diff options
Diffstat (limited to 'drivers/timing_adapter/include')
-rw-r--r-- | drivers/timing_adapter/include/timing_adapter.h | 133 |
1 files changed, 133 insertions, 0 deletions
diff --git a/drivers/timing_adapter/include/timing_adapter.h b/drivers/timing_adapter/include/timing_adapter.h new file mode 100644 index 0000000..ef4f9b9 --- /dev/null +++ b/drivers/timing_adapter/include/timing_adapter.h @@ -0,0 +1,133 @@ +/* + * Copyright (c) 2019-2021 Arm Limited. All rights reserved. + * + * SPDX-License-Identifier: Apache-2.0 + * + * Licensed under the Apache License, Version 2.0 (the License); you may + * not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an AS IS BASIS, WITHOUT + * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef TIMING_ADAPTER_H_ +#define TIMING_ADAPTER_H_ + +#include <stdint.h> + +#if defined __cplusplus +extern "C" { +#endif + +/** TIMING ADAPTER + * + * The timing adapter is an AXI-to-AXI bridge for providing well-defined memory timing + * to allow performance evaluation of an AXI master. The bridge works by delaying the + * responses from the memory according to run-time configurable parameters that can be + * set in the timing adapter. Parameters include read and write response latencies, + * no. of outstanding transactions, and a model of interferring traffic. + */ + +struct timing_adapter { + uintptr_t base_addr; +}; + +/** LIMITATIONS FOR FVP: + * + * - TA_MODE is hardcoded to 1 (one) at all times. + * - Only TA_PERFCTRL_AWTRANS and TA_PERFCTRL_ARTRANS support is + * implemented for the performance counter. + */ + +struct timing_adapter_settings { + uint32_t maxr; // 6-bit field. Max no. of pending reads. 0=infinite + uint32_t maxw; // 6-bit field. Max no. of pending writes. 0=infinite + uint32_t maxrw; // 6-bit field. Max no. of pending reads+writes. 0=infinite + uint32_t rlatency; // 12-bit field. Minimum latency (clock cycles) from AVALID to RVALID. + uint32_t wlatency; // 12-bit field. Minimum latency (clock cycles) from WVALID&WLAST to BVALID. + uint32_t pulse_on; // No. of cycles addresses let through (0-65535). + uint32_t pulse_off; // No. of cycles addresses blocked (0-65535). + uint32_t bwcap; // 16-bit field. Max no. of 64-bit words transfered per pulse cycle 0=infinite + uint32_t perfctrl; // 6-bit field selecting an event for event counter 0=default + uint32_t perfcnt; // 32-bit event counter + uint32_t mode; // Bit 0: 1=enable dynamic clocking to avoid underrun + // Bit 1: 1=enable random AR reordering (0=default) + // Bit 2: 1=enable random R reordering (0=default) + // Bit 3: 1=enable random B reordering (0=default) + // Bit 11-4: Frequency scale 0=full speed, 255=(1/256) speed + uint32_t maxpending; // (Read-only) Max supported value in MAXR and MAXW registers + uint32_t histbin; // Controlls which histogram bin (0-15) that should be accessed by HISTCNT. + uint32_t histcnt; // 32-bit field. Read/write the selected histogram bin. +}; + +enum timing_adapter_perfctrl_settings { + TA_PERFCTRL_OFF = 0, // Disable performance counting + TA_PERFCTRL_CYCLES, // Count all cycles (root clock) + TA_PERFCTRL_UNDERRUN_R, // Unable to meet RLATENCY deadline + TA_PERFCTRL_UNDERRUN_B, // Unable to meet WLATENCY deadline + TA_PERFCTRL_OVERFLOW_AR, // Internal read address FIFO full + TA_PERFCTRL_OVERFLOW_AW, // Internal write address FIFO full + TA_PERFCTRL_OVERFLOW_R, // Internal read data FIFO full + TA_PERFCTRL_OVERFLOW_W, // Internal write data FIFO full + TA_PERFCTRL_OVERFLOW_B, // Internal write response FIFO full + TA_PERFCTRL_RREADY, // RREADY wait state + TA_PERFCTRL_BREADY, // BREADY wait state + TA_PERFCTRL_RTRANS, // Handshake on R channel + TA_PERFCTRL_WTRANS, // Handshake on W channel + TA_PERFCTRL_BTRANS, // Handshake on B channel + TA_PERFCTRL_ARTRANS, // Handshake on AR channel + TA_PERFCTRL_AWTRANS, // Handshake on AW channel + TA_PERFCTRL_ARQTIME, // Histogram of how much time spent with outstanding read transactions + TA_PERFCTRL_AWQTIME, // Histogram of how much time spent with outstanding write transactions + TA_PERFCTRL_MCLK_ON, // Count cycles when DUT clock is on + TA_PERFCTRL_MCLK_OFF, // Count cycles when DUT clock is off + TA_PERFCTRL_ARLEN0 = 32, // Handshake on AR channel with ARLEN=0 + TA_PERFCTRL_AWLEN0 = 48 // Handshake on AW channel with AWLEN=0 +}; + +int ta_init(struct timing_adapter *ta, uintptr_t base_addr); +void ta_uninit(struct timing_adapter *ta); + +void ta_set_all(struct timing_adapter *ta, struct timing_adapter_settings *in); +void ta_set_maxr(struct timing_adapter *ta, uint32_t val); +void ta_set_maxw(struct timing_adapter *ta, uint32_t val); +void ta_set_maxrw(struct timing_adapter *ta, uint32_t val); +void ta_set_rlatency(struct timing_adapter *ta, uint32_t val); +void ta_set_wlatency(struct timing_adapter *ta, uint32_t val); +void ta_set_pulse_on(struct timing_adapter *ta, uint32_t val); +void ta_set_pulse_off(struct timing_adapter *ta, uint32_t val); +void ta_set_bwcap(struct timing_adapter *ta, uint32_t val); +void ta_set_perfctrl(struct timing_adapter *ta, uint32_t val); +void ta_set_perfcnt(struct timing_adapter *ta, uint32_t val); +void ta_set_mode(struct timing_adapter *ta, uint32_t val); +void ta_set_histbin(struct timing_adapter *ta, uint32_t val); +void ta_set_histcnt(struct timing_adapter *ta, uint32_t val); + +void ta_get_all(struct timing_adapter *ta, struct timing_adapter_settings *out); +uint32_t ta_get_maxr(struct timing_adapter *ta); +uint32_t ta_get_maxw(struct timing_adapter *ta); +uint32_t ta_get_maxrw(struct timing_adapter *ta); +uint32_t ta_get_rlatency(struct timing_adapter *ta); +uint32_t ta_get_wlatency(struct timing_adapter *ta); +uint32_t ta_get_pulse_on(struct timing_adapter *ta); +uint32_t ta_get_pulse_off(struct timing_adapter *ta); +uint32_t ta_get_bwcap(struct timing_adapter *ta); +uint32_t ta_get_perfctrl(struct timing_adapter *ta); +uint32_t ta_get_perfcnt(struct timing_adapter *ta); +uint32_t ta_get_mode(struct timing_adapter *ta); +uint32_t ta_get_maxpending(struct timing_adapter *ta); +uint32_t ta_get_histbin(struct timing_adapter *ta); +uint32_t ta_get_histcnt(struct timing_adapter *ta); +uint32_t ta_get_version(struct timing_adapter *ta); + +#if defined __cplusplus +} +#endif + +#endif |