/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _FPC_H
#define _FPC_H
#pragma ident "%Z%%M% %I% %E% SMI"
#ifdef __cplusplus
extern "C" {
#endif
#define SUCCESS 0
#define FAILURE -1
#define NUM_LEAVES 2
extern int fpc_debug;
#define FPC_DBG1 if (fpc_debug >= 1) printf
#define FPC_DBG2 if (fpc_debug >= 2) printf
/*
* Defs for fpc-kstat.c. Put'em here for now even though they don't
* have to do with the lower-level implementation.
*/
extern int fpc_kstat_init(dev_info_t *dip);
extern void fpc_kstat_fini(dev_info_t *dip);
typedef enum fire_perfcnt {
jbc = 0,
imu,
mmu,
tlu,
lpu
} fire_perfcnt_t;
/* Set to the last entry in fire_perfcnt_t. */
#define MAX_REG_TYPES ((int)lpu + 1)
#define NUM_JBC_COUNTERS 2
#define NUM_IMU_COUNTERS 2
#define NUM_MMU_COUNTERS 2
#define NUM_TLU_COUNTERS 3
#define NUM_LPU_COUNTERS 2
/* Sum of all NUM_xxx_COUNTERS above. */
#define NUM_TOTAL_COUNTERS 11
/* largest group of counters */
#define NUM_MAX_COUNTERS NUM_TLU_COUNTERS
/* Event mask related. */
/* How much an event for a given PIC is shifted within the event mask. */
#define PIC0_EVT_SEL_SHIFT 0
#define PIC1_EVT_SEL_SHIFT 8
#define PIC2_EVT_SEL_SHIFT 16
/* Width or mask of a single event within an event mask. */
#define JBC01_EVT_MASK 0xFF
#define IMU01_EVT_MASK 0xFF
#define MMU01_EVT_MASK 0xFF
#define TLU01_EVT_MASK 0xFF
#define TLU2_EVT_MASK 0x3
#define LPU12_EVT_MASK 0xFFFF
/* Positioned masks for different event fields within an event mask. */
#define JBC_PIC0_EVT_MASK ((uint64_t)JBC01_EVT_MASK << PIC0_EVT_SEL_SHIFT)
#define JBC_PIC1_EVT_MASK ((uint64_t)JBC01_EVT_MASK << PIC1_EVT_SEL_SHIFT)
#define IMU_PIC0_EVT_MASK ((uint64_t)IMU01_EVT_MASK << PIC0_EVT_SEL_SHIFT)
#define IMU_PIC1_EVT_MASK ((uint64_t)IMU01_EVT_MASK << PIC1_EVT_SEL_SHIFT)
#define MMU_PIC0_EVT_MASK ((uint64_t)MMU01_EVT_MASK << PIC0_EVT_SEL_SHIFT)
#define MMU_PIC1_EVT_MASK ((uint64_t)MMU01_EVT_MASK << PIC1_EVT_SEL_SHIFT)
#define TLU_PIC0_EVT_MASK ((uint64_t)TLU01_EVT_MASK << PIC0_EVT_SEL_SHIFT)
#define TLU_PIC1_EVT_MASK ((uint64_t)TLU01_EVT_MASK << PIC1_EVT_SEL_SHIFT)
#define TLU_PIC2_EVT_MASK ((uint64_t)TLU2_EVT_MASK << PIC2_EVT_SEL_SHIFT)
#define LPU_PIC0_EVT_MASK ((uint64_t)LPU12_EVT_MASK << PIC0_EVT_SEL_SHIFT)
#define LPU_PIC1_EVT_MASK ((uint64_t)LPU12_EVT_MASK << PIC2_EVT_SEL_SHIFT)
/*
* Take a dip to define the device...
* sun4v: can convert dip to a dev_hdl needed for hyp. perf ctr interface.
* sun4u: can convert dip to an ldi_ident_t I can use for a layered PCItool
* ioctl.
*
* Define which of JBUS, PCIE_A and PCIE_B regs are available. HW partitioning
* may make some register sets unavailable to certain virtual nodes.
*/
#define JBUS_REGS_AVAIL 0x1 /* JBUS regs avail */
#define PCIE_A_REGS_AVAIL 0x2
#define PCIE_B_REGS_AVAIL 0x4
/* For checking platform from _init before installing module */
extern int fpc_init_platform_check();
/* Low level module initialization done at attach time. */
extern int fpc_perfcnt_module_init(dev_info_t *dip, int *avail);
extern int fpc_perfcnt_module_fini(dev_info_t *dip);
/*
* Program a performance counter.
*
* reggroup is which type of counter.
* counter is the counter number.
* event is the event to program for that counter.
*/
extern int fpc_perfcnt_program(int devnum, fire_perfcnt_t reggroup,
uint64_t event);
/*
* Read a performance counter.
*
* reggroup is which type of counter.
* counter is the counter number.
* event_p returns the event programmed for that counter.
* value_p returns the counter value.
*/
extern int fpc_perfcnt_read(int devnum, fire_perfcnt_t reggroup,
uint64_t *event_p, uint64_t values[NUM_MAX_COUNTERS]);
/*
* Definitions of the different types of events.
*
* The first part says which registers these events are for.
* For example, JBC01 means the JBC performance counters 0 and 1
*/
#define JBC01_S_EVT_NONE "event_none"
#define JBC01_S_EVT_CLK "clock_cyc"
#define JBC01_S_EVT_IDLE "idle_cyc"
#define JBC01_S_EVT_FIRE "fire_jbus_cyc"
#define JBC01_S_EVT_READ_LATENCY "rd_latency_cyc"
#define JBC01_S_EVT_READ_SAMPLE "rd_sample"
#define JBC01_S_EVT_I2C_PIO "pios_i2c"
#define JBC01_S_EVT_EBUS_PIO "pios_ebus"
#define JBC01_S_EVT_RINGA_PIO "pios_ringA"
#define JBC01_S_EVT_RINGB_PIO "pios_ringB"
#define JBC01_S_EVT_PARTIAL_WR "partial_wr"
#define JBC01_S_EVT_TOTAL_WR "total_wr"
#define JBC01_S_EVT_TOTAL_RD "total_rd"
#define JBC01_S_EVT_AOKOFF "aokoff"
#define JBC01_S_EVT_DOKOFF "dokoff"
#define JBC01_S_EVT_DAOKOFF "daokoff"
#define JBC01_S_EVT_JBUS_COH_XACT "jbus_coh_tr"
#define JBC01_S_EVT_FIRE_COH_XACT "fire_coh_tr"
#define JBC01_S_EVT_JBUS_NCOH_XACT "jbus_ncoh_tr"
#define JBC01_S_EVT_FGN_IO_HIT "fgn_pio_hit"
#define JBC01_S_EVT_FIRE_WBS "fire_wb"
#define JBC01_S_EVT_PCIEA_PIO_WR "pio_wr_pcieA"
#define JBC01_S_EVT_PCIEA_PIO_RD "pio_rd_pcieA"
#define JBC01_S_EVT_PCIEB_PIO_WR "pio_wr_pcieB"
#define JBC01_S_EVT_PCIEB_PIO_RD "pio_rd_pcieB"
#define JBC01_EVT_NONE 0x0
#define JBC01_EVT_CLK 0x1
#define JBC01_EVT_IDLE 0x2
#define JBC01_EVT_FIRE 0x3
#define JBC01_EVT_READ_LATENCY 0x4
#define JBC01_EVT_READ_SAMPLE 0x5
#define JBC01_EVT_I2C_PIO 0x6
#define JBC01_EVT_EBUS_PIO 0x7
#define JBC01_EVT_RINGA_PIO 0x8
#define JBC01_EVT_RINGB_PIO 0x9
#define JBC01_EVT_PARTIAL_WR 0xA
#define JBC01_EVT_TOTAL_WR 0xB
#define JBC01_EVT_TOTAL_RD 0xC
#define JBC01_EVT_AOKOFF 0xD
#define JBC01_EVT_DOKOFF 0xE
#define JBC01_EVT_DAOKOFF 0xF
#define JBC01_EVT_JBUS_COH_XACT 0x10
#define JBC01_EVT_FIRE_COH_XACT 0x11
#define JBC01_EVT_JBUS_NCOH_XACT 0x12
#define JBC01_EVT_FGN_IO_HIT 0x13
#define JBC01_EVT_FIRE_WBS 0x14
#define JBC01_EVT_PCIEA_PIO_WR 0x15
#define JBC01_EVT_PCIEA_PIO_RD 0x16
#define JBC01_EVT_PCIEB_PIO_WR 0x17
#define JBC01_EVT_PCIEB_PIO_RD 0x18
#define IMU01_S_EVT_NONE "event_none"
#define IMU01_S_EVT_CLK "clock_cyc"
#define IMU01_S_EVT_MONDO "mondos_iss"
#define IMU01_S_EVT_MSI "msi_iss"
#define IMU01_S_EVT_MONDO_NAKS "mondos_nacks"
#define IMU01_S_EVT_EQ_WR "eq_wr"
#define IMU01_S_EVT_EQ_MONDO "eq_mondos"
#define IMU01_EVT_NONE 0x0
#define IMU01_EVT_CLK 0x1
#define IMU01_EVT_MONDO 0x2
#define IMU01_EVT_MSI 0x3
#define IMU01_EVT_MONDO_NAKS 0x4
#define IMU01_EVT_EQ_WR 0x5
#define IMU01_EVT_EQ_MONDO 0x6
#define MMU01_S_EVT_NONE "event_none"
#define MMU01_S_EVT_CLK "clock_cyc"
#define MMU01_S_EVT_TRANS "total_transl"
#define MMU01_S_EVT_STALL "total_stall_cyc"
#define MMU01_S_EVT_TRANSL_MISS "total_tranl_miss"
#define MMU01_S_EVT_TBLWLK_STALL "tblwlk_stall_cyc"
#define MMU01_S_EVT_BYPASS_TRANSL "bypass_transl"
#define MMU01_S_EVT_TRANSL_TRANSL "transl_transl"
#define MMU01_S_EVT_FLOW_CNTL_STALL "flow_stall_cyc"
#define MMU01_S_EVT_FLUSH_CACHE_ENT "cache_entr_flush"
#define MMU01_EVT_NONE 0x0
#define MMU01_EVT_CLK 0x1
#define MMU01_EVT_TRANSL 0x2
#define MMU01_EVT_STALL 0x3
#define MMU01_EVT_TRANSL_MISS 0x4
#define MMU01_EVT_TBLWLK_STALL 0x5
#define MMU01_EVT_BYPASS_TRANSL 0x6
#define MMU01_EVT_TRANSL_TRANSL 0x7
#define MMU01_EVT_FLOW_CNTL_STALL 0x8
#define MMU01_EVT_FLUSH_CACHE_ENT 0x9
#define TLU01_S_EVT_NONE "event_none"
#define TLU01_S_EVT_CLK "clock_cyc"
#define TLU01_S_EVT_COMPL "compl_recvd"
#define TLU01_S_EVT_XMT_POST_CR_UNAV "post_cr_unav_cyc"
#define TLU01_S_EVT_XMT_NPOST_CR_UNAV "npost_cr_unav_cyc"
#define TLU01_S_EVT_XMT_CMPL_CR_UNAV "compl_cr_unav_cyc"
#define TLU01_S_EVT_XMT_ANY_CR_UNAV "trans_cr_any_unav"
#define TLU01_S_EVT_RETRY_CR_UNAV "retry_cr_unav"
#define TLU01_S_EVT_MEMRD_PKT_RCVD "recvd_mem_rd_pkt"
#define TLU01_S_EVT_MEMWR_PKT_RCVD "recvd_mem_wr_pkt"
#define TLU01_S_EVT_RCV_CR_THRESH "recv_cr_thresh"
#define TLU01_S_EVT_RCV_PST_HDR_CR_EXH "recv_hdr_cr_exh_cyc"
#define TLU01_S_EVT_RCV_PST_DA_CR_MPS "recv_post_da_cr_mps"
#define TLU01_S_EVT_RCV_NPST_HDR_CR_EXH "recv_npost_hdr_cr_exh"
#define TLU01_S_EVT_RCVR_L0S "recvr_l0s_cyc"
#define TLU01_S_EVT_RCVR_L0S_TRANS "recvr_l0s_trans"
#define TLU01_S_EVT_XMTR_L0S "trans_l0s_cyc"
#define TLU01_S_EVT_XMTR_L0S_TRANS "trans_l0s_trans"
#define TLU01_S_EVT_RCVR_ERR "recvr_err"
#define TLU01_S_EVT_BAD_TLP "bad_tlp"
#define TLU01_S_EVT_BAD_DLLP "bad_dllp"
#define TLU01_S_EVT_REPLAY_ROLLOVER "replay_rollover"
#define TLU01_S_EVT_REPLAY_TMO "replay_to"
#define TLU01_EVT_NONE 0x0
#define TLU01_EVT_CLK 0x1
#define TLU01_EVT_COMPL 0x2
#define TLU01_EVT_XMT_POST_CR_UNAV 0x10
#define TLU01_EVT_XMT_NPOST_CR_UNAV 0x11
#define TLU01_EVT_XMT_CMPL_CR_UNAV 0x12
#define TLU01_EVT_XMT_ANY_CR_UNAV 0x13
#define TLU01_EVT_RETRY_CR_UNAV 0x14
#define TLU01_EVT_MEMRD_PKT_RCVD 0x20
#define TLU01_EVT_MEMWR_PKT_RCVD 0x21
#define TLU01_EVT_RCV_CR_THRESH 0x22
#define TLU01_EVT_RCV_PST_HDR_CR_EXH 0x23
#define TLU01_EVT_RCV_PST_DA_CR_MPS 0x24
#define TLU01_EVT_RCV_NPST_HDR_CR_EXH 0x25
#define TLU01_EVT_RCVR_L0S 0x30
#define TLU01_EVT_RCVR_L0S_TRANS 0x31
#define TLU01_EVT_XMTR_L0S 0x32
#define TLU01_EVT_XMTR_L0S_TRANS 0x33
#define TLU01_EVT_RCVR_ERR 0x40
#define TLU01_EVT_BAD_TLP 0x42
#define TLU01_EVT_BAD_DLLP 0x43
#define TLU01_EVT_REPLAY_ROLLOVER 0x44
#define TLU01_EVT_REPLAY_TMO 0x47
#define TLU2_S_EVT_NONE "event_none"
#define TLU2_S_EVT_NON_POST_COMPL_TIME "non_post_compl"
#define TLU2_S_EVT_XMT_DATA_WORD "trans_data_words"
#define TLU2_S_EVT_RCVD_DATA_WORD "recvd_data_words"
#define TLU2_EVT_NONE 0x0
#define TLU2_EVT_NON_POST_COMPL_TIME 0x1
#define TLU2_EVT_XMT_DATA_WORD 0x2
#define TLU2_EVT_RCVD_DATA_WORD 0x3
#define LPU12_S_EVT_RESET "event_reset"
#define LPU12_S_EVT_TLP_RCVD "tlp_recvd"
#define LPU12_S_EVT_DLLP_RCVD "dllp_recvd"
#define LPU12_S_EVT_ACK_DLLP_RCVD "ack_dllp_recvd"
#define LPU12_S_EVT_NAK_DLLP_RCVD "nak_dllp_recvd"
#define LPU12_S_EVT_RETRY_START "retries_started"
#define LPU12_S_EVT_REPLAY_TMO "replay_timer_to"
#define LPU12_S_EVT_ACK_NAK_LAT_TMO "ack_nak_lat_to"
#define LPU12_S_EVT_BAD_DLLP "bad_dllp"
#define LPU12_S_EVT_BAD_TLP "bad_tlp"
#define LPU12_S_EVT_NAK_DLLP_SENT "nak_dllp_sent"
#define LPU12_S_EVT_ACK_DLLP_SENT "ack_dllp_sent"
#define LPU12_S_EVT_RCVR_ERROR "recvr_err"
#define LPU12_S_EVT_LTSSM_RECOV_ENTRY "ltssm_recov_entr"
#define LPU12_S_EVT_REPLAY_IN_PROG "replay_prog_cyc"
#define LPU12_S_EVT_TLP_XMT_IN_PROG "tlp_trans_prog_cyc"
#define LPU12_S_EVT_CLK_CYC "clock_cyc"
#define LPU12_S_EVT_TLP_DLLP_XMT_PROG "tlp_dllp_trans_cyc"
#define LPU12_S_EVT_TLP_DLLP_RCV_PROG "tlp_dllp_recv_cyc"
#define LPU12_EVT_RESET 0x0
#define LPU12_EVT_TLP_RCVD 0x1
#define LPU12_EVT_DLLP_RCVD 0x2
#define LPU12_EVT_ACK_DLLP_RCVD 0x3
#define LPU12_EVT_NAK_DLLP_RCVD 0x4
#define LPU12_EVT_RETRY_START 0x5
#define LPU12_EVT_REPLAY_TMO 0x6
#define LPU12_EVT_ACK_NAK_LAT_TMO 0x7
#define LPU12_EVT_BAD_DLLP 0x8
#define LPU12_EVT_BAD_TLP 0x9
#define LPU12_EVT_NAK_DLLP_SENT 0xA
#define LPU12_EVT_ACK_DLLP_SENT 0xB
#define LPU12_EVT_RCVR_ERROR 0xC
#define LPU12_EVT_LTSSM_RECOV_ENTRY 0xD
#define LPU12_EVT_REPLAY_IN_PROG 0xE
#define LPU12_EVT_TLP_XMT_IN_PROG 0xF
#define LPU12_EVT_CLK_CYC 0x10
#define LPU12_EVT_TLP_DLLP_XMT_PROG 0x11
#define LPU12_EVT_TLP_DLLP_RCV_PROG 0x12
#define COMMON_S_CLEAR_PIC "clear_pic"
#ifdef __cplusplus
}
#endif
#endif /* _FPC_H */