# SPDX-License-Identifier: MIT import datetime from m1n1.constructutils import show_struct_trace, Ver from m1n1.utils import * Ver.set_version(hv.u) trace_device("/arm-io/sgx", True) #trace_device("/arm-io/pmp", True) #trace_device("/arm-io/gfx-asc", False) from m1n1.trace.agx import AGXTracer AGXTracer = AGXTracer._reloadcls(True) agx_tracer = AGXTracer(hv, "/arm-io/gfx-asc", verbose=1) agx_tracer.trace_kernmap = False agx_tracer.trace_kernva = False agx_tracer.trace_usermap = False sgx = hv.adt["/arm-io/sgx"] freqs = [] voltages = [] for j in range(8): for i, v in enumerate(voltages): if j != 0: v = 1 sgx.perf_states[i+j*len(voltages)].freq = freqs[i] * 1000000 sgx.perf_states[i+j*len(voltages)].volt = v sgx.perf_states_sram[i+j*len(voltages)].freq = freqs[i] * 1000000 sgx.perf_states_sram[i+j*len(voltages)].volt = 1 if j >= 1: getattr(sgx, f"perf_states{j}")[i].freq = freqs[i] * 1000000 getattr(sgx, f"perf_states{j}")[i].volt = v getattr(sgx, f"perf_states_sram{j}")[i].freq = freqs[i] * 1000000 getattr(sgx, f"perf_states_sram{j}")[i].volt = 1 def after_init(): plat = hv.adt.compatible[0].lower() fname = f"initdata/{datetime.datetime.now().isoformat()}-{plat}.log" idlog = open(fname, "w") print(f"Platform: {plat}", file=idlog) fw = hv.adt["/chosen"].firmware_version.split(b"\0")[0].decode("ascii") print(f"Firmware: {fw}", file=idlog) sfw = hv.adt["/chosen"].system_firmware_version print(f"System firmware: {sfw}", file=idlog) print(file=idlog) print("ADT SGX:", file=idlog) print(sgx, file=idlog) open("adt_hv.txt","w").write(str(hv.adt)) print("InitData:", file=idlog) print(agx_tracer.state.initdata, file=idlog) power = [int(i) for i in agx_tracer.state.initdata.regionB.hwdata_b.rel_max_powers] volt = [int(i[0]) for i in agx_tracer.state.initdata.regionB.hwdata_b.voltages] freq = [int(i) for i in agx_tracer.state.initdata.regionB.hwdata_b.frequencies] print("p/v", [p/max(1, v) for p,v in zip(power,volt)]) print("p/f", [p/max(1, f) for p,f in zip(power,freq)]) print("p/v2", [p/max(1, (v*v)) for p,v in zip(power,volt)]) hv.reboot() agx_tracer.after_init_hook = after_init #agx_tracer.encoder_id_filter = lambda i: (i >> 16) == 0xc0de agx_tracer.start() def resume_tracing(ctx): fname = f"{datetime.datetime.now().isoformat()}.log" hv.set_logfile(open(f"gfxlogs/{fname}", "a")) agx_tracer.resume() return True def pause_tracing(ctx): agx_tracer.pause() hv.set_logfile(None) return True hv.add_hvcall(100, resume_tracing) hv.add_hvcall(101, pause_tracing) mode = TraceMode.SYNC trace_range(irange(agx_tracer.gpu_region, agx_tracer.gpu_region_size), mode=mode, name="gpu_region") trace_range(irange(agx_tracer.gfx_shared_region, agx_tracer.gfx_shared_region_size), mode=mode, name="gfx_shared_region") ## Trace the entire mmio range around the GPU node = hv.adt["/arm-io/sgx"] addr, size = node.get_reg(0) hv.trace_range(irange(addr, 0x1000000), TraceMode.SYNC, name="sgx") #hv.trace_range(irange(addr, 0x1000000), TraceMode.OFF, name="sgx") hv.trace_range(irange(0x204017030, 8), TraceMode.SYNC, name="faultcode") trace_device("/arm-io/sgx", True) trace_device("/arm-io/gfx-asc", False) def trace_all_gfx_io(): # These are all the IO ranges that get mapped into the UAT iommu pagetable # Trace them so we can see if any of them are being written by the CPU # page (8): fa010020000 ... fa010023fff -> 000000020e100000 [8000020e100447] hv.trace_range(irange(0x20e100000, 0x4000), mode=TraceMode.SYNC) # page (10): fa010028000 ... fa01002bfff -> 000000028e104000 [c000028e104447] hv.trace_range(irange(0x20e100000, 0x4000), mode=TraceMode.SYNC) # page (22): fa010058000 ... fa01005bfff -> 000000028e494000 [8000028e494447] hv.trace_range(irange(0x28e494000, 0x4000), mode=TraceMode.SYNC) # page (28): fa010070000 ... fa010073fff -> 0000000204d60000 [c0000204d60447] hv.trace_range(irange(0x204d60000, 0x4000), mode=TraceMode.SYNC) # page (30): fa010078000 ... fa01007bfff -> 0000000200000000 [c0000200000447] # to # page (83): fa01014c000 ... fa01014ffff -> 00000002000d4000 [c00002000d4447] hv.trace_range(irange(0x200000000, 0xd5000), mode=TraceMode.SYNC) # page (84): fa010150000 ... fa010153fff -> 0000000201000000 [c0000201000447] #page (137): fa010224000 ... fa010227fff -> 00000002010d4000 [c00002010d4447] hv.trace_range(irange(0x201000000, 0xd5000), mode=TraceMode.SYNC) # page (138): fa010228000 ... fa01022bfff -> 0000000202000000 [c0000202000447] # page (191): fa0102fc000 ... fa0102fffff -> 00000002020d4000 [c00002020d4447] hv.trace_range(irange(0x202000000, 0xd5000), mode=TraceMode.SYNC) # page (192): fa010300000 ... fa010303fff -> 0000000203000000 [c0000203000447] hv.trace_range(irange(0x203000000, 0xd5000), mode=TraceMode.SYNC) hv.trace_range(irange(0x204000000, 0xd5000), mode=TraceMode.SYNC) hv.trace_range(irange(0x205000000, 0xd5000), mode=TraceMode.SYNC) hv.trace_range(irange(0x206000000, 0xd5000), mode=TraceMode.SYNC) hv.trace_range(irange(0x207000000, 0xd5000), mode=TraceMode.SYNC) # page (464): fa010740000 ... fa010743fff -> 00000002643c4000 [c00002643c4447] hv.trace_range(irange(0x2643c4000, 0x4000), mode=TraceMode.SYNC) # page (466): fa010748000 ... fa01074bfff -> 000000028e3d0000 [c000028e3d0447] hv.trace_range(irange(0x28e3d0000, 0x4000), mode=TraceMode.SYNC) # page (468): fa010750000 ... fa010753fff -> 000000028e3c0000 [8000028e3c0447] hv.trace_range(irange(0x28e3c0000, 0x4000), mode=TraceMode.SYNC) # page (8): f9100020000 ... f9100023fff -> 0000000406000000 [60000406000447] # page (263): f910041c000 ... f910041ffff -> 00000004063fc000 [600004063fc447] hv.trace_range(irange(0x2643c4000, 0x63fc000), mode=TraceMode.SYNC) def trace_gpu_irqs(): # Trace sgx interrupts node = hv.adt["/arm-io/sgx"] for irq in getattr(node, "interrupts"): hv.trace_irq(f"{node.name} {irq}", irq, 1, hv.IRQTRACE_IRQ) ## Trace gfx-asc interrupts #node = hv.adt["/arm-io/gfx-asc"] #for irq in getattr(node, "interrupts"): #hv.trace_irq(f"{node.name} {irq}", irq, 1, hv.IRQTRACE_IRQ) trace_gpu_irqs()