDn_BAM_P_BYTES_AVAIL 0xffff
/* P_ctrln */
#define P_PREFETCH_LIMIT 0x600
#define P_AUTO_EOB_SEL 0x180
#define P_AUTO_EOB 0x40
#define P_SYS_MODE 0x20
#define P_SYS_STRM 0x10
#define P_DIRECTION 0x8
#define P_EN 0x2
#define P_RST_P_SW_RST 0x1
#define P_HALT_P_PROD_HALTED 0x2
#define P_HALT_P_HALT 0x1
#define P_IRQ_STTS_P_TRNSFR_END_IRQ 0x20
#define P_IRQ_STTS_P_ERR_IRQ 0x10
#define P_IRQ_STTS_P_OUT_OF_DESC_IRQ 0x8
#define P_IRQ_STTS_P_WAKE_IRQ 0x4
#define P_IRQ_STTS_P_TIMER_IRQ 0x2
#define P_IRQ_STTS_P_PRCSD_DESC_IRQ 0x1
#define P_IRQ_CLR_P_TRNSFR_END_CLR 0x20
#define P_IRQ_CLR_P_ERR_CLR 0x10
#define P_IRQ_CLR_P_OUT_OF_DESC_CLR 0x8
#define P_IRQ_CLR_P_WAKE_CLR 0x4
#define P_IRQ_CLR_P_TIMER_CLR 0x2
#define P_IRQ_CLR_P_PRCSD_DESC_CLR 0x1
#define P_IRQ_EN_P_TRNSFR_END_EN 0x20
#define P_IRQ_EN_P_ERR_EN 0x10
#define P_IRQ_EN_P_OUT_OF_DESC_EN 0x8
#define P_IRQ_EN_P_WAKE_EN 0x4
#define P_IRQ_EN_P_TIMER_EN 0x2
#define P_IRQ_EN_P_PRCSD_DESC_EN 0x1
#define P_TIMER_P_TIMER 0xffff
/* P_TIMER_ctrln */
#define P_TIMER_RST 0x80000000
#define P_TIMER_RUN 0x40000000
#define P_TIMER_MODE 0x20000000
#define P_TIMER_TRSHLD 0xffff
/* P_EVNT_regn */
#define P_BYTES_CONSUMED 0xffff0000
#define P_DESC_FIFO_PEER_OFST 0xffff
/* P_SW_ofstsn */
#define SW_OFST_IN_DESC 0xffff0000
#define SW_DESC_OFST 0xffff
#define P_EVNT_GEN_TRSHLD_P_TRSHLD 0xffff
/* P_FIFO_sizesn */
#define P_DATA_FIFO_SIZE 0xffff0000
#define P_DESC_FIFO_SIZE 0xffff
#define P_RETR_CNTXT_RETR_DESC_OFST 0xffff0000
#define P_RETR_CNTXT_RETR_OFST_IN_DESC 0xffff
#define P_SI_CNTXT_SI_DESC_OFST 0xffff
#define P_AU_PSM_CNTXT_1_AU_PSM_ACCUMED 0xffff0000
#define P_AU_PSM_CNTXT_1_AU_ACKED 0xffff
#define P_PSM_CNTXT_2_PSM_DESC_VALID 0x80000000
#define P_PSM_CNTXT_2_PSM_DESC_IRQ 0x40000000
#define P_PSM_CNTXT_2_PSM_DESC_IRQ_DONE 0x20000000
#define P_PSM_CNTXT_2_PSM_GENERAL_BITS 0x1e000000
#define P_PSM_CNTXT_2_PSM_CONS_STATE 0x1c00000
#define P_PSM_CNTXT_2_PSM_PROD_SYS_STATE 0x380000
#define P_PSM_CNTXT_2_PSM_PROD_B2B_STATE 0x70000
#define P_PSM_CNTXT_2_PSM_DESC_SIZE 0xffff
#define P_PSM_CNTXT_4_PSM_DESC_OFST 0xffff0000
#define P_PSM_CNTXT_4_PSM_SAVED_ACCUMED_SIZE 0xffff
#define P_PSM_CNTXT_5_PSM_BLOCK_BYTE_CNT 0xffff0000
#define P_PSM_CNTXT_5_PSM_OFST_IN_DESC 0xffff
#endif
#define BAM_ERROR (-1)
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enum bam_regs {
CTRL,
REVISION,
SW_REVISION,
NUM_PIPES,
TIMER,
TIMER_CTRL,
DESC_CNT_TRSHLD,
IRQ_SRCS,
IRQ_SRCS_MSK,
IRQ_SRCS_UNMASKED,
IRQ_STTS,
IRQ_CLR,
IRQ_EN,
IRQ_SIC_SEL,
AHB_MASTER_ERR_CTRLS,
AHB_MASTER_ERR_ADDR,
AHB_MASTER_ERR_ADDR_MSB,
AHB_MASTER_ERR_DATA,
IRQ_DEST,
PERIPH_IRQ_DEST,
TRUST_REG,
TEST_BUS_SEL,
TEST_BUS_REG,
CNFG_BITS,
IRQ_SRCS_EE,
IRQ_SRCS_MSK_EE,
IRQ_SRCS_UNMASKED_EE,
PIPE_ATTR_EE,
P_CTRL,
P_RST,
P_HALT,
P_IRQ_STTS,
P_IRQ_CLR,
P_IRQ_EN,
P_TIMER,
P_TIMER_CTRL,
P_PRDCR_SDBND,
P_CNSMR_SDBND,
P_EVNT_DEST_ADDR,
P_EVNT_DEST_ADDR_MSB,
P_EVNT_REG,
P_SW_OFSTS,
P_DATA_FIFO_ADDR,
P_DATA_FIFO_ADDR_MSB,
P_DESC_FIFO_ADDR,
P_DESC_FIFO_ADDR_MSB,
P_EVNT_GEN_TRSHLD,
P_FIFO_SIZES,
P_IRQ_DEST_ADDR,
P_RETR_CNTXT,
P_SI_CNTXT,
P_DF_CNTXT,
P_AU_PSM_CNTXT_1,
P_PSM_CNTXT_2,
P_PSM_CNTXT_3,
P_PSM_CNTXT_3_MSB,
P_PSM_CNTXT_4,
P_PSM_CNTXT_5,
P_TRUST_REG,
BAM_MAX_REGS,
};
static u32 bam_regmap[][BAM_MAX_REGS] = {
{ /* LEGACY BAM*/
[CTRL] = 0xf80,
[REVISION] = 0xf84,
[NUM_PIPES] = 0xfbc,
[DESC_CNT_TRSHLD] = 0xf88,
[IRQ_SRCS] = 0xf8c,
[IRQ_SRCS_MSK] = 0xf90,
[IRQ_SRCS_UNMASKED] = 0xfb0,
[IRQ_STTS] = 0xf94,
[IRQ_CLR] = 0xf98,
[IRQ_EN] = 0xf9c,
[IRQ_SIC_SEL] = 0xfa0,
[AHB_MASTER_ERR_CTRLS] = 0xfa4,
[AHB_MASTER_ERR_ADDR] = 0xfa8,
[AHB_MASTER_ERR_DATA] = 0xfac,
[IRQ_DEST] = 0xfb4,
[PERIPH_IRQ_DEST] = 0xfb8,
[TRUST_REG] = 0xff0,
[TEST_BUS_SEL] = 0xff4,
[TEST_BUS_REG] = 0xff8,
[CNFG_BITS] = 0xffc,
[IRQ_SRCS_EE] = 0x1800,
[IRQ_SRCS_MSK_EE] = 0x1804,
[IRQ_SRCS_UNMASKED_EE] = 0x1808,
[P_CTRL] = 0x0,
[P_RST] = 0x4,
[P_HALT] = 0x8,
[P_IRQ_STTS] = 0x10,
[P_IRQ_CLR] = 0x14,
[P_IRQ_EN] = 0x18,
[P_TIMER] = 0x1c,
[P_TIMER_CTRL] = 0x20,
[P_PRDCR_SDBND] = 0x24,
[P_CNSMR_SDBND] = 0x28,
[P_EVNT_DEST_ADDR] = 0x102c,
[P_EVNT_REG] = 0x1018,
[P_SW_OFSTS] = 0x1000,
[P_DATA_FIFO_ADDR] = 0x1024,
[P_DESC_FIFO_ADDR] = 0x101c,
[P_EVNT_GEN_TRSHLD] = 0x1028,
[P_FIFO_SIZES] = 0x1020,
[P_IRQ_DEST_ADDR] = 0x103c,
[P_RETR_CNTXT] = 0x1034,
[P_SI_CNTXT] = 0x1038,
[P_AU_PSM_CNTXT_1] = 0x1004,
[P_PSM_CNTXT_2] = 0x1008,
[P_PSM_CNTXT_3] = 0x100c,
[P_PSM_CNTXT_4] = 0x1010,
[P_PSM_CNTXT_5] = 0x1014,
[P_TRUST_REG] = 0x30,
},
{ /* NDP BAM */
[CTRL] = 0x0,
[REVISION] = 0x4,
[SW_REVISION] = 0x80,
[NUM_PIPES] = 0x3c,
[TIMER] = 0x40,
[TIMER_CTRL] = 0x44,
[DESC_CNT_TRSHLD] = 0x8,
[IRQ_SRCS] = 0xc,
[IRQ_SRCS_MSK] = 0x10,
[IRQ_SRCS_UNMASKED] = 0x30,
[IRQ_STTS] = 0x14,
[IRQ_CLR] = 0x18,
[IRQ_EN] = 0x1c,
[AHB_MASTER_ERR_CTRLS] = 0x24,
[AHB_MASTER_ERR_ADDR] = 0x28,
[AHB_MASTER_ERR_ADDR_MSB] = 0x104,
[AHB_MASTER_ERR_DATA] = 0x2c,
[TRUST_REG] = 0x70,
[TEST_BUS_SEL] = 0x74,
[TEST_BUS_REG] = 0x78,
[CNFG_BITS] = 0x7c,
[IRQ_SRCS_EE] = 0x800,
[IRQ_SRCS_MSK_EE] = 0x804,
[IRQ_SRCS_UNMASKED_EE] = 0x808,
[PIPE_ATTR_EE] = 0x80c,
[P_CTRL] = 0x1000,
[P_RST] = 0x1004,
[P_HALT] = 0x1008,
[P_IRQ_STTS] = 0x1010,
[P_IRQ_CLR] = 0x1014,
[P_IRQ_EN] = 0x1018,
[P_TIMER] = 0x101c,
[P_TIMER_CTRL] = 0x1020,
[P_PRDCR_SDBND] = 0x1024,
[P_CNSMR_SDBND] = 0x1028,
[P_EVNT_DEST_ADDR] = 0x182c,
[P_EVNT_DEST_ADDR_MSB] = 0x1934,
[P_EVNT_REG] = 0x1818,
[P_SW_OFSTS] = 0x1800,
[P_DATA_FIFO_ADDR] = 0x1824,
[P_DATA_FIFO_ADDR_MSB] = 0x1924,
[P_DESC_FIFO_ADDR] = 0x181c,
[P_DESC_FIFO_ADDR_MSB] = 0x1914,
[P_EVNT_GEN_TRSHLD] = 0x1828,
[P_FIFO_SIZES] = 0x1820,
[P_RETR_CNTXT] = 0x1834,
[P_SI_CNTXT] = 0x1838,
[P_DF_CNTXT] = 0x1830,
[P_AU_PSM_CNTXT_1] = 0x1804,
[P_PSM_CNTXT_2] = 0x1808,
[P_PSM_CNTXT_3] = 0x180c,
[P_PSM_CNTXT_3_MSB] = 0x1904,
[P_PSM_CNTXT_4] = 0x1810,
[P_PSM_CNTXT_5] = 0x1814,
[P_TRUST_REG] = 0x1030,
},
{ /* 4K OFFSETs*/
[CTRL] = 0x0,
[REVISION] = 0x1000,
[SW_REVISION] = 0x1004,
[NUM_PIPES] = 0x1008,
[TIMER] = 0x40,
[TIMER_CTRL] = 0x44,
[DESC_CNT_TRSHLD] = 0x8,
[IRQ_SRCS] = 0x3010,
[IRQ_SRCS_MSK] = 0x3014,
[IRQ_SRCS_UNMASKED] = 0x3018,
[IRQ_STTS] = 0x14,
[IRQ_CLR] = 0x18,
[IRQ_EN] = 0x1c,
[AHB_MASTER_ERR_CTRLS] = 0x1024,
[AHB_MASTER_ERR_ADDR] = 0x1028,
[AHB_MASTER_ERR_ADDR_MSB] = 0x1104,
[AHB_MASTER_ERR_DATA] = 0x102c,
[TRUST_REG] = 0x2000,
[TEST_BUS_SEL] = 0x1010,
[TEST_BUS_REG] = 0x1014,
[CNFG_BITS] = 0x7c,
[IRQ_SRCS_EE] = 0x3000,
[IRQ_SRCS_MSK_EE] = 0x3004,
[IRQ_SRCS_UNMASKED_EE] = 0x3008,
[PIPE_ATTR_EE] = 0x300c,
[P_CTRL] = 0x13000,
[P_RST] = 0x13004,
[P_HALT] = 0x13008,
[P_IRQ_STTS] = 0x13010,
[P_IRQ_CLR] = 0x13014,
[P_IRQ_EN] = 0x13018,
[P_TIMER] = 0x1301c,
[P_TIMER_CTRL] = 0x13020,
[P_PRDCR_SDBND] = 0x13024,
[P_CNSMR_SDBND] = 0x13028,
[P_EVNT_DEST_ADDR] = 0x1382c,
[P_EVNT_DEST_ADDR_MSB] = 0x13934,
[P_EVNT_REG] = 0x13818,
[P_SW_OFSTS] = 0x13800,
[P_DATA_FIFO_ADDR] = 0x13824,
[P_DATA_FIFO_ADDR_MSB] = 0x13924,
[P_DESC_FIFO_ADDR] = 0x1381c,
[P_DESC_FIFO_ADDR_MSB] = 0x13914,
[P_EVNT_GEN_TRSHLD] = 0x13828,
[P_FIFO_SIZES] = 0x13820,
[P_RETR_CNTXT] = 0x13834,
[P_SI_CNTXT] = 0x13838,
[P_DF_CNTXT] = 0x13830,
[P_AU_PSM_CNTXT_1] = 0x13804,
[P_PSM_CNTXT_2] = 0x13808,
[P_PSM_CNTXT_3] = 0x1380c,
[P_PSM_CNTXT_3_MSB] = 0x13904,
[P_PSM_CNTXT_4] = 0x13810,
[P_PSM_CNTXT_5] = 0x13814,
[P_TRUST_REG] = 0x2020,
},
};
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/* AHB buffer error control */
enum bam_nonsecure_reset {
BAM_NONSECURE_RESET_ENABLE = 0,
BAM_NONSECURE_RESET_DISABLE = 1,
};
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static inline u32 bam_get_register_offset(void *base, enum bam_regs reg,
u32 param)
{
u32 index = BAM_ERROR, offset = 0;
u32 *ptr_reg = bam_regmap[bam_type];
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
if (reg >= CTRL && reg < IRQ_SRCS_EE)
index = 0;
if (reg >= IRQ_SRCS_EE && reg < P_CTRL)
index = (bam_type == SPS_BAM_NDP_4K) ? 0x1000 : 0x80;
if (reg >= P_CTRL && reg < P_TRUST_REG) {
if (bam_type == SPS_BAM_LEGACY) {
if (reg >= P_EVNT_DEST_ADDR)
index = 0x40;
else
index = 0x80;
} else
index = 0x1000;
} else if (P_TRUST_REG == reg) {
if (bam_type == SPS_BAM_LEGACY)
index = 0x80;
else
index = (bam_type == SPS_BAM_NDP_4K) ? 0x4 : 0x1000;
}
if (index < 0) {
SPS_ERR(dev, "%s:Failed to find register offset index\n",
__func__);
return index;
}
offset = *(ptr_reg + reg) + (index * param);
return offset;
}
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/**
*
* Read register with debug info.
*
* @base - bam base virtual address.
* @offset - register offset.
*
* @return u32
*/
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static inline u32 bam_read_reg(void *base, enum bam_regs reg, u32 param)
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{
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u32 val, offset = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
offset = bam_get_register_offset(base, reg, param);
if (offset < 0) {
SPS_ERR(dev, "%s:Failed to get the register offset\n",
__func__);
return offset;
}
val = ioread32(dev->base + offset);
SPS_DBG(dev, "sps:bam 0x%p(va) offset 0x%x reg 0x%x r_val 0x%x.\n",
dev->base, offset, reg, val);
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return val;
}
/**
* Read register masked field with debug info.
*
* @base - bam base virtual address.
* @offset - register offset.
* @mask - register bitmask.
*
* @return u32
*/
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static inline u32 bam_read_reg_field(void *base, enum bam_regs reg, u32 param,
const u32 mask)
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{
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u32 val, shift, offset = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
shift = find_first_bit((void *)&mask, 32);
offset = bam_get_register_offset(base, reg, param);
if (offset < 0) {
SPS_ERR(dev, "%s:Failed to get the register offset\n",
__func__);
return offset;
}
val = ioread32(dev->base + offset);
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val &= mask; /* clear other bits */
val >>= shift;
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SPS_DBG(dev, "sps:bam 0x%p(va) read reg 0x%x mask 0x%x r_val 0x%x.\n",
dev->base, offset, mask, val);
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return val;
}
/**
*
* Write register with debug info.
*
* @base - bam base virtual address.
* @offset - register offset.
* @val - value to write.
*
*/
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static inline void bam_write_reg(void *base, enum bam_regs reg,
u32 param, u32 val)
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{
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u32 offset = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
offset = bam_get_register_offset(base, reg, param);
if (offset < 0) {
SPS_ERR(dev, "%s:Failed to get the register offset\n",
__func__);
return;
}
iowrite32(val, dev->base + offset);
SPS_DBG(dev, "sps:bam 0x%p(va) write reg 0x%x w_val 0x%x.\n",
dev->base, offset, val);
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}
/**
* Write register masked field with debug info.
*
* @base - bam base virtual address.
* @offset - register offset.
* @mask - register bitmask.
* @val - value to write.
*
*/
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static inline void bam_write_reg_field(void *base, enum bam_regs reg,
u32 param, const u32 mask, u32 val)
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{
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u32 tmp, shift, offset = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
shift = find_first_bit((void *)&mask, 32);
offset = bam_get_register_offset(base, reg, param);
if (offset < 0) {
SPS_ERR(dev, "%s:Failed to get the register offset\n",
__func__);
return;
}
tmp = ioread32(dev->base + offset);
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tmp &= ~mask; /* clear written bits */
val = tmp | (val << shift);
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iowrite32(val, dev->base + offset);
SPS_DBG(dev, "sps:bam 0x%p(va) write reg 0x%x w_val 0x%x.\n",
dev->base, offset, val);
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}
/**
* Initialize a BAM device
*
*/
int bam_init(void *base, u32 ee,
u16 summing_threshold,
u32 irq_mask, u32 *version,
u32 *num_pipes, u32 options)
{
u32 cfg_bits;
u32 ver = 0;
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struct sps_bam *dev = to_sps_bam_dev(base);
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if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
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SPS_DBG3(dev, "sps:%s:bam=%pa 0x%p(va).ee=%d.", __func__,
BAM_ID(dev), dev->base, ee);
ver = bam_read_reg_field(base, REVISION, 0, BAM_REVISION);
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if ((ver < BAM_MIN_VERSION) || (ver > BAM_MAX_VERSION)) {
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SPS_ERR(dev, "sps:bam 0x%p(va) Invalid BAM REVISION 0x%x.\n",
dev->base, ver);
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return -ENODEV;
} else
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SPS_DBG(dev, "sps:REVISION of BAM 0x%p is 0x%x.\n",
dev->base, ver);
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if (summing_threshold == 0) {
summing_threshold = 4;
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SPS_ERR(dev,
"sps:bam 0x%p(va) summing_threshold is zero,use default 4.\n",
dev->base);
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}
if (options & SPS_BAM_NO_EXT_P_RST)
cfg_bits = 0xffffffff & ~(3 << 11);
else
cfg_bits = 0xffffffff & ~(1 << 11);
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bam_write_reg_field(base, CTRL, 0, BAM_SW_RST, 1);
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/* No delay needed */
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bam_write_reg_field(base, CTRL, 0, BAM_SW_RST, 0);
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bam_write_reg_field(base, CTRL, 0, BAM_EN, 1);
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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bam_write_reg_field(base, CTRL, 0, CACHE_MISS_ERR_RESP_EN, 0);
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if (options & SPS_BAM_NO_LOCAL_CLK_GATING)
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bam_write_reg_field(base, CTRL, 0, LOCAL_CLK_GATING, 0);
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else
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bam_write_reg_field(base, CTRL, 0, LOCAL_CLK_GATING, 1);
if (enhd_pipe) {
if (options & SPS_BAM_CANCEL_WB)
bam_write_reg_field(base, CTRL, 0,
BAM_MESS_ONLY_CANCEL_WB, 1);
else
bam_write_reg_field(base, CTRL, 0,
BAM_MESS_ONLY_CANCEL_WB, 0);
}
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#endif
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bam_write_reg(base, DESC_CNT_TRSHLD, 0, summing_threshold);
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bam_write_reg(base, CNFG_BITS, 0, cfg_bits);
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/*
* Enable Global BAM Interrupt - for error reasons ,
* filter with mask.
* Note: Pipes interrupts are disabled until BAM_P_IRQ_enn is set
*/
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bam_write_reg_field(base, IRQ_SRCS_MSK_EE, ee, BAM_IRQ, 1);
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bam_write_reg(base, IRQ_EN, 0, irq_mask);
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*num_pipes = bam_read_reg_field(base, NUM_PIPES, 0, BAM_NUM_PIPES);
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*version = ver;
return 0;
}
/**
* Set BAM global execution environment
*
* @base - BAM virtual base address
*
* @ee - BAM execution environment index
*
* @vmid - virtual master identifier
*
* @reset - enable/disable BAM global software reset
*/
static void bam_set_ee(void *base, u32 ee, u32 vmid,
enum bam_nonsecure_reset reset)
{
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bam_write_reg_field(base, TRUST_REG, 0, BAM_EE, ee);
bam_write_reg_field(base, TRUST_REG, 0, BAM_VMID, vmid);
bam_write_reg_field(base, TRUST_REG, 0, BAM_RST_BLOCK, reset);
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}
/**
* Set the pipe execution environment
*
* @base - BAM virtual base address
*
* @pipe - pipe index
*
* @ee - BAM execution environment index
*
* @vmid - virtual master identifier
*/
static void bam_pipe_set_ee(void *base, u32 pipe, u32 ee, u32 vmid)
{
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bam_write_reg_field(base, P_TRUST_REG, pipe, BAM_P_EE, ee);
bam_write_reg_field(base, P_TRUST_REG, pipe, BAM_P_VMID, vmid);
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}
/**
* Initialize BAM device security execution environment
*/
int bam_security_init(void *base, u32 ee, u32 vmid, u32 pipe_mask)
{
u32 version;
u32 num_pipes;
u32 mask;
u32 pipe;
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struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
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SPS_DBG3(dev, "sps:%s:bam=%pa 0x%p(va).", __func__,
BAM_ID(dev), dev->base);
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/*
* Discover the hardware version number and the number of pipes
* supported by this BAM
*/
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version = bam_read_reg_field(base, REVISION, 0, BAM_REVISION);
num_pipes = bam_read_reg_field(base, NUM_PIPES, 0, BAM_NUM_PIPES);
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if (version < 3 || version > 0x1F) {
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SPS_ERR(dev,
"sps:bam 0x%p(va) security is not supported for this BAM version 0x%x.\n",
dev->base, version);
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return -ENODEV;
}
if (num_pipes > BAM_MAX_PIPES) {
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SPS_ERR(dev,
"sps:bam 0x%p(va) the number of pipes is more than the maximum number allowed.\n",
dev->base);
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return -ENODEV;
}
for (pipe = 0, mask = 1; pipe < num_pipes; pipe++, mask <<= 1)
if ((mask & pipe_mask) != 0)
bam_pipe_set_ee(base, pipe, ee, vmid);
/* If MSbit is set, assign top-level interrupt to this EE */
mask = 1UL << 31;
if ((mask & pipe_mask) != 0)
bam_set_ee(base, ee, vmid, BAM_NONSECURE_RESET_ENABLE);
return 0;
}
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
static inline u32 bam_get_pipe_attr(void *base, u32 ee, bool global)
{
u32 val;
if (global)
val = bam_read_reg_field(base, PIPE_ATTR_EE, ee, BAM_ENABLED);
else
val = bam_read_reg_field(base, PIPE_ATTR_EE, ee, P_ATTR);
return val;
}
#else
static inline u32 bam_get_pipe_attr(void *base, u32 ee, bool global)
{
return 0;
}
#endif
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/**
* Verify that a BAM device is enabled and gathers the hardware
* configuration.
*
*/
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int bam_check(void *base, u32 *version, u32 ee, u32 *num_pipes)
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{
u32 ver = 0;
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u32 enabled = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
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if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
SPS_DBG3(dev, "sps:%s:bam=%pa 0x%p(va).",
__func__, BAM_ID(dev), dev->base);
if (!enhd_pipe)
enabled = bam_read_reg_field(base, CTRL, 0, BAM_EN);
else
enabled = bam_get_pipe_attr(base, ee, true);
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if (!enabled) {
SPS_ERR(dev, "sps:%s:bam 0x%p(va) is not enabled.\n",
__func__, dev->base);
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return -ENODEV;
}
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ver = bam_read_reg(base, REVISION, 0) & BAM_REVISION;
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/*
* Discover the hardware version number and the number of pipes
* supported by this BAM
*/
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*num_pipes = bam_read_reg_field(base, NUM_PIPES, 0, BAM_NUM_PIPES);
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*version = ver;
/* Check BAM version */
if ((ver < BAM_MIN_VERSION) || (ver > BAM_MAX_VERSION)) {
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SPS_ERR(dev, "sps:%s:bam 0x%p(va) Invalid BAM version 0x%x.\n",
__func__, dev->base, ver);
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return -ENODEV;
}
return 0;
}
/**
* Disable a BAM device
*
*/
void bam_exit(void *base, u32 ee)
{
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struct sps_bam *dev = to_sps_bam_dev(base);
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if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG3(dev, "sps:%s:bam=%pa 0x%p(va).ee=%d.",
__func__, BAM_ID(dev), dev->base, ee);
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bam_write_reg_field(base, IRQ_SRCS_MSK_EE, ee, BAM_IRQ, 0);
bam_write_reg(base, IRQ_EN, 0, 0);
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/* Disable the BAM */
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bam_write_reg_field(base, CTRL, 0, BAM_EN, 0);
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}
/**
* Output BAM register content
* including the TEST_BUS register content under
* different TEST_BUS_SEL values.
*/
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void bam_output_register_content(void *base, u32 ee)
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{
u32 num_pipes;
u32 i;
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u32 pipe_attr = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
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print_bam_test_bus_reg(base, 0);
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print_bam_selected_reg(dev->base, BAM_MAX_EES);
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num_pipes = bam_read_reg_field(base, NUM_PIPES, 0,
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BAM_NUM_PIPES);
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SPS_INFO(dev, "sps:bam %pa 0x%p(va) has %d pipes.",
BAM_ID(dev), dev->base, num_pipes);
pipe_attr = enhd_pipe ?
bam_get_pipe_attr(base, ee, false) : 0x0;
if (!enhd_pipe || !pipe_attr)
for (i = 0; i < num_pipes; i++)
print_bam_pipe_selected_reg(dev->base, i);
else {
for (i = 0; i < num_pipes; i++) {
if (pipe_attr & (1UL << i))
print_bam_pipe_selected_reg(dev->base, i);
}
}
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}
/**
* Get BAM IRQ source and clear global IRQ status
*/
u32 bam_check_irq_source(void *base, u32 ee, u32 mask,
enum sps_callback_case *cb_case)
{
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u32 source = 0, clr = 0;
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
source = bam_read_reg(base, IRQ_SRCS_EE, ee);
clr = source & (1UL << 31);
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if (clr) {
u32 status = 0;
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status = bam_read_reg(base, IRQ_STTS, 0);
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if (status & IRQ_STTS_BAM_ERROR_IRQ) {
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SPS_ERR(dev, "sps:bam %pa 0x%p(va);bam irq status="
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"0x%x.\nsps: BAM_ERROR_IRQ\n",
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BAM_ID(dev), dev->base, status);
bam_output_register_content(base, ee);
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*cb_case = SPS_CALLBACK_BAM_ERROR_IRQ;
} else if (status & IRQ_STTS_BAM_HRESP_ERR_IRQ) {
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SPS_ERR(dev, "sps:bam %pa 0x%p(va);bam irq status="
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"0x%x.\nsps: BAM_HRESP_ERR_IRQ\n",
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BAM_ID(dev), dev->base, status);
bam_output_register_content(base, ee);
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*cb_case = SPS_CALLBACK_BAM_HRESP_ERR_IRQ;
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
} else if (status & IRQ_STTS_BAM_TIMER_IRQ) {
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SPS_DBG1(dev,
"sps:bam 0x%p(va);receive BAM_TIMER_IRQ\n",
dev->base);
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*cb_case = SPS_CALLBACK_BAM_TIMER_IRQ;
#endif
} else
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SPS_INFO(dev,
"sps:bam %pa 0x%p(va);bam irq status=0x%x.\n",
BAM_ID(dev), dev->base, status);
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bam_write_reg(base, IRQ_CLR, 0, status);
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}
source &= (mask|(1UL << 31));
return source;
}
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/*
* Reset a BAM pipe
*/
void bam_pipe_reset(void *base, u32 pipe)
{
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG2(dev, "sps:%s:bam=%pa 0x%p(va).pipe=%d.",
__func__, BAM_ID(dev), dev->base, pipe);
bam_write_reg(base, P_RST, pipe, 1);
wmb(); /* ensure pipe is reset */
bam_write_reg(base, P_RST, pipe, 0);
wmb(); /* ensure pipe reset is de-asserted*/
}
/*
* Disable a BAM pipe
*/
void bam_disable_pipe(void *base, u32 pipe)
{
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG2(dev, "sps:%s:bam=0x%p(va).pipe=%d.", __func__, base, pipe);
bam_write_reg_field(base, P_CTRL, pipe, P_EN, 0);
wmb(); /* ensure pipe is disabled */
}
/*
* Check if the last desc is ZLT
*/
bool bam_pipe_check_zlt(void *base, u32 pipe)
{
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return false;
}
if (bam_read_reg_field(base, P_HALT, pipe, P_HALT_P_LAST_DESC_ZLT)) {
SPS_DBG(dev,
"sps:%s:bam=0x%p(va).pipe=%d: the last desc is ZLT.",
__func__, base, pipe);
return true;
}
SPS_DBG(dev,
"sps:%s:bam=0x%p(va).pipe=%d: the last desc is not ZLT.",
__func__, base, pipe);
return false;
}
/*
* Check if desc FIFO is empty
*/
bool bam_pipe_check_pipe_empty(void *base, u32 pipe)
{
struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return false;
}
if (bam_read_reg_field(base, P_HALT, pipe, P_HALT_P_PIPE_EMPTY)) {
SPS_DBG(dev,
"sps:%s:bam=0x%p(va).pipe=%d: desc FIFO is empty.",
__func__, base, pipe);
return true;
}
SPS_DBG(dev,
"sps:%s:bam=0x%p(va).pipe=%d: desc FIFO is not empty.",
__func__, base, pipe);
return false;
}
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/**
* Initialize a BAM pipe
*/
int bam_pipe_init(void *base, u32 pipe, struct bam_pipe_parameters *param,
u32 ee)
{
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struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return SPS_ERROR;
}
SPS_DBG2(dev, "sps:%s:bam=%pa 0x%p(va).pipe=%d.",
__func__, BAM_ID(dev), dev->base, pipe);
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/* Reset the BAM pipe */
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bam_write_reg(base, P_RST, pipe, 1);
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/* No delay needed */
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bam_write_reg(base, P_RST, pipe, 0);
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/* Enable the Pipe Interrupt at the BAM level */
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bam_write_reg_field(base, IRQ_SRCS_MSK_EE, ee, (1 << pipe), 1);
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bam_write_reg(base, P_IRQ_EN, pipe, param->pipe_irq_mask);
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bam_write_reg_field(base, P_CTRL, pipe, P_DIRECTION, param->dir);
bam_write_reg_field(base, P_CTRL, pipe, P_SYS_MODE, param->mode);
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bam_write_reg(base, P_EVNT_GEN_TRSHLD, pipe, param->event_threshold);
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bam_write_reg(base, P_DESC_FIFO_ADDR, pipe,
SPS_GET_LOWER_ADDR(param->desc_base));
bam_write_reg_field(base, P_FIFO_SIZES, pipe, P_DESC_FIFO_SIZE,
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param->desc_size);
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bam_write_reg_field(base, P_CTRL, pipe, P_SYS_STRM,
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param->stream_mode);
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (SPS_LPAE && SPS_GET_UPPER_ADDR(param->desc_base))
bam_write_reg(base, P_DESC_FIFO_ADDR_MSB, pipe,
SPS_GET_UPPER_ADDR(param->desc_base));
bam_write_reg_field(base, P_CTRL, pipe, P_LOCK_GROUP,
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param->lock_group);
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SPS_DBG(dev, "sps:bam=0x%p(va).pipe=%d.lock_group=%d.\n",
dev->base, pipe, param->lock_group);
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#endif
if (param->mode == BAM_PIPE_MODE_BAM2BAM) {
u32 peer_dest_addr = param->peer_phys_addr +
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bam_get_register_offset(base, P_EVNT_REG,
param->peer_pipe);
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bam_write_reg(base, P_DATA_FIFO_ADDR, pipe,
SPS_GET_LOWER_ADDR(param->data_base));
bam_write_reg_field(base, P_FIFO_SIZES, pipe,
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P_DATA_FIFO_SIZE, param->data_size);
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bam_write_reg(base, P_EVNT_DEST_ADDR, pipe, peer_dest_addr);
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SPS_DBG2(dev, "sps:bam=0x%p(va).pipe=%d.peer_bam=0x%x."
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"peer_pipe=%d.\n",
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dev->base, pipe,
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(u32) param->peer_phys_addr,
param->peer_pipe);
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (SPS_LPAE && SPS_GET_UPPER_ADDR(param->data_base)) {
bam_write_reg(base, P_EVNT_DEST_ADDR_MSB, pipe, 0x0);
bam_write_reg(base, P_DATA_FIFO_ADDR_MSB, pipe,
SPS_GET_UPPER_ADDR(param->data_base));
}
bam_write_reg_field(base, P_CTRL, pipe, P_WRITE_NWD,
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param->write_nwd);
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SPS_DBG(dev, "sps:%s WRITE_NWD bit for this bam2bam pipe.",
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param->write_nwd ? "Set" : "Do not set");
#endif
}
/* Pipe Enable - at last */
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bam_write_reg_field(base, P_CTRL, pipe, P_EN, 1);
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return 0;
}
/**
* Reset the BAM pipe
*
*/
void bam_pipe_exit(void *base, u32 pipe, u32 ee)
{
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struct sps_bam *dev = to_sps_bam_dev(base);
if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG2(dev, "sps:%s:bam=%pa 0x%p(va).pipe=%d.",
__func__, BAM_ID(dev), dev->base, pipe);
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bam_write_reg(base, P_IRQ_EN, pipe, 0);
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/* Disable the Pipe Interrupt at the BAM level */
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bam_write_reg_field(base, IRQ_SRCS_MSK_EE, ee, (1 << pipe), 0);
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/* Pipe Disable */
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bam_write_reg_field(base, P_CTRL, pipe, P_EN, 0);
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}
/**
* Enable a BAM pipe
*
*/
void bam_pipe_enable(void *base, u32 pipe)
{
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struct sps_bam *dev = to_sps_bam_dev(base);
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if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG2(dev, "sps:%s:bam=%pa 0x%p(va).pipe=%d.",
__func__, BAM_ID(dev), dev->base, pipe);
if (bam_read_reg_field(base, P_CTRL, pipe, P_EN))
SPS_DBG2(dev, "sps:bam=0x%p(va).pipe=%d is already enabled.\n",
dev->base, pipe);
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else
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bam_write_reg_field(base, P_CTRL, pipe, P_EN, 1);
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}
/**
* Diasble a BAM pipe
*
*/
void bam_pipe_disable(void *base, u32 pipe)
{
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struct sps_bam *dev = to_sps_bam_dev(base);
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if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG2(dev, "sps:%s:bam=%pa 0x%p(va).pipe=%d.",
__func__, BAM_ID(dev), dev->base, pipe);
bam_write_reg_field(base, P_CTRL, pipe, P_EN, 0);
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}
/**
* Check if a BAM pipe is enabled.
*
*/
int bam_pipe_is_enabled(void *base, u32 pipe)
{
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return bam_read_reg_field(base, P_CTRL, pipe, P_EN);
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}
/**
* Configure interrupt for a BAM pipe
*
*/
void bam_pipe_set_irq(void *base, u32 pipe, enum bam_enable irq_en,
u32 src_mask, u32 ee)
{
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struct sps_bam *dev = to_sps_bam_dev(base);
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if ((dev == NULL) || (&dev->base != base)) {
SPS_ERR(sps, "%s:Failed to get dev for base addr 0x%p\n",
__func__, base);
return;
}
SPS_DBG2(dev,
"sps:%s:bam=%pa 0x%p(va).pipe=%d; irq_en:%d; src_mask:0x%x; ee:%d.\n",
__func__, BAM_ID(dev), dev->base, pipe,
irq_en, src_mask, ee);
if (src_mask & BAM_PIPE_IRQ_RST_ERROR) {
if (enhd_pipe)
bam_write_reg_field(base, IRQ_EN, 0,
IRQ_EN_BAM_ERROR_EN, 0);
else {
src_mask &= ~BAM_PIPE_IRQ_RST_ERROR;
SPS_DBG2(dev,
"sps:%s:SPS_O_RST_ERROR is not supported\n",
__func__);
}
}
if (src_mask & BAM_PIPE_IRQ_HRESP_ERROR) {
if (enhd_pipe)
bam_write_reg_field(base, IRQ_EN, 0,
IRQ_EN_BAM_HRESP_ERR_EN, 0);
else {
src_mask &= ~BAM_PIPE_IRQ_HRESP_ERROR;
SPS_DBG2(dev,
"sps:%s:SPS_O_HRESP_ERROR is not supported\n",
__func__);
}
}
bam_write_reg(base, P_IRQ_EN, pipe, src_mask);
bam_write_reg_field(base, IRQ_SRCS_MSK_EE, ee, (1 << pipe), irq_en);
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}
/**
* Configure a BAM pipe for satellite MTI use
*
*/
void bam_pipe_satellite_mti(void *base, u32 pipe, u32 irq_gen_addr, u32 ee)
{
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bam_write_reg(base, P_IRQ_EN, pipe, 0);
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#ifndef CONFIG_SPS_SUPPORT_NDP_BAM
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bam_write_reg(base, P_IRQ_DEST_ADDR, pipe, irq_gen_addr);
bam_write_reg_field(base, IRQ_SIC_SEL, 0, (1 << pipe), 1);
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#endif
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bam_write_reg_field(base, IRQ_SRCS_MSK, 0, (1 << pipe), 1);
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}
/**
* Configure MTI for a BAM pipe
*
*/
void bam_pipe_set_mti(void *base, u32 pipe, enum bam_enable irq_en,
u32 src_mask, u32 irq_gen_addr)
{
/*
* MTI use is only supported on BAMs when global config is controlled
* by a remote processor.
* Consequently, the global configuration register to enable SIC (MTI)
* support cannot be accessed.
* The remote processor must be relied upon to enable the SIC and the
* interrupt. Since the remote processor enable both SIC and interrupt,
* the interrupt enable mask must be set to zero for polling mode.
*/
#ifndef CONFIG_SPS_SUPPORT_NDP_BAM
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bam_write_reg(base, P_IRQ_DEST_ADDR, pipe, irq_gen_addr);
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#endif
if (!irq_en)
src_mask = 0;
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bam_write_reg(base, P_IRQ_EN, pipe, src_mask);
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}
/**
* Get and Clear BAM pipe IRQ status
*
*/
u32 bam_pipe_get_and_clear_irq_status(void *base, u32 pipe)
{
u32 status = 0;
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status = bam_read_reg(base, P_IRQ_STTS, pipe);
bam_write_reg(base, P_IRQ_CLR, pipe, status);
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return status;
}
/**
* Set write offset for a BAM pipe
*
*/
void bam_pipe_set_desc_write_offset(void *base, u32 pipe, u32 next_write)
{
/*
* It is not necessary to perform a read-modify-write masking to write
* the P_DESC_FIFO_PEER_OFST value, since the other field in the
* register (P_BYTES_CONSUMED) is read-only.
*/
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bam_write_reg_field(base, P_EVNT_REG, pipe, P_DESC_FIFO_PEER_OFST,
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next_write);
}
/**
* Get write offset for a BAM pipe
*
*/
u32 bam_pipe_get_desc_write_offset(void *base, u32 pipe)
{
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return bam_read_reg_field(base, P_EVNT_REG, pipe,
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P_DESC_FIFO_PEER_OFST);
}
/**
* Get read offset for a BAM pipe
*
*/
u32 bam_pipe_get_desc_read_offset(void *base, u32 pipe)
{
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return bam_read_reg_field(base, P_SW_OFSTS, pipe, SW_DESC_OFST);
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}
/**
* Configure inactivity timer count for a BAM pipe
*
*/
void bam_pipe_timer_config(void *base, u32 pipe, enum bam_pipe_timer_mode mode,
u32 timeout_count)
{
u32 for_all_pipes = 0;
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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for_all_pipes = bam_read_reg_field(base, REVISION, 0,
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BAM_NUM_INACTIV_TMRS);
#endif
if (for_all_pipes) {
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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bam_write_reg_field(base, TIMER_CTRL, 0, TIMER_MODE, mode);
bam_write_reg_field(base, TIMER_CTRL, 0, TIMER_TRSHLD,
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timeout_count);
#endif
} else {
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bam_write_reg_field(base, P_TIMER_CTRL, pipe, P_TIMER_MODE,
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mode);
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bam_write_reg_field(base, P_TIMER_CTRL, pipe, P_TIMER_TRSHLD,
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timeout_count);
}
}
/**
* Reset inactivity timer for a BAM pipe
*
*/
void bam_pipe_timer_reset(void *base, u32 pipe)
{
u32 for_all_pipes = 0;
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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for_all_pipes = bam_read_reg_field(base, REVISION, 0,
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BAM_NUM_INACTIV_TMRS);
#endif
if (for_all_pipes) {
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
/* reset */
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bam_write_reg_field(base, TIMER_CTRL, 0, TIMER_RST, 0);
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/* active */
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bam_write_reg_field(base, TIMER_CTRL, 0, TIMER_RST, 1);
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#endif
} else {
/* reset */
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bam_write_reg_field(base, P_TIMER_CTRL, pipe, P_TIMER_RST, 0);
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/* active */
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bam_write_reg_field(base, P_TIMER_CTRL, pipe, P_TIMER_RST, 1);
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}
}
/**
* Get inactivity timer count for a BAM pipe
*
*/
u32 bam_pipe_timer_get_count(void *base, u32 pipe)
{
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return bam_read_reg(base, P_TIMER, pipe);
}
/* halt and un-halt a pipe */
void bam_pipe_halt(void *base, u32 pipe, bool halt)
{
if (halt)
bam_write_reg_field(base, P_HALT, pipe, P_HALT_P_HALT, 1);
else
bam_write_reg_field(base, P_HALT, pipe, P_HALT_P_HALT, 0);
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}
/* output the content of BAM-level registers */
void print_bam_reg(void *virt_addr)
{
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int i, n, index = 0;
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u32 *bam = (u32 *) virt_addr;
u32 ctrl;
u32 ver;
u32 pipes;
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u32 offset = 0;
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if (bam == NULL)
return;
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (bam_type == SPS_BAM_NDP_4K) {
ctrl = bam[0x0 / 4];
ver = bam[0x1000 / 4];
pipes = bam[0x1008 / 4];
} else {
ctrl = bam[0x0 / 4];
ver = bam[0x4 / 4];
pipes = bam[0x3c / 4];
}
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#else
ctrl = bam[0xf80 / 4];
ver = bam[0xf84 / 4];
pipes = bam[0xfbc / 4];
#endif
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SPS_DUMP("%s",
"\nsps:<bam-begin> --- Content of BAM-level registers---\n");
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SPS_DUMP("BAM_CTRL: 0x%x.\n", ctrl);
SPS_DUMP("BAM_REVISION: 0x%x.\n", ver);
SPS_DUMP("NUM_PIPES: 0x%x.\n", pipes);
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (bam_type == SPS_BAM_NDP_4K)
offset = 0x301c;
else
offset = 0x80;
for (i = 0x0; i < offset; i += 0x10)
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#else
for (i = 0xf80; i < 0x1000; i += 0x10)
#endif
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SPS_DUMP("bam addr 0x%x: 0x%x,0x%x,0x%x,0x%x.\n", i,
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bam[i / 4], bam[(i / 4) + 1],
bam[(i / 4) + 2], bam[(i / 4) + 3]);
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (bam_type == SPS_BAM_NDP_4K) {
offset = 0x3000;
index = 0x1000;
} else {
offset = 0x800;
index = 0x80;
}
for (i = offset, n = 0; n++ < 8; i += index)
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#else
for (i = 0x1800, n = 0; n++ < 4; i += 0x80)
#endif
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SPS_DUMP("bam addr 0x%x: 0x%x,0x%x,0x%x,0x%x.\n", i,
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bam[i / 4], bam[(i / 4) + 1],
bam[(i / 4) + 2], bam[(i / 4) + 3]);
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SPS_DUMP("%s",
"\nsps:<bam-begin> --- Content of BAM-level registers ---\n");
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}
/* output the content of BAM pipe registers */
void print_bam_pipe_reg(void *virt_addr, u32 pipe_index)
{
int i;
u32 *bam = (u32 *) virt_addr;
u32 pipe = pipe_index;
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u32 offset = 0;
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if (bam == NULL)
return;
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SPS_DUMP("\nsps:<pipe-begin> --- Content of Pipe %d registers ---\n",
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pipe);
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SPS_DUMP("%s", "-- Pipe Management Registers --\n");
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (bam_type == SPS_BAM_NDP_4K)
offset = 0x13000;
else
offset = 0x1000;
for (i = offset + 0x1000 * pipe; i < offset + 0x1000 * pipe + 0x80;
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i += 0x10)
#else
for (i = 0x0000 + 0x80 * pipe; i < 0x0000 + 0x80 * (pipe + 1);
i += 0x10)
#endif
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SPS_DUMP("bam addr 0x%x: 0x%x,0x%x,0x%x,0x%x.\n", i,
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bam[i / 4], bam[(i / 4) + 1],
bam[(i / 4) + 2], bam[(i / 4) + 3]);
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SPS_DUMP("%s",
"-- Pipe Configuration and Internal State Registers --\n");
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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if (bam_type == SPS_BAM_NDP_4K)
offset = 0x13800;
else
offset = 0x1800;
for (i = offset + 0x1000 * pipe; i < offset + 0x1000 * pipe + 0x40;
i += 0x10)
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#else
for (i = 0x1000 + 0x40 * pipe; i < 0x1000 + 0x40 * (pipe + 1);
i += 0x10)
#endif
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SPS_DUMP("bam addr 0x%x: 0x%x,0x%x,0x%x,0x%x.\n", i,
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bam[i / 4], bam[(i / 4) + 1],
bam[(i / 4) + 2], bam[(i / 4) + 3]);
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SPS_DUMP("\nsps:<pipe-end> --- Content of Pipe %d registers ---\n",
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pipe);
}
/* output the content of selected BAM-level registers */
void print_bam_selected_reg(void *virt_addr, u32 ee)
{
void *base = virt_addr;
u32 bam_ctrl;
u32 bam_revision;
u32 bam_rev_num;
u32 bam_rev_ee_num;
u32 bam_num_pipes;
u32 bam_pipe_num;
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u32 bam_data_addr_bus_width;
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u32 bam_desc_cnt_trshld;
u32 bam_desc_cnt_trd_val;
u32 bam_irq_en;
u32 bam_irq_stts;
u32 bam_irq_src_ee = 0;
u32 bam_irq_msk_ee = 0;
u32 bam_irq_unmsk_ee = 0;
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u32 bam_pipe_attr_ee = 0;
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u32 bam_ahb_err_ctrl;
u32 bam_ahb_err_addr;
u32 bam_ahb_err_data;
u32 bam_cnfg_bits;
u32 bam_sw_rev = 0;
u32 bam_timer = 0;
u32 bam_timer_ctrl = 0;
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u32 bam_ahb_err_addr_msb = 0;
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if (base == NULL)
return;
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bam_ctrl = bam_read_reg(base, CTRL, 0);
bam_revision = bam_read_reg(base, REVISION, 0);
bam_rev_num = bam_read_reg_field(base, REVISION, 0, BAM_REVISION);
bam_rev_ee_num = bam_read_reg_field(base, REVISION, 0, BAM_NUM_EES);
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bam_num_pipes = bam_read_reg(base, NUM_PIPES, 0);
bam_pipe_num = bam_read_reg_field(base, NUM_PIPES, 0, BAM_NUM_PIPES);
bam_data_addr_bus_width = bam_read_reg_field(base, NUM_PIPES, 0,
BAM_DATA_ADDR_BUS_WIDTH);
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bam_desc_cnt_trshld = bam_read_reg(base, DESC_CNT_TRSHLD, 0);
bam_desc_cnt_trd_val = bam_read_reg_field(base, DESC_CNT_TRSHLD, 0,
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BAM_DESC_CNT_TRSHLD);
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bam_irq_en = bam_read_reg(base, IRQ_EN, 0);
bam_irq_stts = bam_read_reg(base, IRQ_STTS, 0);
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if (ee < BAM_MAX_EES) {
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bam_irq_src_ee = bam_read_reg(base, IRQ_SRCS_EE, ee);
bam_irq_msk_ee = bam_read_reg(base, IRQ_SRCS_MSK_EE, ee);
bam_irq_unmsk_ee = bam_read_reg(base, IRQ_SRCS_UNMASKED_EE, ee);
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}
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bam_ahb_err_ctrl = bam_read_reg(base, AHB_MASTER_ERR_CTRLS, 0);
bam_ahb_err_addr = bam_read_reg(base, AHB_MASTER_ERR_ADDR, 0);
bam_ahb_err_data = bam_read_reg(base, AHB_MASTER_ERR_DATA, 0);
bam_cnfg_bits = bam_read_reg(base, CNFG_BITS, 0);
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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bam_sw_rev = bam_read_reg(base, SW_REVISION, 0);
bam_timer = bam_read_reg(base, TIMER, 0);
bam_timer_ctrl = bam_read_reg(base, TIMER_CTRL, 0);
bam_ahb_err_addr_msb = SPS_LPAE ?
bam_read_reg(base, AHB_MASTER_ERR_ADDR_MSB, 0) : 0;
if (ee < BAM_MAX_EES)
bam_pipe_attr_ee = enhd_pipe ?
bam_read_reg(base, PIPE_ATTR_EE, ee) : 0x0;
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#endif
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SPS_DUMP("%s", "\nsps:<bam-begin> --- BAM-level registers ---\n\n");
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SPS_DUMP("BAM_CTRL: 0x%x\n", bam_ctrl);
SPS_DUMP("BAM_REVISION: 0x%x\n", bam_revision);
SPS_DUMP(" REVISION: 0x%x\n", bam_rev_num);
SPS_DUMP(" NUM_EES: %d\n", bam_rev_ee_num);
SPS_DUMP("BAM_SW_REVISION: 0x%x\n", bam_sw_rev);
SPS_DUMP("BAM_NUM_PIPES: %d\n", bam_num_pipes);
SPS_DUMP("BAM_DATA_ADDR_BUS_WIDTH: %d\n",
((bam_data_addr_bus_width == 0x0) ? 32 : 36));
SPS_DUMP(" NUM_PIPES: %d\n", bam_pipe_num);
SPS_DUMP("BAM_DESC_CNT_TRSHLD: 0x%x\n", bam_desc_cnt_trshld);
SPS_DUMP(" DESC_CNT_TRSHLD: 0x%x (%d)\n", bam_desc_cnt_trd_val,
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bam_desc_cnt_trd_val);
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SPS_DUMP("BAM_IRQ_EN: 0x%x\n", bam_irq_en);
SPS_DUMP("BAM_IRQ_STTS: 0x%x\n", bam_irq_stts);
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if (ee < BAM_MAX_EES) {
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SPS_DUMP("BAM_IRQ_SRCS_EE(%d): 0x%x\n", ee, bam_irq_src_ee);
SPS_DUMP("BAM_IRQ_SRCS_MSK_EE(%d): 0x%x\n", ee, bam_irq_msk_ee);
SPS_DUMP("BAM_IRQ_SRCS_UNMASKED_EE(%d): 0x%x\n", ee,
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bam_irq_unmsk_ee);
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SPS_DUMP("BAM_PIPE_ATTR_EE(%d): 0x%x\n", ee, bam_pipe_attr_ee);
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}
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SPS_DUMP("BAM_AHB_MASTER_ERR_CTRLS: 0x%x\n", bam_ahb_err_ctrl);
SPS_DUMP("BAM_AHB_MASTER_ERR_ADDR: 0x%x\n", bam_ahb_err_addr);
SPS_DUMP("BAM_AHB_MASTER_ERR_ADDR_MSB: 0x%x\n", bam_ahb_err_addr_msb);
SPS_DUMP("BAM_AHB_MASTER_ERR_DATA: 0x%x\n", bam_ahb_err_data);
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SPS_DUMP("BAM_CNFG_BITS: 0x%x\n", bam_cnfg_bits);
SPS_DUMP("BAM_TIMER: 0x%x\n", bam_timer);
SPS_DUMP("BAM_TIMER_CTRL: 0x%x\n", bam_timer_ctrl);
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SPS_DUMP("%s", "\nsps:<bam-end> --- BAM-level registers ---\n\n");
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}
/* output the content of selected BAM pipe registers */
void print_bam_pipe_selected_reg(void *virt_addr, u32 pipe_index)
{
void *base = virt_addr;
u32 pipe = pipe_index;
u32 p_ctrl;
u32 p_sys_mode;
u32 p_direction;
u32 p_lock_group = 0;
u32 p_irq_en;
u32 p_irq_stts;
u32 p_irq_stts_eot;
u32 p_irq_stts_int;
u32 p_prd_sdbd;
u32 p_bytes_free;
u32 p_prd_ctrl;
u32 p_prd_toggle;
u32 p_prd_sb_updated;
u32 p_con_sdbd;
u32 p_bytes_avail;
u32 p_con_ctrl;
u32 p_con_toggle;
u32 p_con_ack_toggle;
u32 p_con_ack_toggle_r;
u32 p_con_wait_4_ack;
u32 p_con_sb_updated;
u32 p_sw_offset;
u32 p_read_pointer;
u32 p_evnt_reg;
u32 p_write_pointer;
u32 p_evnt_dest;
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u32 p_evnt_dest_msb = 0;
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u32 p_desc_fifo_addr;
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u32 p_desc_fifo_addr_msb = 0;
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u32 p_desc_fifo_size;
u32 p_data_fifo_addr;
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u32 p_data_fifo_addr_msb = 0;
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u32 p_data_fifo_size;
u32 p_fifo_sizes;
u32 p_evnt_trd;
u32 p_evnt_trd_val;
u32 p_retr_ct;
u32 p_retr_offset;
u32 p_si_ct;
u32 p_si_offset;
u32 p_df_ct = 0;
u32 p_df_offset = 0;
u32 p_au_ct1;
u32 p_psm_ct2;
u32 p_psm_ct3;
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u32 p_psm_ct3_msb = 0;
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u32 p_psm_ct4;
u32 p_psm_ct5;
u32 p_timer;
u32 p_timer_ctrl;
if (base == NULL)
return;
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p_ctrl = bam_read_reg(base, P_CTRL, pipe);
p_sys_mode = bam_read_reg_field(base, P_CTRL, pipe, P_SYS_MODE);
p_direction = bam_read_reg_field(base, P_CTRL, pipe, P_DIRECTION);
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p_irq_en = bam_read_reg(base, P_IRQ_EN, pipe);
p_irq_stts = bam_read_reg(base, P_IRQ_STTS, pipe);
p_irq_stts_eot = bam_read_reg_field(base, P_IRQ_STTS, pipe,
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P_IRQ_STTS_P_TRNSFR_END_IRQ);
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p_irq_stts_int = bam_read_reg_field(base, P_IRQ_STTS, pipe,
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P_IRQ_STTS_P_PRCSD_DESC_IRQ);
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p_prd_sdbd = bam_read_reg(base, P_PRDCR_SDBND, pipe);
p_bytes_free = bam_read_reg_field(base, P_PRDCR_SDBND, pipe,
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P_PRDCR_SDBNDn_BAM_P_BYTES_FREE);
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p_prd_ctrl = bam_read_reg_field(base, P_PRDCR_SDBND, pipe,
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P_PRDCR_SDBNDn_BAM_P_CTRL);
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p_prd_toggle = bam_read_reg_field(base, P_PRDCR_SDBND, pipe,
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P_PRDCR_SDBNDn_BAM_P_TOGGLE);
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p_prd_sb_updated = bam_read_reg_field(base, P_PRDCR_SDBND, pipe,
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P_PRDCR_SDBNDn_BAM_P_SB_UPDATED);
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p_con_sdbd = bam_read_reg(base, P_CNSMR_SDBND, pipe);
p_bytes_avail = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_BYTES_AVAIL);
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p_con_ctrl = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_CTRL);
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p_con_toggle = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_TOGGLE);
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p_con_ack_toggle = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_ACK_TOGGLE);
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p_con_ack_toggle_r = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_ACK_TOGGLE_R);
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p_con_wait_4_ack = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_WAIT_4_ACK);
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p_con_sb_updated = bam_read_reg_field(base, P_CNSMR_SDBND, pipe,
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P_CNSMR_SDBNDn_BAM_P_SB_UPDATED);
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p_sw_offset = bam_read_reg(base, P_SW_OFSTS, pipe);
p_read_pointer = bam_read_reg_field(base, P_SW_OFSTS, pipe,
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SW_DESC_OFST);
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p_evnt_reg = bam_read_reg(base, P_EVNT_REG, pipe);
p_write_pointer = bam_read_reg_field(base, P_EVNT_REG, pipe,
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P_DESC_FIFO_PEER_OFST);
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p_evnt_dest = bam_read_reg(base, P_EVNT_DEST_ADDR, pipe);
p_desc_fifo_addr = bam_read_reg(base, P_DESC_FIFO_ADDR, pipe);
p_desc_fifo_size = bam_read_reg_field(base, P_FIFO_SIZES, pipe,
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P_DESC_FIFO_SIZE);
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p_data_fifo_addr = bam_read_reg(base, P_DATA_FIFO_ADDR, pipe);
p_data_fifo_size = bam_read_reg_field(base, P_FIFO_SIZES, pipe,
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P_DATA_FIFO_SIZE);
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p_fifo_sizes = bam_read_reg(base, P_FIFO_SIZES, pipe);
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p_evnt_trd = bam_read_reg(base, P_EVNT_GEN_TRSHLD, pipe);
p_evnt_trd_val = bam_read_reg_field(base, P_EVNT_GEN_TRSHLD, pipe,
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P_EVNT_GEN_TRSHLD_P_TRSHLD);
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p_retr_ct = bam_read_reg(base, P_RETR_CNTXT, pipe);
p_retr_offset = bam_read_reg_field(base, P_RETR_CNTXT, pipe,
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P_RETR_CNTXT_RETR_DESC_OFST);
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p_si_ct = bam_read_reg(base, P_SI_CNTXT, pipe);
p_si_offset = bam_read_reg_field(base, P_SI_CNTXT, pipe,
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P_SI_CNTXT_SI_DESC_OFST);
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p_au_ct1 = bam_read_reg(base, P_AU_PSM_CNTXT_1, pipe);
p_psm_ct2 = bam_read_reg(base, P_PSM_CNTXT_2, pipe);
p_psm_ct3 = bam_read_reg(base, P_PSM_CNTXT_3, pipe);
p_psm_ct4 = bam_read_reg(base, P_PSM_CNTXT_4, pipe);
p_psm_ct5 = bam_read_reg(base, P_PSM_CNTXT_5, pipe);
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p_timer = bam_read_reg(base, P_TIMER, pipe);
p_timer_ctrl = bam_read_reg(base, P_TIMER_CTRL, pipe);
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#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
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p_evnt_dest_msb = SPS_LPAE ?
bam_read_reg(base, P_EVNT_DEST_ADDR_MSB, pipe) : 0;
p_desc_fifo_addr_msb = SPS_LPAE ?
bam_read_reg(base, P_DESC_FIFO_ADDR_MSB, pipe) : 0;
p_data_fifo_addr_msb = SPS_LPAE ?
bam_read_reg(base, P_DATA_FIFO_ADDR_MSB, pipe) : 0;
p_psm_ct3_msb = SPS_LPAE ? bam_read_reg(base, P_PSM_CNTXT_3, pipe) : 0;
p_lock_group = bam_read_reg_field(base, P_CTRL, pipe, P_LOCK_GROUP);
p_df_ct = bam_read_reg(base, P_DF_CNTXT, pipe);
p_df_offset = bam_read_reg_field(base, P_DF_CNTXT, pipe,
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P_DF_CNTXT_DF_DESC_OFST);
#endif
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SPS_DUMP("\nsps:<pipe-begin> --- Registers of Pipe %d ---\n\n", pipe);
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SPS_DUMP("BAM_P_CTRL: 0x%x\n", p_ctrl);
SPS_DUMP(" SYS_MODE: %d\n", p_sys_mode);
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if (p_direction)
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SPS_DUMP(" DIRECTION:%d->Producer\n", p_direction);
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else
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SPS_DUMP(" DIRECTION:%d->Consumer\n", p_direction);
SPS_DUMP(" LOCK_GROUP: 0x%x (%d)\n", p_lock_group, p_lock_group);
SPS_DUMP("BAM_P_IRQ_EN: 0x%x\n", p_irq_en);
SPS_DUMP("BAM_P_IRQ_STTS: 0x%x\n", p_irq_stts);
SPS_DUMP(" TRNSFR_END_IRQ(EOT): 0x%x\n", p_irq_stts_eot);
SPS_DUMP(" PRCSD_DESC_IRQ(INT): 0x%x\n", p_irq_stts_int);
SPS_DUMP("BAM_P_PRDCR_SDBND: 0x%x\n", p_prd_sdbd);
SPS_DUMP(" BYTES_FREE: 0x%x (%d)\n", p_bytes_free, p_bytes_free);
SPS_DUMP(" CTRL: 0x%x\n", p_prd_ctrl);
SPS_DUMP(" TOGGLE: %d\n", p_prd_toggle);
SPS_DUMP(" SB_UPDATED: %d\n", p_prd_sb_updated);
SPS_DUMP("BAM_P_CNSMR_SDBND: 0x%x\n", p_con_sdbd);
SPS_DUMP(" WAIT_4_ACK: %d\n", p_con_wait_4_ack);
SPS_DUMP(" BYTES_AVAIL: 0x%x (%d)\n", p_bytes_avail, p_bytes_avail);
SPS_DUMP(" CTRL: 0x%x\n", p_con_ctrl);
SPS_DUMP(" TOGGLE: %d\n", p_con_toggle);
SPS_DUMP(" ACK_TOGGLE: %d\n", p_con_ack_toggle);
SPS_DUMP(" ACK_TOGGLE_R: %d\n", p_con_ack_toggle_r);
SPS_DUMP(" SB_UPDATED: %d\n", p_con_sb_updated);
SPS_DUMP("BAM_P_SW_DESC_OFST: 0x%x\n", p_sw_offset);
SPS_DUMP(" SW_DESC_OFST: 0x%x\n", p_read_pointer);
SPS_DUMP("BAM_P_EVNT_REG: 0x%x\n", p_evnt_reg);
SPS_DUMP(" DESC_FIFO_PEER_OFST: 0x%x\n", p_write_pointer);
SPS_DUMP("BAM_P_RETR_CNTXT: 0x%x\n", p_retr_ct);
SPS_DUMP(" RETR_OFFSET: 0x%x\n", p_retr_offset);
SPS_DUMP("BAM_P_SI_CNTXT: 0x%x\n", p_si_ct);
SPS_DUMP(" SI_OFFSET: 0x%x\n", p_si_offset);
SPS_DUMP("BAM_P_DF_CNTXT: 0x%x\n", p_df_ct);
SPS_DUMP(" DF_OFFSET: 0x%x\n", p_df_offset);
SPS_DUMP("BAM_P_DESC_FIFO_ADDR: 0x%x\n", p_desc_fifo_addr);
SPS_DUMP("BAM_P_DESC_FIFO_ADDR_MSB: 0x%x\n", p_desc_fifo_addr_msb);
SPS_DUMP("BAM_P_DATA_FIFO_ADDR: 0x%x\n", p_data_fifo_addr);
SPS_DUMP("BAM_P_DATA_FIFO_ADDR_MSB: 0x%x\n", p_data_fifo_addr_msb);
SPS_DUMP("BAM_P_FIFO_SIZES: 0x%x\n", p_fifo_sizes);
SPS_DUMP(" DESC_FIFO_SIZE: 0x%x (%d)\n", p_desc_fifo_size,
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p_desc_fifo_size);
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SPS_DUMP(" DATA_FIFO_SIZE: 0x%x (%d)\n", p_data_fifo_size,
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p_data_fifo_size);
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SPS_DUMP("BAM_P_EVNT_DEST_ADDR: 0x%x\n", p_evnt_dest);
SPS_DUMP("BAM_P_EVNT_DEST_ADDR_MSB: 0x%x\n", p_evnt_dest_msb);
SPS_DUMP("BAM_P_EVNT_GEN_TRSHLD: 0x%x\n", p_evnt_trd);
SPS_DUMP(" EVNT_GEN_TRSHLD: 0x%x (%d)\n", p_evnt_trd_val,
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p_evnt_trd_val);
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SPS_DUMP("BAM_P_AU_PSM_CNTXT_1: 0x%x\n", p_au_ct1);
SPS_DUMP("BAM_P_PSM_CNTXT_2: 0x%x\n", p_psm_ct2);
SPS_DUMP("BAM_P_PSM_CNTXT_3: 0x%x\n", p_psm_ct3);
SPS_DUMP("BAM_P_PSM_CNTXT_3_MSB: 0x%x\n", p_psm_ct3_msb);
SPS_DUMP("BAM_P_PSM_CNTXT_4: 0x%x\n", p_psm_ct4);
SPS_DUMP("BAM_P_PSM_CNTXT_5: 0x%x\n", p_psm_ct5);
SPS_DUMP("BAM_P_TIMER: 0x%x\n", p_timer);
SPS_DUMP("BAM_P_TIMER_CTRL: 0x%x\n", p_timer_ctrl);
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SPS_DUMP("\nsps:<pipe-end> --- Registers of Pipe %d ---\n\n", pipe);
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}
/* output descriptor FIFO of a pipe */
void print_bam_pipe_desc_fifo(void *virt_addr, u32 pipe_index, u32 option)
{
void *base = virt_addr;
u32 pipe = pipe_index;
u32 desc_fifo_addr;
u32 desc_fifo_size;
u32 *desc_fifo;
int i;
char desc_info[MAX_MSG_LEN];
if (base == NULL)
return;
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desc_fifo_addr = bam_read_reg(base, P_DESC_FIFO_ADDR, pipe);
desc_fifo_size = bam_read_reg_field(base, P_FIFO_SIZES, pipe,
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P_DESC_FIFO_SIZE);
if (desc_fifo_addr == 0) {
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SPS_ERR(sps, "sps:%s:desc FIFO address of Pipe %d is NULL.\n",
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__func__, pipe);
return;
} else if (desc_fifo_size == 0) {
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SPS_ERR(sps, "sps:%s:desc FIFO size of Pipe %d is 0.\n",
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__func__, pipe);
return;
}
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SPS_DUMP("\nsps:<desc-begin> --- descriptor FIFO of Pipe %d -----\n\n",
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pipe);
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SPS_DUMP("BAM_P_DESC_FIFO_ADDR: 0x%x\n"
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"BAM_P_DESC_FIFO_SIZE: 0x%x (%d)\n\n",
desc_fifo_addr, desc_fifo_size, desc_fifo_size);
desc_fifo = (u32 *) phys_to_virt(desc_fifo_addr);
if (option == 100) {
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SPS_DUMP("%s",
"----- start of data blocks -----\n");
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for (i = 0; i < desc_fifo_size; i += 8) {
u32 *data_block_vir;
u32 data_block_phy = desc_fifo[i / 4];
if (data_block_phy) {
data_block_vir =
(u32 *) phys_to_virt(data_block_phy);
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SPS_DUMP("desc addr:0x%x; data addr:0x%x:\n",
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desc_fifo_addr + i, data_block_phy);
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SPS_DUMP("0x%x, 0x%x, 0x%x, 0x%x\n",
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data_block_vir[0], data_block_vir[1],
data_block_vir[2], data_block_vir[3]);
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SPS_DUMP("0x%x, 0x%x, 0x%x, 0x%x\n",
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data_block_vir[4], data_block_vir[5],
data_block_vir[6], data_block_vir[7]);
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SPS_DUMP("0x%x, 0x%x, 0x%x, 0x%x\n",
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data_block_vir[8], data_block_vir[9],
data_block_vir[10], data_block_vir[11]);
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SPS_DUMP("0x%x, 0x%x, 0x%x, 0x%x\n\n",
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data_block_vir[12], data_block_vir[13],
data_block_vir[14], data_block_vir[15]);
}
}
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SPS_DUMP("%s",
"----- end of data blocks -----\n");
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} else if (option) {
u32 size = option * 128;
u32 current_desc = bam_pipe_get_desc_read_offset(base,
pipe_index);
u32 begin = 0;
u32 end = desc_fifo_size;
if (current_desc > size / 2)
begin = current_desc - size / 2;
if (desc_fifo_size > current_desc + size / 2)
end = current_desc + size / 2;
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SPS_DUMP("%s",
"------------ begin of partial FIFO ------------\n\n");
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SPS_DUMP("%s",
"desc addr; desc content; desc flags\n");
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for (i = begin; i < end; i += 0x8) {
u32 offset;
u32 flags = desc_fifo[(i / 4) + 1] >> 16;
memset(desc_info, 0, sizeof(desc_info));
offset = scnprintf(desc_info, 40, "0x%x: 0x%x, 0x%x: ",
desc_fifo_addr + i,
desc_fifo[i / 4], desc_fifo[(i / 4) + 1]);
if (flags & SPS_IOVEC_FLAG_INT)
offset += scnprintf(desc_info + offset, 5,
"INT ");
if (flags & SPS_IOVEC_FLAG_EOT)
offset += scnprintf(desc_info + offset, 5,
"EOT ");
if (flags & SPS_IOVEC_FLAG_EOB)
offset += scnprintf(desc_info + offset, 5,
"EOB ");
if (flags & SPS_IOVEC_FLAG_NWD)
offset += scnprintf(desc_info + offset, 5,
"NWD ");
if (flags & SPS_IOVEC_FLAG_CMD)
offset += scnprintf(desc_info + offset, 5,
"CMD ");
if (flags & SPS_IOVEC_FLAG_LOCK)
offset += scnprintf(desc_info + offset, 5,
"LCK ");
if (flags & SPS_IOVEC_FLAG_UNLOCK)
offset += scnprintf(desc_info + offset, 5,
"UNL ");
if (flags & SPS_IOVEC_FLAG_IMME)
offset += scnprintf(desc_info + offset, 5,
"IMM ");
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SPS_DUMP("%s\n", desc_info);
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}
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SPS_DUMP("%s",
"\n------------ end of partial FIFO ------------\n");
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} else {
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SPS_DUMP("%s",
"---------------- begin of FIFO ----------------\n\n");
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for (i = 0; i < desc_fifo_size; i += 0x10)
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SPS_DUMP("addr 0x%x: 0x%x, 0x%x, 0x%x, 0x%x.\n",
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desc_fifo_addr + i,
desc_fifo[i / 4], desc_fifo[(i / 4) + 1],
desc_fifo[(i / 4) + 2], desc_fifo[(i / 4) + 3]);
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SPS_DUMP("%s",
"\n---------------- end of FIFO ----------------\n");
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}
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SPS_DUMP("\nsps:<desc-end> --- descriptor FIFO of Pipe %d -----\n\n",
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pipe);
}
/* output BAM_TEST_BUS_REG with specified TEST_BUS_SEL */
void print_bam_test_bus_reg(void *base, u32 tb_sel)
{
u32 i;
u32 test_bus_selection[] = {0x0, 0x1, 0x2, 0x3, 0x4, 0x5, 0x6, 0x7,
0x8, 0x9, 0xa, 0xb, 0xc, 0xd, 0xe, 0xf,
0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17,
0x20, 0x21, 0x22, 0x23,
0x41, 0x42, 0x43, 0x44, 0x45, 0x46};
u32 size = sizeof(test_bus_selection) / sizeof(u32);
if (base == NULL) {
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SPS_ERR(sps, "sps:%s:BAM is NULL.\n", __func__);
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return;
}
if (tb_sel) {
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SPS_DUMP("\nsps:Specified TEST_BUS_SEL value: 0x%x\n", tb_sel);
bam_write_reg_field(base, TEST_BUS_SEL, 0, BAM_TESTBUS_SEL,
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tb_sel);
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SPS_DUMP("sps:BAM_TEST_BUS_REG:0x%x for TEST_BUS_SEL:0x%x\n\n",
bam_read_reg(base, TEST_BUS_REG, 0),
bam_read_reg_field(base, TEST_BUS_SEL, 0,
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BAM_TESTBUS_SEL));
}
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SPS_DUMP("%s", "\nsps:<testbus-begin> --- BAM TEST_BUS dump -----\n\n");
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/* output other selections */
for (i = 0; i < size; i++) {
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bam_write_reg_field(base, TEST_BUS_SEL, 0, BAM_TESTBUS_SEL,
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test_bus_selection[i]);
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SPS_DUMP("sps:TEST_BUS_REG:0x%x\t TEST_BUS_SEL:0x%x\n",
bam_read_reg(base, TEST_BUS_REG, 0),
bam_read_reg_field(base, TEST_BUS_SEL, 0,
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BAM_TESTBUS_SEL));
}
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SPS_DUMP("%s", "\nsps:<testbus-end> --- BAM TEST_BUS dump -----\n\n");
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}