/* * Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include "perf_gm20b.h" #include bool gm20b_perf_get_membuf_overflow_status(struct gk20a *g) { const u32 st = perf_pmasys_control_membuf_status_overflowed_f(); return st == (nvgpu_readl(g, perf_pmasys_control_r()) & st); } u32 gm20b_perf_get_membuf_pending_bytes(struct gk20a *g) { return nvgpu_readl(g, perf_pmasys_mem_bytes_r()); } void gm20b_perf_set_membuf_handled_bytes(struct gk20a *g, u32 entries, u32 entry_size) { if (entries > 0U) { nvgpu_writel(g, perf_pmasys_mem_bump_r(), entries * entry_size); } } void gm20b_perf_membuf_reset_streaming(struct gk20a *g) { u32 engine_status; u32 num_unread_bytes; engine_status = nvgpu_readl(g, perf_pmasys_enginestatus_r()); WARN_ON(0U == (engine_status & perf_pmasys_enginestatus_rbufempty_empty_f())); nvgpu_writel(g, perf_pmasys_control_r(), perf_pmasys_control_membuf_clear_status_doit_f()); num_unread_bytes = nvgpu_readl(g, perf_pmasys_mem_bytes_r()); if (num_unread_bytes != 0U) { nvgpu_writel(g, perf_pmasys_mem_bump_r(), num_unread_bytes); } } void gm20b_perf_enable_membuf(struct gk20a *g, u32 size, u64 buf_addr) { u32 addr_lo; u32 addr_hi; addr_lo = u64_lo32(buf_addr); addr_hi = u64_hi32(buf_addr); nvgpu_writel(g, perf_pmasys_outbase_r(), addr_lo); nvgpu_writel(g, perf_pmasys_outbaseupper_r(), perf_pmasys_outbaseupper_ptr_f(addr_hi)); nvgpu_writel(g, perf_pmasys_outsize_r(), size); } void gm20b_perf_disable_membuf(struct gk20a *g) { nvgpu_writel(g, perf_pmasys_outbase_r(), 0); nvgpu_writel(g, perf_pmasys_outbaseupper_r(), perf_pmasys_outbaseupper_ptr_f(0)); nvgpu_writel(g, perf_pmasys_outsize_r(), 0); } void gm20b_perf_init_inst_block(struct gk20a *g, struct nvgpu_mem *inst_block) { u32 inst_block_ptr = nvgpu_inst_block_ptr(g, inst_block); nvgpu_writel(g, perf_pmasys_mem_block_r(), perf_pmasys_mem_block_base_f(inst_block_ptr) | perf_pmasys_mem_block_valid_true_f() | nvgpu_aperture_mask(g, inst_block, perf_pmasys_mem_block_target_sys_ncoh_f(), perf_pmasys_mem_block_target_sys_coh_f(), perf_pmasys_mem_block_target_lfb_f())); } void gm20b_perf_deinit_inst_block(struct gk20a *g) { nvgpu_writel(g, perf_pmasys_mem_block_r(), perf_pmasys_mem_block_base_f(0) | perf_pmasys_mem_block_valid_false_f() | perf_pmasys_mem_block_target_f(0)); } u32 gm20b_perf_get_pmmsys_per_chiplet_offset(void) { return (perf_pmmsys_extent_v() - perf_pmmsys_base_v() + 1U); } u32 gm20b_perf_get_pmmgpc_per_chiplet_offset(void) { return (perf_pmmgpc_extent_v() - perf_pmmgpc_base_v() + 1U); } u32 gm20b_perf_get_pmmfbp_per_chiplet_offset(void) { return (perf_pmmfbp_extent_v() - perf_pmmfbp_base_v() + 1U); }