gprofng/common/hwcdrv.h - third_party/binutils-gdb - Git at Google

 /* Copyright (C) 2021-2024 Free Software Foundation, Inc.
    Contributed by Oracle.

    This file is part of GNU Binutils.

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 3, or (at your option)
    any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, 51 Franklin Street - Fifth Floor, Boston,
    MA 02110-1301, USA.  */

 /* Hardware counter profiling driver's header */

 #ifndef __HWCDRV_H
 #define __HWCDRV_H

 #include "hwcfuncs.h"

 #ifdef linux
 #define HWCFUNCS_SIGNAL         SIGIO
 #define HWCFUNCS_SIGNAL_STRING  "SIGIO"
 #else
 #define HWCFUNCS_SIGNAL         SIGEMT
 #define HWCFUNCS_SIGNAL_STRING  "SIGEMT"
 #endif

 #ifndef LIBCOLLECTOR_SRC /* not running in libcollector */
 #include <string.h>

 #else /* running in libcollector */
 #include "collector_module.h"
 #include "libcol_util.h"

 #define get_hwcdrv                  __collector_get_hwcdrv

 #define GTXT(x) x

 /* Implemented by libcollector */
 #define calloc          __collector_calloc
 #define close           CALL_UTIL(close)
 #define fcntl           CALL_UTIL(fcntl)
 #define fprintf         CALL_UTIL(fprintf)
 //#define free            __collector_free
 #define free(...)
 #define gethrtime       __collector_gethrtime
 #define ioctl           CALL_UTIL(ioctl)
 #define malloc          __collector_malloc
 #define memcpy          __collector_memcpy
 #define memset          CALL_UTIL(memset)
 #define mmap            CALL_UTIL(mmap)
 #define snprintf        CALL_UTIL(snprintf)
 #define strchr          CALL_UTIL(strchr)
 #define strcmp          CALL_UTIL(strcmp)
 #define strncmp         CALL_UTIL(strncmp)
 #define strcpy          CALL_UTIL(strcpy)
 #define strdup          __collector_strdup
 #define strncpy         CALL_UTIL(strncpy)
 #define strerror        CALL_UTIL(strerror)
 #define strlen          CALL_UTIL(strlen)
 #define strstr          CALL_UTIL(strstr)
 #define strtol          CALL_UTIL(strtol)
 #define strtoll         CALL_UTIL(strtoll)
 #define strtoul         CALL_UTIL(strtoul)
 #define strtoull        CALL_UTIL(strtoull)
 #define syscall         CALL_UTIL(syscall)
 #define sysconf         CALL_UTIL(sysconf)
 #define vsnprintf       CALL_UTIL(vsnprintf)

 #endif  /* --- LIBCOLLECTOR_SRC --- */

 /* TprintfT(<level>,...) definitions.  Adjust per module as needed */
 #define DBG_LT0 0 // for high-level configuration, unexpected errors/warnings
 #define DBG_LT1 1 // for configuration details, warnings
 #define DBG_LT2 2
 #define DBG_LT3 3
 #define DBG_LT4 4

 #ifdef __cplusplus
 extern "C"
 {
 #endif

   /* hwcdrv api */
   typedef struct
   {
     int (*hwcdrv_init)(hwcfuncs_abort_fn_t abort_ftn, int * tsd_sz);
     /* Initialize hwc counter library (do not call again after fork)
 	 Must be called before other functions.
        Input:
 	 <abort_ftn>: NULL or callback function to be used for fatal errors
 	 <tsd_sz>: If not NULL, returns size in bytes required for thread-specific storage
        Return: 0 if successful
      */

     void (*hwcdrv_get_info)(int *cpuver, const char **cciname, uint_t *npics,
 			    const char **docref, uint64_t *support);
     /* get info about session
        Input:
 	 <cpuver>: if not NULL, returns value of CPC cpu version
 	 <cciname>: if not NULL, returns name of CPU
 	 <npics>: if not NULL, returns maximum # of HWCs
 	 <docref>: if not NULL, returns documentation reference
 	 <support>: if not NULL, returns bitmask (see hwcfuncs.h) of hwc support
        Return: 0 if successful, nonzero otherwise
      */

     int (*hwcdrv_enable_mt)(hwcfuncs_tsd_get_fn_t tsd_ftn);
     /* Enables multi-threaded mode (do not need to call again after fork)
        Input:
 	 <tsd_ftn>: If <tsd_sz>==0, this parameter is ignored.
 		    Otherwise:
 		     tsd_ftn() must be able to return a pointer to thread-specific
 		     memory of <tsd_sz> bytes.
 		     For a given thread, tsd_ftn() must
 		     always return the same pointer.
        Return: none
      */

     int (*hwcdrv_get_descriptions)(hwcf_hwc_cb_t *hwc_find_action,
 				   hwcf_attr_cb_t *attr_find_action,
 				   Hwcentry *raw_hwc_tbl);
     /* Initiate callbacks with all available HWC names and HWC attributes.
        Input:
 	 <hwc_find_action>: if not NULL, will be called once for each HWC
 	 <attr_find_action>: if not NULL, will be called once for each attribute
 	 <raw_hwc_tbl>: counter definitions.
        Return: 0 if successful
 	  or a cpc return code upon error
      */

     int (*hwcdrv_assign_regnos)(Hwcentry* entries[], unsigned numctrs);
     /* Assign entries[]->reg_num values as needed by platform
        Input:
 	 <entries>: array of counters
 	 <numctrs>: number of items in <entries>
        Return: 0 if successful
 	  HWCFUNCS_ERROR_HWCINIT if resources unavailable
 	  HWCFUNCS_ERROR_HWCARGS if counters were not specified correctly
      */

     int (*hwcdrv_create_counters)(unsigned hwcdef_cnt, Hwcentry *hwcdef);
     /* Create the counters, but don't start them.
 	 call this once in main thread to create counters.
        Input:
 	 <defcnt>: number of counter definitions.
 	 <hwcdef>: counter definitions.
        Return: 0 if successful
 	  or a cpc return code upon error
      */

     int (*hwcdrv_start)(void);
     /* Start the counters.
 	 call this once in main thread to start counters.
        Return: 0 if successful
 	  or a cpc return code upon error
      */

     int (*hwcdrv_overflow)(siginfo_t *si, hwc_event_t *sample,
 			   hwc_event_t *lost_samples);
     /* Linux only.  Capture current counter values.
 	 This is intended to be called from SIGEMT handler;
        Input:
 	 <si>: signal handler context information
 	 <sample>: returns non-zero values for counters that overflowed
 	 <lost_samples>: returns non-zero values for counters that "lost" counts
        Return: 0 if successful
 	  or a cpc return code upon error.
      */

     int (*hwcdrv_read_events)(hwc_event_t *overflow_data,
 			      hwc_event_samples_t *sampled_data);
     /* Read current counter values and samples.  Read of samples is destructive.
        Note: hwcdrv_read_events is not supported on Linux.
        <overflow_data>: returns snapshot of counter values
        <sampled_data>: returns sampled data
        Return: 0 if successful
 	  HWCFUNCS_ERROR_UNAVAIL if resource unavailable(e.g. called before initted)
 	  (other values may be possible)
      */

     int (*hwcdrv_sighlr_restart)(const hwc_event_t* startVals);
     /* Restarts the counters at the given value.
 	 This is intended to be called from SIGEMT handler;
        Input:
 	 <startVals>: Solaris: new start values.
 		      Linux: pointer may be NULL; startVals is ignored.
        Return: 0 if successful
 	  or a cpc return code upon error.
      */

     int (*hwcdrv_lwp_suspend)(void);
     /* Attempt to stop counters on this lwp only.
 	 hwcdrv_lwp_resume() should be used to restart counters.
        Return: 0 if successful
 	  or a cpc return code upon error.
      */

     int (*hwcdrv_lwp_resume)(void);
     /* Attempt to restart counters on this lwp when counters were
 	 stopped with hwcdrv_lwp_suspend().
        Return: 0 if successful
 	  or a cpc return code upon error.
      */

     int (*hwcdrv_free_counters)(void);
     /* Stops counters on this lwp only and frees resources.
 	 This will fail w/ unpredictable results if other lwps's are
 	 still running.  After this call returns,
 	 hwcdrv_create_counters() may be called with new values.
        Return: 0 if successful
 	  or a cpc return code upon error.
      */

     int (*hwcdrv_lwp_init)(void);
     /* per-thread counter init.
 	 Solaris: nop.
 	 Linux: just after thread creation call this from inside thread
 	      to create context and start counters.
        Return: 0 if successful
 	  or a perfctr return code upon error
      */

     void (*hwcdrv_lwp_fini)(void);
     /* per-thread counter cleanup.
 	 Solaris: nop.
 	 Linux: call in each thread upon thread destruction.
      */

     int hwcdrv_init_status;
   } hwcdrv_api_t;

   extern hwcdrv_api_t *get_hwcdrv ();
   extern hwcdrv_api_t *__collector_get_hwcdrv ();
   extern int __collector_hwcfuncs_bind_descriptor (const char *defstring);
   extern Hwcentry **__collector_hwcfuncs_get_ctrs (unsigned *defcnt);

   /* prototypes for internal use by hwcdrv drivers */
   typedef struct
   { // see hwcdrv_get_info() for field definitions
     int cpcN_cpuver;
     uint_t cpcN_npics;
     const char *cpcN_docref;
     const char *cpcN_cciname;
   } hwcdrv_about_t;

 #define logerr  hwcfuncs_int_logerr

   /*---------------------------------------------------------------------------*/
   /* prototypes for internal use by linux hwcdrv drivers */
 #define PERFCTR_FIXED_MAGIC 0x40000000 /* tells perfctr to use intel fixed pmcs */
 #define PERFCTR_UMASK_SHIFT 8
 #define EXTENDED_EVNUM_2_EVSEL(evnum) \
   ( (((eventsel_t)(evnum) & 0x0f00ULL) << 24) | ((eventsel_t)(evnum) & ~0x0f00ULL) )

   typedef uint64_t eventsel_t;
   typedef struct
   {
     const char * attrname;  // user-visible name of attribute
     int is_inverted;        // nonzero means boolean attribute is inverted
     eventsel_t mask;        // which attribute bits can be set?
     eventsel_t shift;       // how far to shift bits for use in x86 register
   } attr_info_t;
   extern const attr_info_t *perfctr_attrs_table;

   /* hdrv_pcbe api: cpu-specific drivers for Linux */
   typedef struct
   {
     int (*hdrv_pcbe_init)(void);
     uint_t (*hdrv_pcbe_ncounters)(void);
     const char *(*hdrv_pcbe_impl_name)(void);
     const char *(*hdrv_pcbe_cpuref)(void);
     int (*hdrv_pcbe_get_events)(hwcf_hwc_cb_t *hwc_cb, Hwcentry *raw_hwc_tbl);
     int (*hdrv_pcbe_get_eventnum)(const char * eventname, uint_t pmc,
 				  eventsel_t *eventnum, eventsel_t *valid_umask,
 				  uint_t *pmc_sel);
   } hdrv_pcbe_api_t;

 #ifdef __cplusplus
 }
 #endif

 #endif
	/* Copyright (C) 2021-2024 Free Software Foundation, Inc.
	Contributed by Oracle.

	This file is part of GNU Binutils.

	This program is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3, or (at your option)
	any later version.

	This program is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, 51 Franklin Street - Fifth Floor, Boston,
	MA 02110-1301, USA. */

	/* Hardware counter profiling driver's header */

	#ifndef __HWCDRV_H
	#define __HWCDRV_H

	#include "hwcfuncs.h"

	#ifdef linux
	#define HWCFUNCS_SIGNAL SIGIO
	#define HWCFUNCS_SIGNAL_STRING "SIGIO"
	#else
	#define HWCFUNCS_SIGNAL SIGEMT
	#define HWCFUNCS_SIGNAL_STRING "SIGEMT"
	#endif

	#ifndef LIBCOLLECTOR_SRC /* not running in libcollector */
	#include <string.h>

	#else /* running in libcollector */
	#include "collector_module.h"
	#include "libcol_util.h"

	#define get_hwcdrv __collector_get_hwcdrv

	#define GTXT(x) x

	/* Implemented by libcollector */
	#define calloc __collector_calloc
	#define close CALL_UTIL(close)
	#define fcntl CALL_UTIL(fcntl)
	#define fprintf CALL_UTIL(fprintf)
	//#define free __collector_free
	#define free(...)
	#define gethrtime __collector_gethrtime
	#define ioctl CALL_UTIL(ioctl)
	#define malloc __collector_malloc
	#define memcpy __collector_memcpy
	#define memset CALL_UTIL(memset)
	#define mmap CALL_UTIL(mmap)
	#define snprintf CALL_UTIL(snprintf)
	#define strchr CALL_UTIL(strchr)
	#define strcmp CALL_UTIL(strcmp)
	#define strncmp CALL_UTIL(strncmp)
	#define strcpy CALL_UTIL(strcpy)
	#define strdup __collector_strdup
	#define strncpy CALL_UTIL(strncpy)
	#define strerror CALL_UTIL(strerror)
	#define strlen CALL_UTIL(strlen)
	#define strstr CALL_UTIL(strstr)
	#define strtol CALL_UTIL(strtol)
	#define strtoll CALL_UTIL(strtoll)
	#define strtoul CALL_UTIL(strtoul)
	#define strtoull CALL_UTIL(strtoull)
	#define syscall CALL_UTIL(syscall)
	#define sysconf CALL_UTIL(sysconf)
	#define vsnprintf CALL_UTIL(vsnprintf)

	#endif /* --- LIBCOLLECTOR_SRC --- */

	/* TprintfT(<level>,...) definitions. Adjust per module as needed */
	#define DBG_LT0 0 // for high-level configuration, unexpected errors/warnings
	#define DBG_LT1 1 // for configuration details, warnings
	#define DBG_LT2 2
	#define DBG_LT3 3
	#define DBG_LT4 4

	#ifdef __cplusplus
	extern "C"
	{
	#endif

	/* hwcdrv api */
	typedef struct
	{
	int (hwcdrv_init)(hwcfuncs_abort_fn_t abort_ftn, int tsd_sz);
	/* Initialize hwc counter library (do not call again after fork)
	Must be called before other functions.
	Input:
	<abort_ftn>: NULL or callback function to be used for fatal errors
	<tsd_sz>: If not NULL, returns size in bytes required for thread-specific storage
	Return: 0 if successful
	*/

	void (hwcdrv_get_info)(int cpuver, const char *cciname, uint_t npics,
	const char *docref, uint64_t support);
	/* get info about session
	Input:
	<cpuver>: if not NULL, returns value of CPC cpu version
	<cciname>: if not NULL, returns name of CPU
	<npics>: if not NULL, returns maximum # of HWCs
	<docref>: if not NULL, returns documentation reference
	<support>: if not NULL, returns bitmask (see hwcfuncs.h) of hwc support
	Return: 0 if successful, nonzero otherwise
	*/

	int (*hwcdrv_enable_mt)(hwcfuncs_tsd_get_fn_t tsd_ftn);
	/* Enables multi-threaded mode (do not need to call again after fork)
	Input:
	<tsd_ftn>: If <tsd_sz>==0, this parameter is ignored.
	Otherwise:
	tsd_ftn() must be able to return a pointer to thread-specific
	memory of <tsd_sz> bytes.
	For a given thread, tsd_ftn() must
	always return the same pointer.
	Return: none
	*/

	int (hwcdrv_get_descriptions)(hwcf_hwc_cb_t hwc_find_action,
	hwcf_attr_cb_t *attr_find_action,
	Hwcentry *raw_hwc_tbl);
	/* Initiate callbacks with all available HWC names and HWC attributes.
	Input:
	<hwc_find_action>: if not NULL, will be called once for each HWC
	<attr_find_action>: if not NULL, will be called once for each attribute
	<raw_hwc_tbl>: counter definitions.
	Return: 0 if successful
	or a cpc return code upon error
	*/

	int (hwcdrv_assign_regnos)(Hwcentry entries[], unsigned numctrs);
	/* Assign entries[]->reg_num values as needed by platform
	Input:
	<entries>: array of counters
	<numctrs>: number of items in <entries>
	Return: 0 if successful
	HWCFUNCS_ERROR_HWCINIT if resources unavailable
	HWCFUNCS_ERROR_HWCARGS if counters were not specified correctly
	*/

	int (hwcdrv_create_counters)(unsigned hwcdef_cnt, Hwcentry hwcdef);
	/* Create the counters, but don't start them.
	call this once in main thread to create counters.
	Input:
	<defcnt>: number of counter definitions.
	<hwcdef>: counter definitions.
	Return: 0 if successful
	or a cpc return code upon error
	*/

	int (*hwcdrv_start)(void);
	/* Start the counters.
	call this once in main thread to start counters.
	Return: 0 if successful
	or a cpc return code upon error
	*/

	int (hwcdrv_overflow)(siginfo_t si, hwc_event_t *sample,
	hwc_event_t *lost_samples);
	/* Linux only. Capture current counter values.
	This is intended to be called from SIGEMT handler;
	Input:
	<si>: signal handler context information
	<sample>: returns non-zero values for counters that overflowed
	<lost_samples>: returns non-zero values for counters that "lost" counts
	Return: 0 if successful
	or a cpc return code upon error.
	*/

	int (hwcdrv_read_events)(hwc_event_t overflow_data,
	hwc_event_samples_t *sampled_data);
	/* Read current counter values and samples. Read of samples is destructive.
	Note: hwcdrv_read_events is not supported on Linux.
	<overflow_data>: returns snapshot of counter values
	<sampled_data>: returns sampled data
	Return: 0 if successful
	HWCFUNCS_ERROR_UNAVAIL if resource unavailable(e.g. called before initted)
	(other values may be possible)
	*/

	int (hwcdrv_sighlr_restart)(const hwc_event_t startVals);
	/* Restarts the counters at the given value.
	This is intended to be called from SIGEMT handler;
	Input:
	<startVals>: Solaris: new start values.
	Linux: pointer may be NULL; startVals is ignored.
	Return: 0 if successful
	or a cpc return code upon error.
	*/

	int (*hwcdrv_lwp_suspend)(void);
	/* Attempt to stop counters on this lwp only.
	hwcdrv_lwp_resume() should be used to restart counters.
	Return: 0 if successful
	or a cpc return code upon error.
	*/

	int (*hwcdrv_lwp_resume)(void);
	/* Attempt to restart counters on this lwp when counters were
	stopped with hwcdrv_lwp_suspend().
	Return: 0 if successful
	or a cpc return code upon error.
	*/

	int (*hwcdrv_free_counters)(void);
	/* Stops counters on this lwp only and frees resources.
	This will fail w/ unpredictable results if other lwps's are
	still running. After this call returns,
	hwcdrv_create_counters() may be called with new values.
	Return: 0 if successful
	or a cpc return code upon error.
	*/

	int (*hwcdrv_lwp_init)(void);
	/* per-thread counter init.
	Solaris: nop.
	Linux: just after thread creation call this from inside thread
	to create context and start counters.
	Return: 0 if successful
	or a perfctr return code upon error
	*/

	void (*hwcdrv_lwp_fini)(void);
	/* per-thread counter cleanup.
	Solaris: nop.
	Linux: call in each thread upon thread destruction.
	*/

	int hwcdrv_init_status;
	} hwcdrv_api_t;

	extern hwcdrv_api_t *get_hwcdrv ();
	extern hwcdrv_api_t *__collector_get_hwcdrv ();
	extern int __collector_hwcfuncs_bind_descriptor (const char *defstring);
	extern Hwcentry *__collector_hwcfuncs_get_ctrs (unsigned defcnt);

	/* prototypes for internal use by hwcdrv drivers */
	typedef struct
	{ // see hwcdrv_get_info() for field definitions
	int cpcN_cpuver;
	uint_t cpcN_npics;
	const char *cpcN_docref;
	const char *cpcN_cciname;
	} hwcdrv_about_t;

	#define logerr hwcfuncs_int_logerr

	/---------------------------------------------------------------------------/
	/* prototypes for internal use by linux hwcdrv drivers */
	#define PERFCTR_FIXED_MAGIC 0x40000000 /* tells perfctr to use intel fixed pmcs */
	#define PERFCTR_UMASK_SHIFT 8
	#define EXTENDED_EVNUM_2_EVSEL(evnum) \
	( (((eventsel_t)(evnum) & 0x0f00ULL) << 24) \| ((eventsel_t)(evnum) & ~0x0f00ULL) )

	typedef uint64_t eventsel_t;
	typedef struct
	{
	const char * attrname; // user-visible name of attribute
	int is_inverted; // nonzero means boolean attribute is inverted
	eventsel_t mask; // which attribute bits can be set?
	eventsel_t shift; // how far to shift bits for use in x86 register
	} attr_info_t;
	extern const attr_info_t *perfctr_attrs_table;

	/* hdrv_pcbe api: cpu-specific drivers for Linux */
	typedef struct
	{
	int (*hdrv_pcbe_init)(void);
	uint_t (*hdrv_pcbe_ncounters)(void);
	const char (hdrv_pcbe_impl_name)(void);
	const char (hdrv_pcbe_cpuref)(void);
	int (hdrv_pcbe_get_events)(hwcf_hwc_cb_t hwc_cb, Hwcentry *raw_hwc_tbl);
	int (hdrv_pcbe_get_eventnum)(const char eventname, uint_t pmc,
	eventsel_t eventnum, eventsel_t valid_umask,
	uint_t *pmc_sel);
	} hdrv_pcbe_api_t;

	#ifdef __cplusplus
	}
	#endif

	#endif