OpenCloudOS-Kernel/drivers/hwtracing/coresight/coresight-tmc.h

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/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright(C) 2015 Linaro Limited. All rights reserved.
* Author: Mathieu Poirier <mathieu.poirier@linaro.org>
*/
#ifndef _CORESIGHT_TMC_H
#define _CORESIGHT_TMC_H
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#include <linux/dma-mapping.h>
#include <linux/idr.h>
#include <linux/miscdevice.h>
#include <linux/mutex.h>
#include <linux/refcount.h>
#define TMC_RSZ 0x004
#define TMC_STS 0x00c
#define TMC_RRD 0x010
#define TMC_RRP 0x014
#define TMC_RWP 0x018
#define TMC_TRG 0x01c
#define TMC_CTL 0x020
#define TMC_RWD 0x024
#define TMC_MODE 0x028
#define TMC_LBUFLEVEL 0x02c
#define TMC_CBUFLEVEL 0x030
#define TMC_BUFWM 0x034
#define TMC_RRPHI 0x038
#define TMC_RWPHI 0x03c
#define TMC_AXICTL 0x110
#define TMC_DBALO 0x118
#define TMC_DBAHI 0x11c
#define TMC_FFSR 0x300
#define TMC_FFCR 0x304
#define TMC_PSCR 0x308
#define TMC_ITMISCOP0 0xee0
#define TMC_ITTRFLIN 0xee8
#define TMC_ITATBDATA0 0xeec
#define TMC_ITATBCTR2 0xef0
#define TMC_ITATBCTR1 0xef4
#define TMC_ITATBCTR0 0xef8
#define TMC_AUTHSTATUS 0xfb8
/* register description */
/* TMC_CTL - 0x020 */
#define TMC_CTL_CAPT_EN BIT(0)
/* TMC_STS - 0x00C */
#define TMC_STS_TMCREADY_BIT 2
#define TMC_STS_FULL BIT(0)
#define TMC_STS_TRIGGERED BIT(1)
#define TMC_STS_MEMERR BIT(5)
/*
* TMC_AXICTL - 0x110
*
* TMC AXICTL format for SoC-400
* Bits [0-1] : ProtCtrlBit0-1
* Bits [2-5] : CacheCtrlBits 0-3 (AXCACHE)
* Bit 6 : Reserved
* Bit 7 : ScatterGatherMode
* Bits [8-11] : WrBurstLen
* Bits [12-31] : Reserved.
* TMC AXICTL format for SoC-600, as above except:
* Bits [2-5] : AXI WCACHE
* Bits [16-19] : AXI RCACHE
* Bits [20-31] : Reserved
*/
#define TMC_AXICTL_CLEAR_MASK 0xfbf
#define TMC_AXICTL_ARCACHE_MASK (0xf << 16)
#define TMC_AXICTL_PROT_CTL_B0 BIT(0)
#define TMC_AXICTL_PROT_CTL_B1 BIT(1)
#define TMC_AXICTL_SCT_GAT_MODE BIT(7)
#define TMC_AXICTL_WR_BURST_16 0xF00
/* Write-back Read and Write-allocate */
#define TMC_AXICTL_AXCACHE_OS (0xf << 2)
#define TMC_AXICTL_ARCACHE_OS (0xf << 16)
/* TMC_FFCR - 0x304 */
#define TMC_FFCR_FLUSHMAN_BIT 6
#define TMC_FFCR_EN_FMT BIT(0)
#define TMC_FFCR_EN_TI BIT(1)
#define TMC_FFCR_FON_FLIN BIT(4)
#define TMC_FFCR_FON_TRIG_EVT BIT(5)
#define TMC_FFCR_TRIGON_TRIGIN BIT(8)
#define TMC_FFCR_STOP_ON_FLUSH BIT(12)
#define TMC_DEVID_NOSCAT BIT(24)
#define TMC_DEVID_AXIAW_VALID BIT(16)
#define TMC_DEVID_AXIAW_SHIFT 17
#define TMC_DEVID_AXIAW_MASK 0x7f
#define TMC_AUTH_NSID_MASK GENMASK(1, 0)
enum tmc_config_type {
TMC_CONFIG_TYPE_ETB,
TMC_CONFIG_TYPE_ETR,
TMC_CONFIG_TYPE_ETF,
};
enum tmc_mode {
TMC_MODE_CIRCULAR_BUFFER,
TMC_MODE_SOFTWARE_FIFO,
TMC_MODE_HARDWARE_FIFO,
};
enum tmc_mem_intf_width {
TMC_MEM_INTF_WIDTH_32BITS = 1,
TMC_MEM_INTF_WIDTH_64BITS = 2,
TMC_MEM_INTF_WIDTH_128BITS = 4,
TMC_MEM_INTF_WIDTH_256BITS = 8,
};
/* TMC ETR Capability bit definitions */
#define TMC_ETR_SG (0x1U << 0)
/* ETR has separate read/write cache encodings */
#define TMC_ETR_AXI_ARCACHE (0x1U << 1)
/*
* TMC_ETR_SAVE_RESTORE - Values of RRP/RWP/STS.Full are
* retained when TMC leaves Disabled state, allowing us to continue
* the tracing from a point where we stopped. This also implies that
* the RRP/RWP/STS.Full should always be programmed to the correct
* value. Unfortunately this is not advertised by the hardware,
* so we have to rely on PID of the IP to detect the functionality.
*/
#define TMC_ETR_SAVE_RESTORE (0x1U << 2)
/* Coresight SoC-600 TMC-ETR unadvertised capabilities */
#define CORESIGHT_SOC_600_ETR_CAPS \
(TMC_ETR_SAVE_RESTORE | TMC_ETR_AXI_ARCACHE)
enum etr_mode {
ETR_MODE_FLAT, /* Uses contiguous flat buffer */
ETR_MODE_ETR_SG, /* Uses in-built TMC ETR SG mechanism */
ETR_MODE_CATU, /* Use SG mechanism in CATU */
};
struct etr_buf_operations;
/**
* struct etr_buf - Details of the buffer used by ETR
* refcount ; Number of sources currently using this etr_buf.
* @mode : Mode of the ETR buffer, contiguous, Scatter Gather etc.
* @full : Trace data overflow
* @size : Size of the buffer.
* @hwaddr : Address to be programmed in the TMC:DBA{LO,HI}
* @offset : Offset of the trace data in the buffer for consumption.
* @len : Available trace data @buf (may round up to the beginning).
* @ops : ETR buffer operations for the mode.
* @private : Backend specific information for the buf
*/
struct etr_buf {
refcount_t refcount;
enum etr_mode mode;
bool full;
ssize_t size;
dma_addr_t hwaddr;
unsigned long offset;
s64 len;
const struct etr_buf_operations *ops;
void *private;
};
/**
* struct tmc_drvdata - specifics associated to an TMC component
* @base: memory mapped base address for this component.
* @csdev: component vitals needed by the framework.
* @miscdev: specifics to handle "/dev/xyz.tmc" entry.
* @spinlock: only one at a time pls.
* @pid: Process ID of the process being monitored by the session
* that is using this component.
* @buf: Snapshot of the trace data for ETF/ETB.
* @etr_buf: details of buffer used in TMC-ETR
* @len: size of the available trace for ETF/ETB.
* @size: trace buffer size for this TMC (common for all modes).
* @mode: how this TMC is being used.
* @config_type: TMC variant, must be of type @tmc_config_type.
* @memwidth: width of the memory interface databus, in bytes.
* @trigger_cntr: amount of words to store after a trigger.
* @etr_caps: Bitmask of capabilities of the TMC ETR, inferred from the
* device configuration register (DEVID)
* @idr: Holds etr_bufs allocated for this ETR.
* @idr_mutex: Access serialisation for idr.
* @sysfs_buf: SYSFS buffer for ETR.
* @perf_buf: PERF buffer for ETR.
*/
struct tmc_drvdata {
void __iomem *base;
struct coresight_device *csdev;
struct miscdevice miscdev;
spinlock_t spinlock;
pid_t pid;
bool reading;
union {
char *buf; /* TMC ETB */
struct etr_buf *etr_buf; /* TMC ETR */
};
u32 len;
u32 size;
u32 mode;
enum tmc_config_type config_type;
enum tmc_mem_intf_width memwidth;
u32 trigger_cntr;
u32 etr_caps;
struct idr idr;
struct mutex idr_mutex;
coresight: tmc-etr: Handle driver mode specific ETR buffers Since the ETR could be driven either by SYSFS or by perf, it becomes complicated how we deal with the buffers used for each of these modes. The ETR driver cannot simply free the current attached buffer without knowing the provider (i.e, sysfs vs perf). To solve this issue, we provide: 1) the driver-mode specific etr buffer to be retained in the drvdata 2) the etr_buf for a session should be passed on when enabling the hardware, which will be stored in drvdata->etr_buf. This will be replaced (not free'd) as soon as the hardware is disabled, after necessary sync operation. The advantages of this are : 1) The common code path doesn't need to worry about how to dispose an existing buffer, if it is about to start a new session with a different buffer, possibly in a different mode. 2) The driver mode can control its buffers and can get access to the saved session even when the hardware is operating in a different mode. (e.g, we can still access a trace buffer from a sysfs mode even if the etr is now used in perf mode, without disrupting the current session.) Towards this, we introduce a sysfs specific data which will hold the etr_buf used for sysfs mode of operation, controlled solely by the sysfs mode handling code. Cc: Mathieu Poirier <mathieu.poirier@linaro.org> Signed-off-by: Suzuki K Poulose <suzuki.poulose@arm.com> Signed-off-by: Mathieu Poirier <mathieu.poirier@linaro.org> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
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struct etr_buf *sysfs_buf;
struct etr_buf *perf_buf;
};
struct etr_buf_operations {
int (*alloc)(struct tmc_drvdata *drvdata, struct etr_buf *etr_buf,
int node, void **pages);
void (*sync)(struct etr_buf *etr_buf, u64 rrp, u64 rwp);
ssize_t (*get_data)(struct etr_buf *etr_buf, u64 offset, size_t len,
char **bufpp);
void (*free)(struct etr_buf *etr_buf);
};
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/**
* struct tmc_pages - Collection of pages used for SG.
* @nr_pages: Number of pages in the list.
* @daddrs: Array of DMA'able page address.
* @pages: Array pages for the buffer.
*/
struct tmc_pages {
int nr_pages;
dma_addr_t *daddrs;
struct page **pages;
};
/*
* struct tmc_sg_table - Generic SG table for TMC
* @dev: Device for DMA allocations
* @table_vaddr: Contiguous Virtual address for PageTable
* @data_vaddr: Contiguous Virtual address for Data Buffer
* @table_daddr: DMA address of the PageTable base
* @node: Node for Page allocations
* @table_pages: List of pages & dma address for Table
* @data_pages: List of pages & dma address for Data
*/
struct tmc_sg_table {
struct device *dev;
void *table_vaddr;
void *data_vaddr;
dma_addr_t table_daddr;
int node;
struct tmc_pages table_pages;
struct tmc_pages data_pages;
};
/* Generic functions */
void tmc_wait_for_tmcready(struct tmc_drvdata *drvdata);
void tmc_flush_and_stop(struct tmc_drvdata *drvdata);
void tmc_enable_hw(struct tmc_drvdata *drvdata);
void tmc_disable_hw(struct tmc_drvdata *drvdata);
u32 tmc_get_memwidth_mask(struct tmc_drvdata *drvdata);
/* ETB/ETF functions */
int tmc_read_prepare_etb(struct tmc_drvdata *drvdata);
int tmc_read_unprepare_etb(struct tmc_drvdata *drvdata);
extern const struct coresight_ops tmc_etb_cs_ops;
extern const struct coresight_ops tmc_etf_cs_ops;
ssize_t tmc_etb_get_sysfs_trace(struct tmc_drvdata *drvdata,
loff_t pos, size_t len, char **bufpp);
/* ETR functions */
int tmc_read_prepare_etr(struct tmc_drvdata *drvdata);
int tmc_read_unprepare_etr(struct tmc_drvdata *drvdata);
void tmc_etr_disable_hw(struct tmc_drvdata *drvdata);
extern const struct coresight_ops tmc_etr_cs_ops;
ssize_t tmc_etr_get_sysfs_trace(struct tmc_drvdata *drvdata,
loff_t pos, size_t len, char **bufpp);
#define TMC_REG_PAIR(name, lo_off, hi_off) \
static inline u64 \
tmc_read_##name(struct tmc_drvdata *drvdata) \
{ \
return coresight_read_reg_pair(drvdata->base, lo_off, hi_off); \
} \
static inline void \
tmc_write_##name(struct tmc_drvdata *drvdata, u64 val) \
{ \
coresight_write_reg_pair(drvdata->base, val, lo_off, hi_off); \
}
TMC_REG_PAIR(rrp, TMC_RRP, TMC_RRPHI)
TMC_REG_PAIR(rwp, TMC_RWP, TMC_RWPHI)
TMC_REG_PAIR(dba, TMC_DBALO, TMC_DBAHI)
/* Initialise the caps from unadvertised static capabilities of the device */
static inline void tmc_etr_init_caps(struct tmc_drvdata *drvdata, u32 dev_caps)
{
WARN_ON(drvdata->etr_caps);
drvdata->etr_caps = dev_caps;
}
static inline void tmc_etr_set_cap(struct tmc_drvdata *drvdata, u32 cap)
{
drvdata->etr_caps |= cap;
}
static inline bool tmc_etr_has_cap(struct tmc_drvdata *drvdata, u32 cap)
{
return !!(drvdata->etr_caps & cap);
}
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struct tmc_sg_table *tmc_alloc_sg_table(struct device *dev,
int node,
int nr_tpages,
int nr_dpages,
void **pages);
void tmc_free_sg_table(struct tmc_sg_table *sg_table);
void tmc_sg_table_sync_table(struct tmc_sg_table *sg_table);
void tmc_sg_table_sync_data_range(struct tmc_sg_table *table,
u64 offset, u64 size);
ssize_t tmc_sg_table_get_data(struct tmc_sg_table *sg_table,
u64 offset, size_t len, char **bufpp);
static inline unsigned long
tmc_sg_table_buf_size(struct tmc_sg_table *sg_table)
{
return sg_table->data_pages.nr_pages << PAGE_SHIFT;
}
struct coresight_device *tmc_etr_get_catu_device(struct tmc_drvdata *drvdata);
#endif