# # Copyright © 2021 Intel Corporation # # 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 (including the next # paragraph) 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. # import argparse import sys # # Tracepoint definitions: # def define_tracepoints(args): from u_trace import Header, HeaderScope from u_trace import ForwardDecl from u_trace import Tracepoint from u_trace import TracepointArg as Arg from u_trace import TracepointArgStruct as ArgStruct Header('intel_driver_ds.h', scope=HeaderScope.SOURCE) Header('blorp/blorp_priv.h', scope=HeaderScope.HEADER) Header('ds/intel_driver_ds.h', scope=HeaderScope.HEADER) def begin_end_tp(name, tp_args=[], tp_struct=None, tp_print=None, end_pipelined=True): Tracepoint('intel_begin_{0}'.format(name), tp_perfetto='intel_ds_begin_{0}'.format(name)) Tracepoint('intel_end_{0}'.format(name), args=tp_args, tp_struct=tp_struct, tp_perfetto='intel_ds_end_{0}'.format(name), tp_print=tp_print, end_of_pipe=end_pipelined) begin_end_tp('cmd_buffer', tp_args=[ArgStruct(type='uint8_t', var='level'),], tp_struct=[Arg(type='uint8_t', name='level', var='level', c_format='%hhu'),], end_pipelined=False) begin_end_tp('render_pass', tp_args=[ArgStruct(type='uint16_t', var='width'), ArgStruct(type='uint16_t', var='height'), ArgStruct(type='uint8_t', var='att_count'), ArgStruct(type='uint8_t', var='msaa'), ArgStruct(type='uint32_t', var='subpass_count'),], tp_struct=[Arg(type='uint16_t', name='width', var='width', c_format='%hu'), Arg(type='uint16_t', name='height', var='height', c_format='%hu'), Arg(type='uint8_t', name='att_count', var='att_count', c_format='%hhu'), Arg(type='uint8_t', name='msaa', var='msaa', c_format='%hhu'), Arg(type='uint32_t', name='subpass_count', var='subpass_count', c_format='%ou'),]) begin_end_tp('blorp', tp_args=[ArgStruct(type='uint32_t', var='width'), ArgStruct(type='uint32_t', var='height'), ArgStruct(type='enum isl_aux_op', var='hiz_op'), ArgStruct(type='enum isl_aux_op', var='fast_clear_op'), ArgStruct(type='enum blorp_shader_type', var='shader_type'), ArgStruct(type='enum blorp_shader_pipeline', var='shader_pipe'),], tp_struct=[Arg(type='uint32_t', name='width', var='width', c_format='%u'), Arg(type='uint32_t', name='height', var='height', c_format='%u'), Arg(type='enum isl_aux_op', name='hiz_op', var='hiz_op', c_format='%s', to_prim_type='isl_aux_op_to_name({})'), Arg(type='enum isl_aux_op', name='fast_clear_op', var='fast_clear_op', c_format='%s', to_prim_type='isl_aux_op_to_name({})'), Arg(type='enum blorp_shader_type', name='blorp_type', var='shader_type', c_format='%s', to_prim_type='blorp_shader_type_to_name({})'), Arg(type='enum blorp_shader_pipeline', name='blorp_pipe', var='shader_pipe', c_format='%s', to_prim_type='blorp_shader_pipeline_to_name({})'),]) begin_end_tp('draw', tp_args=[ArgStruct(type='uint32_t', var='count'),], tp_struct=[Arg(type='uint32_t', name='count', var='count', c_format='%u'),]) begin_end_tp('draw_multi', tp_args=[ArgStruct(type='uint32_t', var='count'),], tp_struct=[Arg(type='uint32_t', name='count', var='count', c_format='%u'),]) begin_end_tp('draw_indexed', tp_args=[ArgStruct(type='uint32_t', var='count'),], tp_struct=[Arg(type='uint32_t', name='count', var='count', c_format='%u'),]) begin_end_tp('draw_indexed_multi', tp_args=[ArgStruct(type='uint32_t', var='count'),], tp_struct=[Arg(type='uint32_t', name='count', var='count', c_format='%u'),]) begin_end_tp('draw_indirect_byte_count', tp_args=[ArgStruct(type='uint32_t', var='instance_count'),], tp_struct=[Arg(type='uint32_t', name='instance_count', var='instance_count', c_format='%u'),]) begin_end_tp('draw_indirect', tp_args=[ArgStruct(type='uint32_t', var='draw_count'),], tp_struct=[Arg(type='uint32_t', name='draw_count', var='draw_count', c_format='%u'),]) begin_end_tp('draw_indexed_indirect', tp_args=[ArgStruct(type='uint32_t', var='draw_count'),], tp_struct=[Arg(type='uint32_t', name='draw_count', var='draw_count', c_format='%u'),]) begin_end_tp('draw_indirect_count', tp_args=[ArgStruct(type='uint32_t', var='max_draw_count'),], tp_struct=[Arg(type='uint32_t', name='max_draw_count', var='max_draw_count', c_format='%u'),]) begin_end_tp('draw_indexed_indirect_count', tp_args=[ArgStruct(type='uint32_t', var='max_draw_count'),], tp_struct=[Arg(type='uint32_t', name='max_draw_count', var='max_draw_count', c_format='%u'),]) begin_end_tp('compute', tp_args=[ArgStruct(type='uint32_t', var='group_x'), ArgStruct(type='uint32_t', var='group_y'), ArgStruct(type='uint32_t', var='group_z'),], tp_struct=[Arg(type='uint32_t', name='group_x', var='group_x', c_format='%u'), Arg(type='uint32_t', name='group_y', var='group_y', c_format='%u'), Arg(type='uint32_t', name='group_z', var='group_z', c_format='%u'),], tp_print=['group=%ux%ux%u', '__entry->group_x', '__entry->group_y', '__entry->group_z']) def flag_bits(args): bits = [Arg(type='enum intel_ds_stall_flag', name='flags', var='decode_cb(flags)', c_format='0x%x')] for a in args: bits.append(Arg(type='bool', name=a[1], var='__entry->flags & INTEL_DS_{0}_BIT'.format(a[0]), c_format='%u')) return bits def stall_args(args): fmt = '' exprs = [] for a in args: fmt += '%s' exprs.append('(__entry->flags & INTEL_DS_{0}_BIT) ? "+{1}" : ""'.format(a[0], a[1])) fmt += ' : %s' exprs.append('__entry->reason ? __entry->reason : "unknown"') fmt = [fmt] fmt += exprs return fmt stall_flags = [['DEPTH_CACHE_FLUSH', 'depth_flush'], ['DATA_CACHE_FLUSH', 'dc_flush'], ['HDC_PIPELINE_FLUSH', 'hdc_flush'], ['RENDER_TARGET_CACHE_FLUSH', 'rt_flush'], ['TILE_CACHE_FLUSH', 'tile_flush'], ['STATE_CACHE_INVALIDATE', 'state_inval'], ['CONST_CACHE_INVALIDATE', 'const_inval'], ['VF_CACHE_INVALIDATE', 'vf_inval'], ['TEXTURE_CACHE_INVALIDATE', 'tex_inval'], ['INST_CACHE_INVALIDATE', 'ic_inval'], ['STALL_AT_SCOREBOARD', 'pb_stall'], ['DEPTH_STALL', 'depth_stall'], ['CS_STALL', 'cs_stall']] begin_end_tp('stall', tp_args=[ArgStruct(type='uint32_t', var='flags'), ArgStruct(type='intel_ds_stall_cb_t', var='decode_cb'), ArgStruct(type='const char *', var='reason'),], tp_struct=[Arg(type='uint32_t', name='flags', var='decode_cb(flags)', c_format='0x%x'), Arg(type='const char *', name='reason', var='reason', c_format='%s'),], tp_print=stall_args(stall_flags), end_pipelined=False) def generate_code(args): from u_trace import utrace_generate from u_trace import utrace_generate_perfetto_utils utrace_generate(cpath=args.utrace_src, hpath=args.utrace_hdr, ctx_param='struct intel_ds_device *dev') utrace_generate_perfetto_utils(hpath=args.perfetto_hdr) def main(): parser = argparse.ArgumentParser() parser.add_argument('-p', '--import-path', required=True) parser.add_argument('--utrace-src', required=True) parser.add_argument('--utrace-hdr', required=True) parser.add_argument('--perfetto-hdr', required=True) args = parser.parse_args() sys.path.insert(0, args.import_path) define_tracepoints(args) generate_code(args) if __name__ == '__main__': main()