m1n1/proxyclient/hv/trace_dcp.py

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# SPDX-License-Identifier: MIT
import struct
from io import BytesIO
from enum import IntEnum
from m1n1.constructutils import Ver
from m1n1.proxyutils import RegMonitor
from m1n1.utils import *
from m1n1.trace.dart import DARTTracer
from m1n1.trace.asc import ASCTracer, EP, EPState, msg, msg_log, DIR
from m1n1.fw.afk.rbep import *
from m1n1.fw.afk.epic import *
Ver.set_version(hv.u)
class DCPDevType(IntEnum):
DCP = 0
DART_DCP = 1
DART_DISP = 2
def get_alias(node):
if "aliases" in u.adt and hasattr(u.adt["aliases"], node):
return u.adt["aliases"].getprop(node).rsplit('/', 1)[1]
return node
def get_dcp_device(dev_type, dcp):
if dev_type is DCPDevType.DCP:
return "/arm-io/" + get_alias(dcp)
elif dev_type is DCPDevType.DART_DCP:
return "/arm-io/dart-" + get_alias(dcp)
elif dev_type is DCPDevType.DART_DISP:
return "/arm-io/dart-" + dcp.replace("dcp", "disp")
else:
raise KeyError(dev_type)
dcp_name = "dcp0"
#dcp_name = "dcpext0"
trace_device(get_dcp_device(DCPDevType.DCP, dcp_name), True, ranges=[1])
DARTTracer = DARTTracer._reloadcls()
ASCTracer = ASCTracer._reloadcls()
iomon = RegMonitor(hv.u, ascii=True)
class AFKRingBufSniffer(AFKRingBuf):
def __init__(self, ep, state, base, size):
super().__init__(ep, base, size)
self.state = state
self.rptr = getattr(state, "rptr", 0)
def update_rptr(self, rptr):
self.state.rptr = rptr
def update_wptr(self):
raise NotImplementedError()
def get_wptr(self):
return struct.unpack("<I", self.read_buf(2 * self.BLOCK_SIZE, 4))[0]
def read_buf(self, off, size):
return self.ep.dart.ioread(self.ep.stream, self.base + off, size)
class AFKEp(EP):
BASE_MESSAGE = AFKEPMessage
def __init__(self, tracer, epid):
super().__init__(tracer, epid)
self.txbuf = None
self.rxbuf = None
self.state.txbuf = EPState()
self.state.rxbuf = EPState()
self.state.shmem_iova = None
self.state.txbuf_info = None
self.state.rxbuf_info = None
self.state.verbose = 1
def start(self):
#self.add_mon()
self.create_bufs()
def create_bufs(self):
if not self.state.shmem_iova:
return
if not self.txbuf and self.state.txbuf_info:
off, size = self.state.txbuf_info
self.txbuf = AFKRingBufSniffer(self, self.state.txbuf,
self.state.shmem_iova + off, size)
if not self.rxbuf and self.state.rxbuf_info:
off, size = self.state.rxbuf_info
self.rxbuf = AFKRingBufSniffer(self, self.state.rxbuf,
self.state.shmem_iova + off, size)
def add_mon(self):
if self.state.shmem_iova:
iomon.add(self.state.shmem_iova, 32768,
name=f"{self.name}.shmem@{self.state.shmem_iova:08x}", offset=0)
Init = msg_log(0x80, DIR.TX)
Init_Ack = msg_log(0xa0, DIR.RX)
GetBuf = msg_log(0x89, DIR.RX)
Shutdown = msg_log(0xc0, DIR.TX)
Shutdown_Ack = msg_log(0xc1, DIR.RX)
@msg(0xa1, DIR.TX, AFKEP_GetBuf_Ack)
def GetBuf_Ack(self, msg):
self.state.shmem_iova = msg.DVA
self.txbuf = None
self.rxbuf = None
self.state.txbuf = EPState()
self.state.rxbuf = EPState()
self.state.txbuf_info = None
self.state.rxbuf_info = None
#self.add_mon()
@msg(0xa2, DIR.TX, AFKEP_Send)
def Send(self, msg):
self.log(f">TX msg:{msg}")
for data in self.txbuf.read():
if self.state.verbose >= 3:
self.log(f">TX rptr={self.txbuf.state.rptr:#x}")
chexdump(data, print_fn=self.log)
self.handle_ipc(data, dir=">")
return True
Hello = msg_log(0xa3, DIR.TX)
@msg(0x85, DIR.RX, AFKEPMessage)
def Recv(self, msg):
self.log(f"<RX msg:{msg}")
for data in self.rxbuf.read():
if self.state.verbose >= 3:
self.log(f"<RX rptr={self.rxbuf.state.rptr:#x}")
chexdump(data, print_fn=self.log)
self.handle_ipc(data, dir="<")
return True
def handle_ipc(self, data, dir=None):
pass
@msg(0x8a, DIR.RX, AFKEP_InitRB)
def InitTX(self, msg):
off = msg.OFFSET * AFKRingBuf.BLOCK_SIZE
size = msg.SIZE * AFKRingBuf.BLOCK_SIZE
self.state.txbuf_info = (off, size)
self.create_bufs()
@msg(0x8b, DIR.RX, AFKEP_InitRB)
def InitRX(self, msg):
off = msg.OFFSET * AFKRingBuf.BLOCK_SIZE
size = msg.SIZE * AFKRingBuf.BLOCK_SIZE
self.state.rxbuf_info = (off, size)
self.create_bufs()
class SilentEp(AFKEp):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.state.verbose = 0
def log(self, msg):
pass
def epic_service_cmd(group, cmd):
def f(x):
x.is_cmd = True
x.group = group
x.cmd = cmd
return x
return f
def epic_service_reply(group, cmd):
def f(x):
x.is_reply = True
x.group = group
x.cmd = cmd
return x
return f
def epic_service_notify(group, cmd):
def f(x):
x.is_notify = True
x.group = group
x.cmd = cmd
return x
return f
def epic_service_notify_ack(group, cmd):
def f(x):
x.is_notify_ack = True
x.group = group
x.cmd = cmd
return x
return f
class EPICServiceTracer(Reloadable):
def __init__(self, tracer, ep, key):
self.tracer = tracer
self.ep = ep
self.key = key
self.cmdmap = {}
self.replymap = {}
self.notifymap = {}
self.notifyackmap = {}
for name in dir(self):
i = getattr(self, name)
if not callable(i):
continue
if getattr(i, "is_cmd", False):
self.cmdmap[i.group, i.cmd] = getattr(self, name)
if getattr(i, "is_reply", False):
self.replymap[i.group, i.cmd] = getattr(self, name)
if getattr(i, "is_notify", False):
self.notifymap[i.group, i.cmd] = getattr(self, name)
if getattr(i, "is_notify_ack", False):
self.notifyackmap[i.group, i.cmd] = getattr(self, name)
def log(self, msg):
self.ep.log(f"[{self.key}] {msg}")
def init(self, props):
pass
def handle_cmd(self, sgroup, scmd, sdata):
cmdfn = self.cmdmap.get((sgroup, scmd), None)
if cmdfn:
cmdfn(sdata)
else:
self.log(f"> unknown group {sgroup}; command {scmd}")
if sdata:
chexdump(sdata, print_fn=self.log)
def handle_reply(self, sgroup, scmd, sdata):
replyfn = self.replymap.get((sgroup, scmd), None)
if replyfn:
replyfn(sdata)
else:
self.log(f"< unknown group {sgroup}; command {scmd}")
if sdata:
chexdump(sdata, print_fn=self.log)
def handle_notify(self, sgroup, scmd, sdata):
notifyfn = self.notifymap.get((sgroup, scmd), None)
if notifyfn:
notifyfn(sdata)
else:
self.log(f"< unknown group {sgroup}; command {scmd}")
if sdata:
chexdump(sdata, print_fn=self.log)
def handle_notify_ack(self, sgroup, scmd, sdata):
notifyackfn = self.notifyackmap.get((sgroup, scmd), None)
if notifyackfn:
notifyackfn(sdata)
else:
self.log(f"< unknown group {sgroup}; command {scmd}")
if sdata:
chexdump(sdata, print_fn=self.log)
@epic_service_cmd(4, 4)
def getLocation(self, data):
self.log("> getLocation")
@epic_service_reply(4, 4)
def getLocation_reply(self, data):
self.log("< getLocation")
@epic_service_cmd(4, 5)
def getUnit(self, data):
self.log("> getUnit")
@epic_service_reply(4, 5)
def getUnit_reply(self, data):
self.log("< getUnit")
@epic_service_cmd(4, 6)
def open(self, data):
self.log("> open")
@epic_service_reply(4, 6)
def open_reply(self, data):
self.log("< open")
@epic_service_cmd(4, 7)
def close(self, data):
self.log("> close")
@epic_service_reply(4, 7)
def close_reply(self, data):
self.log("< close")
class EPICEp(AFKEp):
SERVICES = []
def __init__(self, tracer, epid):
super().__init__(tracer, epid)
self.serv_map = {}
self.chan_map = {}
self.serv_names = {}
for i in self.SERVICES:
self.serv_names[i.NAME] = i
def handle_ipc(self, data, dir=None):
fd = BytesIO(data)
hdr = EPICHeader.parse_stream(fd)
sub = EPICSubHeader.parse_stream(fd)
self.log(f"{dir}Ch {hdr.channel} Type {hdr.type} Ver {hdr.version} Tag {hdr.seq}")
self.log(f" Len {sub.length} Ver {sub.version} Cat {sub.category} Type {sub.type:#x} Seq {sub.seq}")
# chexdump(data, print_fn=self.log)
if sub.category == EPICCategory.REPORT:
self.handle_report(hdr, sub, fd)
elif sub.category == EPICCategory.NOTIFY:
self.handle_notify(hdr, sub, fd)
elif sub.category == EPICCategory.REPLY:
if hdr.type == EPICType.NOTIFY_ACK:
self.handle_notify_ack(hdr, sub, fd)
else:
self.handle_reply(hdr, sub, fd)
elif sub.category == EPICCategory.COMMAND:
self.handle_cmd(hdr, sub, fd)
def handle_report_init(self, hdr, sub, fd):
init = EPICAnnounce.parse_stream(fd)
self.log(f"Init: {init.name}")
self.log(f" Props: {init.props}")
if not init.props:
init.props = {}
name = init.props.get("EPICName", init.name)
key = name + str(init.props.get("EPICUnit", ""))
self.log(f"New service: {key} on channel {hdr.channel}")
srv_cls = self.serv_names.get(name, EPICServiceTracer)
srv = srv_cls(self.tracer, self, key)
srv.init(init.props)
srv.chan = hdr.channel
self.chan_map[hdr.channel] = srv
self.serv_map[key] = srv
def handle_report(self, hdr, sub, fd):
if sub.type == 0x30:
self.handle_report_init(hdr, sub, fd)
else:
self.log(f"Report {sub.type:#x}")
chexdump(fd.read(), print_fn=self.log)
def handle_notify(self, hdr, sub, fd):
self.log(f"Notify:")
data = fd.read()
rgroup, rcmd, rlen, rmagic = struct.unpack("<2xHIII", data[4:20])
if rmagic != 0x69706378:
self.log("Warning: Invalid EPICStandardService notify magic")
srv = self.chan_map.get(hdr.channel, None)
if srv:
srv.handle_notify(rgroup, rcmd, data[4:] if rlen else None)
else:
self.log(f"[???] < group {rgroup} command {rcmd}")
chexdump(data, print_fn=lambda msg: self.log(f"[???] {msg}"))
def handle_notify_ack(self, hdr, sub, fd):
self.log(f"NotifyAck:")
data = fd.read()
rgroup, rcmd, rlen, rmagic = struct.unpack("<2xHIII", data[4:20])
if rmagic != 0x69706378:
self.log("Warning: Invalid EPICStandardService notify magic")
srv = self.chan_map.get(hdr.channel, None)
if srv:
srv.handle_notify_ack(rgroup, rcmd, data[4:] if rlen else None)
else:
self.log(f"[???] > group {rgroup} command {rcmd}")
chexdump(data, print_fn=lambda msg: self.log(f"[???] {msg}"))
def handle_reply(self, hdr, sub, fd):
if sub.inline_len:
payload = fd.read()
self.log("Inline payload:")
chexdump(payload, print_fn=self.log)
else:
off = fd.tell()
data = fd.read()
if len(data) == 4:
retcode = struct.unpack("<I", data)[0]
self.log(f"EPIC: retcode only reply retcode={retcode:#x}")
return
fd.seek(off)
cmd = EPICCmd.parse_stream(fd)
if not cmd.rxbuf:
self.log(f"Response {sub.type:#x}: {cmd.retcode:#x}")
return
data = self.dart.ioread(self.stream, cmd.rxbuf, cmd.rxlen)
if len(data) < 16:
self.log(f"EPIC: short reply, len={len(data)}")
chexdump(data, print_fn=self.log)
return
rgroup, rcmd, rlen, rmagic = struct.unpack("<2xHIII", data[:16])
if rmagic != 0x69706378:
self.log("Warning: Invalid EPICStandardService response magic")
srv = self.chan_map.get(hdr.channel, None)
if srv:
if rgroup == 8 and rcmd == 8 and (rlen < 32 or (len(data) - 64) < 32):
self.log(f"hotPlugDetectChangeOccurred: rlen:{rlen} len(data):{len(data)} rxlen:{cmd.rxlen}\ncmd:{cmd}")
chexdump(data, print_fn=self.log)
srv.handle_reply(rgroup, rcmd, data[64:64+rlen] if rlen else None)
else:
self.log(f"[???] < group {rgroup} command {rcmd}")
chexdump(data[64:64+rlen], print_fn=lambda msg: self.log(f"[???] {msg}"))
def handle_cmd(self, hdr, sub, fd):
cmd = EPICCmd.parse_stream(fd)
payload = fd.read()
if sub.type == 0xc0 and cmd.txbuf:
data = self.dart.ioread(self.stream, cmd.txbuf, cmd.txlen)
if len(data) < 64:
self.log(f"EPIC: short cmd, len={len(data)}")
chexdump(data, print_fn=self.log)
return
sgroup, scmd, slen, sfooter = struct.unpack("<2xHIII48x", data[:64])
sdata = data[64:64+slen] if slen else None
srv = self.chan_map.get(hdr.channel, None)
if srv:
srv.handle_cmd(sgroup, scmd, sdata)
else:
self.log(f"[???] > group {sgroup} command {scmd}")
chexdump(data[64:64+slen], print_fn=lambda msg: self.log(f"[???] {msg}"))
else:
self.log(f"Command {sub.type:#x}: {cmd.retcode:#x}")
if payload:
chexdump(payload, print_fn=self.log)
if cmd.txbuf:
self.log(f"TX buf @ {cmd.txbuf:#x} ({cmd.txlen:#x} bytes):")
chexdump(self.dart.ioread(self.stream, cmd.txbuf, cmd.txlen), print_fn=self.log)
KNOWN_MSGS = {
"A000": "IOMFB::UPPipeAP_H13P::late_init_signal()",
"A001": "IOMFB::UPPipeAP_H13P::init_ipa(unsigned long long, unsigned long)",
"A002": "IOMFB::UPPipeAP_H13P::alss_supported()",
"A003": "IOMFB::UPPipeAP_H13P::reset_dsc()",
"A004": "IOMFB::UPPipeAP_H13P::display_edr_factor_changed(float)",
"A005": "IOMFB::UPPipeAP_H13P::set_contrast(float)",
"A006": "IOMFB::UPPipeAP_H13P::set_csc_mode(IOMFB_CSCMode)",
"A007": "IOMFB::UPPipeAP_H13P::set_op_mode(IOMFB_CSCMode)",
"A008": "IOMFB::UPPipeAP_H13P::set_op_gamma_mode(IOMFB_TFMode)",
"A009": "IOMFB::UPPipeAP_H13P::set_video_out_mode(IOMFB_Output_Mode)",
"A010": "IOMFB::UPPipeAP_H13P::set_meta_allowed(bool)",
"A011": "IOMFB::UPPipeAP_H13P::set_tunneled_color_mode(bool)",
"A012": "IOMFB::UPPipeAP_H13P::set_bwr_line_time_us(double)",
"A013": "IOMFB::UPPipeAP_H13P::performance_feedback(double)",
"A014": "IOMFB::UPPipeAP_H13P::notify_swap_complete(unsigned int)",
"A015": "IOMFB::UPPipeAP_H13P::is_run_mode_change_pending() const",
"A016": "IOMFB::UPPipeAP_H13P::ready_for_run_mode_change(IOMFB::AppleRegisterStream*)",
"A017": "IOMFB::UPPipeAP_H13P::set_thermal_throttle_cap(unsigned int)",
"A018": "IOMFB::UPPipeAP_H13P::emergency_shutdown_normal_mode(IOMFB::AppleRegisterStream*)",
"A019": "IOMFB::UPPipeAP_H13P::set_target_run_mode(IOMFB::AppleRegisterStream*)",
"A020": "IOMFB::UPPipeAP_H13P::rt_bandwidth_setup()",
"A021": "IOMFB::UPPipeAP_H13P::rt_bandwidth_update(IOMFB::AppleRegisterStream*, float, float, bool, bool)",
"A022": "IOMFB::UPPipeAP_H13P::rt_bandwidth_update_downgrade(IOMFB::AppleRegisterStream*)",
"A023": "IOMFB::UPPipeAP_H13P::rt_bandwidth_write_update(IOMFB::AppleRegisterStream*, RealtimeBandwithWritebackBlock, bool)",
"A024": "IOMFB::UPPipeAP_H13P::cif_blending_eco_present()",
"A025": "IOMFB::UPPipeAP_H13P::request_bic_update()",
"A026": "IOMFB::UPPipeAP_H13P::early_power_off_warning(IOMFB::AppleRegisterStream*)",
"A027": "IOMFB::UPPipeAP_H13P::get_max_frame_size(unsigned int*, unsigned int*)",
"A028": "IOMFB::UPPipeAP_H13P::shadow_FIFO_empty(IOMFB::AppleRegisterStream*) const",
"A029": "IOMFB::UPPipeAP_H13P::setup_video_limits()",
"A030": "IOMFB::UPPipeAP_H13P::can_program_swap() const",
"A031": "IOMFB::UPPipeAP_H13P::in_auto_mode() const",
"A032": "IOMFB::UPPipeAP_H13P::push_black_frame(IOMFB::AppleRegisterStream*)",
"A033": "IOMFB::UPPipeAP_H13P::read_crc(Notify_Info_Index, unsigned int)",
"A034": "IOMFB::UPPipeAP_H13P::update_notify_clients_dcp(unsigned int const*)",
"A035": "IOMFB::UPPipeAP_H13P::is_hilo() const",
"A036": "IOMFB::UPPipeAP_H13P::apt_supported() const",
"A037": "IOMFB::UPPipeAP_H13P::get_dfb_info(unsigned int*, unsigned long long*, unsigned int*)",
"A038": "IOMFB::UPPipeAP_H13P::get_dfb_compression_info(unsigned int*)",
"A039": "IOMFB::UPPipeAP_H13P::get_frame_done_time() const",
"A040": "IOMFB::UPPipeAP_H13P::get_performance_headroom() const",
"A041": "IOMFB::UPPipeAP_H13P::are_stats_active() const",
"A042": "IOMFB::UPPipeAP_H13P::supports_odd_h_blanking() const",
"A043": "IOMFB::UPPipeAP_H13P::is_first_hw_version() const",
"A044": "IOMFB::UPPipeAP_H13P::set_blendout_CSC_mode()",
"A100": "IOMFB::UPPipe2::get_gamma_table_gated(IOMFBGammaTable*)",
"A101": "IOMFB::UPPipe2::set_gamma_table_gated(IOMFBGammaTable const*)",
"A102": "IOMFB::UPPipe2::test_control(IOMFB_TC_Cmd, unsigned int)",
"A103": "IOMFB::UPPipe2::get_config_frame_size(unsigned int*, unsigned int*) const",
"A104": "IOMFB::UPPipe2::set_config_frame_size(unsigned int, unsigned int) const",
"A105": "IOMFB::UPPipe2::program_config_frame_size() const",
"A106": "IOMFB::UPPipe2::read_blend_crc() const",
"A107": "IOMFB::UPPipe2::read_config_crc() const",
"A108": "IOMFB::UPPipe2::disable_wpc_calibration(bool)",
"A109": "IOMFB::UPPipe2::vftg_is_running(IOMFB::AppleRegisterStream*) const",
"A110": "IOMFB::UPPipe2::vftg_debug(IOMFB::AppleRegisterStream*, unsigned int) const",
"A111": "IOMFB::UPPipe2::vftg_set_color_channels(unsigned int, unsigned int, unsigned int)",
"A112": "IOMFB::UPPipe2::set_color_filter_scale(int)",
"A113": "IOMFB::UPPipe2::set_corner_temps(int const*)",
"A114": "IOMFB::UPPipe2::reset_aot_enabled() const",
"A115": "IOMFB::UPPipe2::aot_enabled() const",
"A116": "IOMFB::UPPipe2::aot_active() const",
"A117": "IOMFB::UPPipe2::set_timings_enabled(IOMFB::AppleRegisterStream*, bool)",
"A118": "IOMFB::UPPipe2::get_frame_size(IOMFB::AppleRegisterStream*, unsigned int*, unsigned int*)",
"A119": "IOMFB::UPPipe2::set_block(unsigned long long, unsigned int, unsigned int, unsigned long long const*, unsigned int, unsigned char const*, unsigned long, bool)",
"A121": "IOMFB::UPPipe2::get_buf_block(unsigned long long, unsigned int, unsigned int, unsigned long long const*, unsigned int, unsigned char const*, unsigned long, bool)",
"A122": "IOMFB::UPPipe2::get_matrix(IOMFB_MatrixLocation, IOMFBColorFixedMatrix*) const",
"A123": "IOMFB::UPPipe2::set_matrix(IOMFB_MatrixLocation, IOMFBColorFixedMatrix const*)",
"A124": "IOMFB::UPPipe2::get_internal_timing_attributes_gated(IOMFB::RefreshTimingAttributes*) const",
"A125": "IOMFB::UPPipe2::display_edr_factor_changed(float)",
"A126": "IOMFB::UPPipe2::set_contrast(float)",
"A127": "IOMFB::UPPipe2::p3_to_disp_cs(float const*, float const (*) [2])",
"A128": "IOMFB::UPPipe2::max_panel_brightness() const",
"A129": "IOMFB::UPPipe2::swap_flush_stream_replay(IOMFB::AppleRegisterStream*)",
"A130": "IOMFB::UPPipe2::init_ca_pmu()",
"A131": "IOMFB::UPPipe2::pmu_service_matched()",
"A132": "IOMFB::UPPipe2::backlight_service_matched()",
"A200": "IOMFB::PropRelay::setBool(IOMFB::RuntimeProperty, bool)",
"A201": "IOMFB::PropRelay::setInt(IOMFB::RuntimeProperty, unsigned int)",
"A202": "IOMFB::PropRelay::setFx(IOMFB::RuntimeProperty, int)",
"A203": "IOMFB::PropRelay::setPropDynamic(IOMFB::RuntimeProperty, unsigned int)",
"A204": "IOMFB::PropRelay::getBool(IOMFB::RuntimeProperty)",
"A205": "IOMFB::PropRelay::getInt(IOMFB::RuntimeProperty)",
"A206": "IOMFB::PropRelay::getFx(IOMFB::RuntimeProperty)",
"A350": "UnifiedPipeline2::displayHeight()",
"A351": "UnifiedPipeline2::displayWidth()",
"A352": "UnifiedPipeline2::applyProperty(unsigned int, unsigned int)",
"A353": "UnifiedPipeline2::get_system_type() const",
"A354": "UnifiedPipeline2::headless() const",
"A355": "UnifiedPipeline2::export_idle_method(unsigned int)",
"A357": "UnifiedPipeline2::set_create_DFB()",
"A358": "UnifiedPipeline2::vi_set_temperature_hint()",
"A400": "IOMobileFramebufferAP::free_signal()",
"A401": "IOMobileFramebufferAP::start_signal()",
"A402": "IOMobileFramebufferAP::stop_signal()",
"A403": "IOMobileFramebufferAP::systemWillShutdown()",
"A404": "IOMobileFramebufferAP::swap_begin()",
"A405": "IOMobileFramebufferAP::rotate_surface(unsigned int, unsigned int, unsigned int)",
"A406": "IOMobileFramebufferAP::get_framebuffer_id()",
"A407": "IOMobileFramebufferAP::swap_start(unsigned int*, IOUserClient*)",
"A408": "IOMobileFramebufferAP::swap_submit_dcp(IOMFBSwapRec const*, IOSurface**, unsigned int const*, bool, double, unsigned int, bool*)",
"A409": "IOMobileFramebufferAP::swap_signal(unsigned int, unsigned int)",
"A410": "IOMobileFramebufferAP::set_display_device(unsigned int)",
"A411": "IOMobileFramebufferAP::is_main_display() const",
"A412": "IOMobileFramebufferAP::set_digital_out_mode(unsigned int, unsigned int)",
"A413": "IOMobileFramebufferAP::get_digital_out_state(unsigned int*)",
"A414": "IOMobileFramebufferAP::get_display_area(DisplayArea*)",
"A415": "IOMobileFramebufferAP::set_tvout_mode(unsigned int)",
"A416": "IOMobileFramebufferAP::set_tvout_signaltype(unsigned int)",
"A417": "IOMobileFramebufferAP::set_wss_info(unsigned int, unsigned int)",
"A418": "IOMobileFramebufferAP::set_content_flags(unsigned int)",
"A419": "IOMobileFramebufferAP::get_gamma_table(IOMFBGammaTable*)",
"A420": "IOMobileFramebufferAP::set_gamma_table(IOMFBGammaTable*)",
"A421": "IOMobileFramebufferAP::get_matrix(unsigned int, unsigned long long (*) [3][3]) const",
"A422": "IOMobileFramebufferAP::set_matrix(unsigned int, unsigned long long const (*) [3][3])",
"A423": "IOMobileFramebufferAP::set_contrast(float*)",
"A424": "IOMobileFramebufferAP::set_white_on_black_mode(unsigned int)",
"A425": "IOMobileFramebufferAP::set_color_remap_mode(DisplayColorRemapMode)",
"A426": "IOMobileFramebufferAP::get_color_remap_mode(DisplayColorRemapMode*) const",
"A427": "IOMobileFramebufferAP::setBrightnessCorrection(unsigned int)",
"A428": "IOMobileFramebufferAP::temp_queue_swap_cancel(unsigned int)",
"A429": "IOMobileFramebufferAP::swap_cancel(unsigned int)",
"A430": "IOMobileFramebufferAP::swap_cancel_all_dcp(unsigned long long)",
"A431": "IOMobileFramebufferAP::surface_is_replaceable(unsigned int, bool*)",
"A432": "IOMobileFramebufferAP::kernel_tests(IOMFBKernelTestsArguments*)",
"A433": "IOMobileFramebufferAP::splc_set_brightness(unsigned int)",
"A434": "IOMobileFramebufferAP::splc_get_brightness(unsigned int*)",
"A435": "IOMobileFramebufferAP::set_block_dcp(task*, unsigned int, unsigned int, unsigned long long const*, unsigned int, unsigned char const*, unsigned long)",
"A436": "IOMobileFramebufferAP::get_block_dcp(task*, unsigned int, unsigned int, unsigned long long const*, unsigned int, unsigned char*, unsigned long) const",
"A438": "IOMobileFramebufferAP::swap_set_color_matrix(IOMFBColorFixedMatrix*, IOMFBColorMatrixFunction, unsigned int)",
"A439": "IOMobileFramebufferAP::set_parameter_dcp(IOMFBParameterName, unsigned long long const*, unsigned int)",
"A440": "IOMobileFramebufferAP::display_width() const",
"A441": "IOMobileFramebufferAP::display_height() const",
"A442": "IOMobileFramebufferAP::get_display_size(unsigned int*, unsigned int*) const",
"A443": "IOMobileFramebufferAP::do_create_default_frame_buffer() const",
"A444": "IOMobileFramebufferAP::printRegs()",
"A445": "IOMobileFramebufferAP::enable_disable_dithering(unsigned int)",
"A446": "IOMobileFramebufferAP::set_underrun_color(unsigned int)",
"A447": "IOMobileFramebufferAP::enable_disable_video_power_savings(unsigned int)",
"A448": "IOMobileFramebufferAP::set_video_dac_gain(unsigned int)",
"A449": "IOMobileFramebufferAP::set_line21_data(unsigned int)",
"A450": "IOMobileFramebufferAP::enableInternalToExternalMirroring(bool)",
"A451": "IOMobileFramebufferAP::getExternalMirroringCapability(IOMFBMirroringCapability*)",
"A452": "IOMobileFramebufferAP::setRenderingAngle(float*)",
"A453": "IOMobileFramebufferAP::setOverscanSafeRegion(IOMFBOverscanSafeRect*)",
"A454": "IOMobileFramebufferAP::first_client_open()",
"A455": "IOMobileFramebufferAP::last_client_close_dcp(unsigned int*)",
"A456": "IOMobileFramebufferAP::writeDebugInfo(unsigned long)",
"A457": "IOMobileFramebufferAP::flush_debug_flags(unsigned int)",
"A458": "IOMobileFramebufferAP::io_fence_notify(unsigned int, unsigned int, unsigned long long, IOMFBStatus)",
"A459": "IOMobileFramebufferAP::swap_wait_dcp(bool, unsigned int, unsigned int, unsigned int)",
"A460": "IOMobileFramebufferAP::setDisplayRefreshProperties()",
"A461": "IOMobileFramebufferAP::exportProperty(unsigned int, unsigned int)",
"A462": "IOMobileFramebufferAP::applyProperty(unsigned int, unsigned int)",
"A463": "IOMobileFramebufferAP::flush_supportsPower(bool)",
"A464": "IOMobileFramebufferAP::abort_swaps_dcp(IOMobileFramebufferUserClient*)",
"A465": "IOMobileFramebufferAP::swap_signal_gated(unsigned int, unsigned int)",
"A466": "IOMobileFramebufferAP::update_dfb(IOSurface*, unsigned int, unsigned int, unsigned long long)",
"A467": "IOMobileFramebufferAP::update_dfb(IOSurface*)",
"A468": "IOMobileFramebufferAP::setPowerState(unsigned long, bool, unsigned int*)",
"A469": "IOMobileFramebufferAP::isKeepOnScreen() const",
"A470": "IOMobileFramebufferAP::resetStats()",
"A471": "IOMobileFramebufferAP::set_has_frame_swap_function(bool)",
"A472": "IOMobileFramebufferAP::getPerformanceStats(unsigned int*, unsigned int*)",
"D000": "bool IOMFB::UPPipeAP_H13P::did_boot_signal()",
"D001": "bool IOMFB::UPPipeAP_H13P::did_power_on_signal()",
"D002": "void IOMFB::UPPipeAP_H13P::will_power_off_signal()",
"D003": "void IOMFB::UPPipeAP_H13P::rt_bandwidth_setup_ap(inout rt_bw_config_t*)",
"D004": "void IOMFB::UPPipeAP_H13P::mcc_report_replay(bool, unsigned int)",
"D005": "void IOMFB::UPPipeAP_H13P::mcc_report_bics(bool, unsigned int)",
"D100": "void UnifiedPipeline2::match_pmu_service()",
#"D101": "", # get some uint32_t, inlined
"D102": "void UnifiedPipeline2::set_number_property(char const*, unsigned int)",
"D103": "void UnifiedPipeline2::set_boolean_property(char const*, bool)",
"D104": "void UnifiedPipeline2::set_string_property(char const*, char const*)",
"D105": "IOReturn IOService::acknowledgeSetPowerState()",
"D106": "void IORegistryEntry::removeProperty(char const*)",
"D107": "bool UnifiedPipeline2::create_provider_service",
"D108": "bool UnifiedPipeline2::create_product_service()",
"D109": "bool UnifiedPipeline2::create_PMU_service()",
"D110": "bool UnifiedPipeline2::create_iomfb_service()",
"D111": "bool UnifiedPipeline2::create_backlight_service()",
"D112": "void UnifiedPipeline2::set_idle_caching_state_ap(IdleCachingState, unsigned int)",
"D113": "bool UnifiedPipeline2::upload_trace_start(IOMFB::FrameInfoBuffer::FrameInfoConstants const*)",
"D114": "bool UnifiedPipeline2::upload_trace_chunk(IOMFB::FrameInfoBuffer::FrameInfoData const*, unsigned int, unsigned int)",
"D115": "bool UnifiedPipeline2::upload_trace_end(char const*)",
"D116": "bool UnifiedPipeline2::start_hardware_boot()",
"D117": "bool UnifiedPipeline2::is_dark_boot()",
"D118": "bool UnifiedPipeline2::is_waking_from_hibernate()",
"D119": "bool UnifiedPipeline2::detect_fastsim()",
"D120": "bool UnifiedPipeline2::read_edt_data(char const*, unsigned int, unsigned int*) const",
"D121": "bool UnifiedPipeline2::read_edt_string(char const*, char*, unsigned int*) const",
"D122": "bool UnifiedPipeline2::setDCPAVPropStart(unsigned int)",
"D123": "bool UnifiedPipeline2::setDCPAVPropChunk(unsigned char const*, unsigned int, unsigned int)",
"D124": "bool UnifiedPipeline2::setDCPAVPropEnd(char const*)",
"D200": "uint64_t IOMFB::UPPipe2::get_default_idle_caching_method()",
"D201": "IOMFBStatus IOMFB::UPPipe2::map_buf(IOMFB::BufferDescriptor*, unsigned long*, unsigned long long*, bool)",
"D202": "void IOMFB::UPPipe2::unmap_buf(IOMFB::BufferDescriptor*, unsigned long, unsigned long long, bool)",
"D203": "bool IOMFB::UPPipe2::aot_supported_peek()",
"D204": "uint64_t IOMFB::UPPipe2::get_ideal_screen_space()",
"D205": "bool IOMFB::UPPipe2::read_carveout(unsigned char*, unsigned int, unsigned int) const",
"D206": "bool IOMFB::UPPipe2::match_pmu_service()",
"D207": "bool IOMFB::UPPipe2::match_backlight_service()",
"D208": "uint64_ IOMFB::UPPipe2::get_calendar_time_ms()",
"D209": "void IOMFB::UPPipe2::plc_enable(bool)",
"D210": "void IOMFB::UPPipe2::plc_init()",
"D211": "void IOMFB::UPPipe2::update_backlight_factor_prop(int)",
"D300": "void IOMFB::PropRelay::publish(IOMFB::RuntimeProperty, unsigned int)",
"D400": "void IOMFB::ServiceRelay::get_property(unsigned int, in char const[0x40], out unsigned char[0x200], inout unsigned int*)",
"D401": "bool IOMFB::ServiceRelay::get_uint_prop(unsigned int, in char const[0x40], inout unsigned long long*)",
"D402": "void IOMFB::ServiceRelay::set_uint_prop(unsigned int, in char const[0x40], unsigned long long)",
"D403": "bool IOMFB::ServiceRelay::get_uint_prop(unsigned int, in char const[0x40], inout unsigned int*)",
"D404": "void IOMFB::ServiceRelay::set_uint_prop(unsigned int, in char const[0x40], unsigned int)",
"D405": "bool IOMFB::ServiceRelay::get_fx_prop(unsigned int, in char const[0x40], inout int*)",
"D406": "void IOMFB::ServiceRelay::set_fx_prop(unsigned int, in char const[0x40], int)",
"D407": "void IOMFB::ServiceRelay::set_bool_prop(unsigned int, in char const[0x40], bool)",
"D408": "unsigned long long IOMFB::ServiceRelay::getClockFrequency(unsigned int, unsigned int)",
"D409": "IOMFBStatus IOMFB::ServiceRelay::enableDeviceClock(unsigned int, unsigned int, unsigned int)",
"D410": "IOMFBStatus IOMFB::ServiceRelay::enableDevicePower(unsigned int, unsigned int, inout unsigned int*, unsigned int)",
"D411": "IOMFBStatus IOMFB::ServiceRelay::mapDeviceMemoryWithIndex(unsigned int, unsigned int, unsigned int, inout unsigned long*, inout unsigned long long*)",
"D412": "bool IOMFB::ServiceRelay::setProperty(unsigned int, OSString<0x40> const*, OSArray const*)",
"D413": "bool IOMFB::ServiceRelay::setProperty(unsigned int, OSString<0x40> const*, OSDictionary const*)",
"D414": "bool IOMFB::ServiceRelay::setProperty(unsigned int, OSString<0x40> const*, OSNumber const*)",
"D415": "bool IOMFB::ServiceRelay::setProperty(unsigned int, OSString<0x40> const*, OSBoolean const*)",
"D416": "bool IOMFB::ServiceRelay::setProperty(unsigned int, OSString<0x40> const*, OSString const*)",
"D417": "bool IOMFB::ServiceRelay::setProperty(unsigned int, char const[0x40], OSArray const*)",
"D418": "bool IOMFB::ServiceRelay::setProperty(unsigned int, char const[0x40], OSDictionary const*)",
"D419": "bool IOMFB::ServiceRelay::setProperty(unsigned int, char const[0x40], OSNumber const*)",
"D420": "bool IOMFB::ServiceRelay::setProperty(unsigned int, char const[0x40], OSBoolean const*)",
"D421": "bool IOMFB::ServiceRelay::setProperty(unsigned int, char const[0x40], OSString const*)",
"D422": "bool IOMFB::ServiceRelay::setProperty(unsigned int, char const[0x40], bool)",
"D423": "void IOMFB::ServiceRelay::removeProperty(unsigned int, char const[0x40])",
"D424": "void IOMFB::ServiceRelay::removeProperty(unsigned int, OSString<0x40> const*)",
"D450": "bool IOMFB::MemDescRelay::from_id(unsigned int, unsigned long*, unsigned long*, unsigned long long*)",
"D451": "MemDescRelay::desc_id_t IOMFB::MemDescRelay::allocate_buffer(unsigned int, unsigned long long, unsigned int, unsigned long*, unsigned long*, unsigned long long*)",
"D452": "MemDescRelay::desc_id_t IOMFB::MemDescRelay::map_physical(unsigned long long, unsigned long long, unsigned int, unsigned long*, unsigned long long*)",
"D453": "MemDescRelay::desc_id_t IOMFB::MemDescRelay::withAddressRange(unsigned long long, unsigned long long, unsigned int, task*, unsigned long*, unsigned long long*)",
"D454": "IOMFBStatus IOMFB::MemDescRelay::prepare(unsigned int, unsigned int)",
"D455": "IOMFBStatus IOMFB::MemDescRelay::complete(unsigned int, unsigned int)",
"D456": "bool IOMFB::MemDescRelay::release_descriptor(unsigned int)",
"D500": "IOMFBStatus IOMFB::PlatformFunctionRelay::allocate_record(unsigned int, char const*, unsigned int, bool)",
"D501": "IOMFBStatus IOMFB::PlatformFunctionRelay::release_record(unsigned int)",
"D502": "IOMFBStatus IOMFB::PlatformFunctionRelay::callFunctionLink(unsigned int, unsigned long, unsigned long, unsigned long)",
"D550": "bool IORegistryEntry::setProperty(OSString *, OSArray *)",
"D551": "bool IORegistryEntry::setProperty(OSString *, IOMFB::AFKArray *)",
"D552": "bool IORegistryEntry::setProperty(OSString *, OSDictionary *)",
"D553": "bool IORegistryEntry::setProperty(OSString *, IOMFB::AFKDictionary *)",
"D554": "bool IORegistryEntry::setProperty(OSString *, OSNumber *)",
"D555": "bool IORegistryEntry::setProperty(OSString *, IOMFB::AFKNumber *)",
"D556": "bool IORegistryEntry::setProperty(OSString *, OSBoolean *)",
"D557": "bool IORegistryEntry::setProperty(OSString *, OSString *)",
"D558": "bool IORegistryEntry::setProperty(OSString *, IOMFB::AFKString *)",
"D559": "bool IORegistryEntry::setProperty(char const*, OSArray *)",
"D560": "bool IORegistryEntry::setProperty(char const*, IOMFB::AFKArray *)",
"D561": "bool IORegistryEntry::setProperty(char const*, OSDictionary *)",
"D562": "bool IORegistryEntry::setProperty(char const*, IOMFB::AFKDictionary *)",
"D563": "bool IORegistryEntry::setProperty(char const*, OSNumber *)",
"D564": "bool IORegistryEntry::setProperty(char const*, IOMFB::AFKNumber *)",
"D565": "bool IORegistryEntry::setProperty(char const*, OSBoolean *)",
"D566": "bool IORegistryEntry::setProperty(char const*, OSString *)",
"D567": "bool IORegistryEntry::setProperty(char const*, IOMFB::AFKString *)",
"D568": "bool IORegistryEntry::setProperty(char const*, char const*)",
"D569": "bool IORegistryEntry::setProperty(char const*, bool)",
"D570": "IOMFBStatus IOMobileFramebufferAP::setProperties(OSDictionary*)",
"D571": "void IOMobileFramebufferAP::swapping_client_did_start(IOMobileFramebufferUserClient*)",
"D572": "void IOMobileFramebufferAP::swapping_client_will_stop(IOMobileFramebufferUserClient*)",
"D573": "IOMFBStatus IOMobileFramebufferAP::set_canvas_size(unsigned int, unsigned int)",
"D574": "IOMFBStatus IOMobileFramebufferAP::powerUpDART(bool)",
"D575": "IOMFBStatus IOMobileFramebufferAP::get_dot_pitch(unsigned int*)",
"D576": "void IOMobileFramebufferAP::hotPlug_notify_gated(unsigned long long)",
"D577": "void IOMobileFramebufferAP::powerstate_notify(bool, bool)",
"D578": "bool IOMobileFramebufferAP::idle_fence_create(IdleCachingState)",
"D579": "void IOMobileFramebufferAP::idle_fence_complete()",
"D580": "void IOMobileFramebufferAP::idle_surface_release_ap()",
"D581": "void IOMobileFramebufferAP::swap_complete_head_of_line(unsigned int, bool, unsigned int, bool)",
"D582": "bool IOMobileFramebufferAP::create_default_fb_surface(unsigned int, unsigned int)",
"D583": "bool IOMobileFramebufferAP::serializeDebugInfoCb(unsigned long, IOMFB::BufferDescriptor const*, unsigned int)",
"D584": "void IOMobileFramebufferAP::clear_default_surface()",
"D585": "void IOMobileFramebufferAP::swap_notify_gated(unsigned long long, unsigned long long, unsigned long long)",
"D586": "void IOMobileFramebufferAP::swap_info_notify_dispatch(SwapInfoBlob const*)",
"D587": "void IOMFBStatus IOMobileFramebufferAP::updateBufferMappingCount_gated(bool)",
"D588": "void IOMobileFramebufferAP::resize_default_fb_surface_gated()",
"D589": "void IOMobileFramebufferAP::swap_complete_ap_gated(unsigned int, bool, SwapCompleteData const*, SwapInfoBlob const*, unsigned int)",
"D590": "void IOMobileFramebufferAP::batched_swap_complete_ap_gated(unsigned int*, unsigned int, bool, bool const*, SwapCompleteData const*)",
"D591": "void IOMobileFramebufferAP::swap_complete_intent_gated(unsigned int, bool, IOMFBSwapRequestIntent, unsigned int, unsigned int)",
"D592": "void IOMobileFramebufferAP::abort_swap_ap_gated(unsigned int)",
"D593": "void IOMobileFramebufferAP::enable_backlight_message_ap_gated(bool)",
"D594": "void IOMobileFramebufferAP::setSystemConsoleMode(bool)",
"D595": "void IOMobileFramebufferAP::setSystemConsoleMode_gated(bool)",
"D596": "bool IOMobileFramebufferAP::isDFBAllocated()",
"D597": "bool IOMobileFramebufferAP::preserveContents()",
"D598": "void IOMobileFramebufferAP::find_swap_function_gated()",
"D700": "int IOMFB::DCPPowerManager::set_kernel_power_assert(bool, bool)",
}
# iboot interface
"""
0: setResource
1: setSurface
2: setPower
3: getHpdStatus
4: getTimingModes
5: getColorModes
6: setMode
7: setBrightness
8: rwBCONRegsRequest
9: setParameter
10: setMatrix
11: setProperty
12: getProperty
13: setBlock
14: getBlock
15: swapBegin
16: setSwapLayer
17: setSwapTimestamp
18: setSwapEnd
19: setSwapWait
20: setBrightnessCfg
21: setNamedProperty
22: getNamedProperty
"""
from m1n1.fw.dcp.dcpep import DCPMessage, DCPEp_SetShmem, CallContext, DCPEp_Msg
class DCPCallState:
pass
class DCPCallChannel(Reloadable):
def __init__(self, dcpep, name, buf, bufsize):
self.dcpep = dcpep
self.name = name
self.buf = buf
self.bufsize = bufsize
self.log = self.dcpep.log
self.state = self.dcpep.state
def call(self, msg, dir):
ident = f"{self.name}.{msg.OFF:x}"
if any(msg.OFF == s.off for s in self.state.ch.get(self.name, [])):
self.log(f"{dir}{self.name}.{msg.OFF:x} !!! Overlapping call ({msg})")
assert False
state = DCPCallState()
data = self.dcpep.dart.ioread(self.dcpep.stream, self.state.shmem_iova + self.buf + msg.OFF, msg.LEN)
tag = data[:4][::-1].decode("ascii")
in_len, out_len = struct.unpack("<II", data[4:12])
data_in = data[12:12 + in_len]
state.off = msg.OFF
state.tag = tag
state.in_len = in_len
state.out_addr = self.buf + msg.OFF + 12 + in_len
state.out_len = out_len
verb = self.dcpep.get_verbosity(tag)
if verb >= 1:
self.log(f"{dir}{self.name}.{msg.OFF:x} {tag}:{KNOWN_MSGS.get(tag, 'unk')} ({msg})")
if verb >= 2:
print(f"Message: {tag} ({KNOWN_MSGS.get(tag, 'unk')}): (in {in_len:#x}, out {out_len:#x})")
if data_in:
print(f"{dir} Input ({len(data_in):#x} bytes):")
chexdump(data_in[:self.state.max_len])
#if tag not in KNOWN_MSGS:
#hv.run_shell()
if self.state.dumpfile:
dump = f"CALL {dir} {msg.value:#018x} {self.name} {state.off:#x} {state.tag} {in_len:#x} {out_len:#x} {data_in.hex()}\n"
self.state.dumpfile.write(dump)
self.state.dumpfile.flush()
self.state.ch.setdefault(self.name, []).append(state)
def ack(self, msg, dir):
assert msg.LEN == 0
states = self.state.ch.get(self.name, None)
if not states:
self.log(f"{dir}ACK {self.name}.{msg.OFF:x} !!! ACK without call ({msg})")
return
state = states[-1]
if self.state.show_acks:
self.log(f"{dir}ACK {self.name}.{msg.OFF:x} ({msg})")
data_out = self.dcpep.dart.ioread(self.dcpep.stream, self.state.shmem_iova + state.out_addr, state.out_len)
verb = self.dcpep.get_verbosity(state.tag)
if verb >= 3 and state.out_len > 0:
print(f"{dir}{self.name}.{msg.OFF:x} Output buffer ({len(data_out):#x} bytes):")
chexdump(data_out[:self.state.max_len])
if self.state.dumpfile:
dump = f"ACK {dir} {msg.value:#018x} {self.name} {state.off:#x} {data_out.hex()}\n"
self.state.dumpfile.write(dump)
self.state.dumpfile.flush()
states.pop()
class DCPEp(EP):
BASE_MESSAGE = DCPMessage
def __init__(self, tracer, epid):
super().__init__(tracer, epid)
self.state.shmem_iova = None
self.state.show_globals = True
self.state.show_acks = True
self.state.max_len = 1024 * 1024
self.state.verbosity = 3
self.state.op_verb = {}
self.state.ch = {}
self.state.dumpfile = None
self.ch_cmd = DCPCallChannel(self, "CMD", 0x00000, 0x8000)
self.ch_oobcmd = DCPCallChannel(self, "OOBCMD", 0x08000, 0x8000)
self.ch_async = DCPCallChannel(self, "ASYNC", 0x40000, 0x8000)
self.ch_oobasync = DCPCallChannel(self, "OOBASYNC", 0x48000, 0x8000)
self.ch_cb = DCPCallChannel(self, "CB", 0x60000, 0x8000)
self.ch_oobcb = DCPCallChannel(self, "OOBCB", 0x68000, 0x8000)
self.cmd_ch = {
CallContext.CB: self.ch_cmd,
CallContext.CMD: self.ch_cmd,
CallContext.ASYNC: None, # unknown
CallContext.OOBASYNC: None, # unknown
CallContext.OOBCB: self.ch_oobcmd,
CallContext.OOBCMD: self.ch_oobcmd,
}
self.cb_ch = {
CallContext.CB: self.ch_cb,
CallContext.CMD: None,
CallContext.ASYNC: self.ch_async,
CallContext.OOBASYNC: self.ch_oobasync,
CallContext.OOBCB: self.ch_oobcb,
CallContext.OOBCMD: None,
}
def start(self):
self.add_mon()
def add_mon(self):
if self.state.shmem_iova and self.state.show_globals:
addr = self.state.shmem_iova + 0x80000
iomon.add(addr, 128,
name=f"{self.name}.shmem@{addr:08x}", offset=addr)
#addr = self.state.shmem_iova
#iomon.add(addr, 0x80080,
#name=f"{self.name}.shmem@{addr:08x}", offset=addr)
InitComplete = msg_log(1, DIR.RX)
@msg(0, DIR.TX, DCPEp_SetShmem)
def SetShmem(self, msg):
self.log(f"Shared memory DVA: {msg.DVA:#x}")
self.state.shmem_iova = msg.DVA & 0xfffffffff
self.add_mon()
@msg(2, DIR.TX, DCPEp_Msg)
def Tx(self, msg):
if msg.ACK:
self.cb_ch[msg.CTX].ack(msg, ">")
else:
self.cmd_ch[msg.CTX].call(msg, ">")
if self.state.show_globals:
iomon.poll()
return True
@msg(2, DIR.RX, DCPEp_Msg)
def Rx(self, msg):
self.log(msg)
if msg.ACK:
self.cmd_ch[msg.CTX].ack(msg, "<")
else:
self.cb_ch[msg.CTX].call(msg, "<")
if self.state.show_globals:
iomon.poll()
return True
def get_verbosity(self, tag):
return self.state.op_verb.get(tag, self.state.verbosity)
def set_verb_known(self, verb):
for i in KNOWN_MSGS:
if verb is None:
self.state.op_verb.pop(i, None)
else:
self.state.op_verb[i] = verb
class SystemService(EPICEp):
NAME = "system"
class TestService(EPICEp):
NAME = "test"
class DCPExpertService(EPICEp):
NAME = "dcpexpert"
class Disp0Service(EPICEp):
NAME = "disp0"
class DCPAVControllerEpicTracer(EPICServiceTracer):
NAME = "dcpav-controller-epic"
@epic_service_cmd(0, 14)
def getParticipatesPowerManagement(self, data):
self.log("> getParticipatesPowerManagement")
@epic_service_reply(0, 14)
def getParticipatesPowerManagement_reply(self, data):
self.log("< getParticipatesPowerManagement")
chexdump(data, print_fn=self.log)
class DPAVController(EPICEp):
NAME = "dpavctrl"
SERVICES = [
DCPAVControllerEpicTracer
]
class DPSACService(EPICEp):
NAME = "dpsac"
class DCPDPDeviceEpicTracer(EPICServiceTracer):
NAME = "dcpdp-device-epic"
@epic_service_cmd(0, 15)
def getDeviceMatchingData(self, data):
self.log("> getDeviceMatchingData")
@epic_service_reply(0, 15)
def getDeviceMatchingData_reply(self, data):
self.log("< getDeviceMatchingData")
chexdump(data, print_fn=self.log)
class DPDevService(EPICEp):
NAME = "dpdev"
SERVICES = [
DCPDPDeviceEpicTracer
]
class DPAVService(EPICEp):
NAME = "dpavserv"
class DCPAVAudioInterfaceEpicTracer(EPICServiceTracer):
NAME = "dcpav-audio-interface-epic"
# usually 4, 6 but apparently also 0, 6 here?
# or maybe a different open?
@epic_service_cmd(0, 6)
def open2(self, data):
self.log("> open")
@epic_service_reply(0, 6)
def open2_reply(self, data):
self.log("< open")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 8)
def prepareLink(self, data):
self.log("> prepareLink")
@epic_service_reply(0, 8)
def prepareLink_reply(self, data):
self.log("< prepareLink")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 9)
def startLink(self, data):
self.log("> startLink")
@epic_service_reply(0, 9)
def startLink_reply(self, data):
self.log("< startLink")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 15)
def getLinkStatus(self, data):
self.log("> getLinkStatus")
@epic_service_reply(0, 15)
def getLinkStatus_reply(self, data):
self.log("< getLinkStatus")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 16)
def getTransport(self, data):
self.log("> getTransport")
@epic_service_reply(0, 16)
def getTransport_reply(self, data):
self.log("< getTransport")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 17)
def getPortID(self, data):
self.log("> getPortID")
@epic_service_reply(0, 17)
def getPortID_reply(self, data):
self.log("< getPortID")
chexdump(data, print_fn=self.log)
@epic_service_cmd(1, 18)
def getElements(self, data):
self.log("> getElements")
@epic_service_reply(1, 18)
def getElements_reply(self, data):
self.log("< getElements")
chexdump(data, print_fn=self.log)
@epic_service_cmd(1, 20)
def getProductAttributes(self, data):
self.log("> getProductAttributes")
@epic_service_reply(1, 20)
def getProductAttributes_reply(self, data):
self.log("< getProductAttributes")
chexdump(data, print_fn=self.log)
@epic_service_cmd(1, 21)
def getEDIDUUID(self, data):
self.log("> getEDIDUUID")
@epic_service_reply(1, 21)
def getEDIDUUID_reply(self, data):
self.log("< getEDIDUUID")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 22)
def getDataLatency(self, data):
self.log("> getDataLatency")
@epic_service_reply(0, 22)
def getDataLatency_reply(self, data):
self.log("< getDataLatency")
chexdump(data, print_fn=self.log)
class AVService(EPICEp):
NAME = "av"
SERVICES = [
DCPAVAudioInterfaceEpicTracer
]
class DCPDPTXHDCPAuthSessionTracer(EPICServiceTracer):
NAME = "dcpdptx-hdcp-auth-session"
@epic_service_cmd(4, 8)
def getProtocol(self, data):
self.log("> getProtocol")
@epic_service_reply(4, 8)
def getProtocol_reply(self, data):
self.log("< getProtocol")
chexdump(data, print_fn=self.log)
class HDCPService(EPICEp):
NAME = "hdcp"
SERVICES = [
DCPDPTXHDCPAuthSessionTracer
]
class RemoteAllocService(EPICEp):
NAME = "remotealloc"
class DCPDPTXRemotePortTarget(Register32):
CORE = 3, 0
ATC = 7, 4
DIE = 11, 8
CONNECTED = 15, 15
class DCPDPTXPortEpicTracer(EPICServiceTracer):
NAME = "dcpdptx-port-epic"
@epic_service_cmd(0, 6)
def setPowerState(self, data):
self.log("> setPowerState")
chexdump(data, print_fn=self.log)
@epic_service_reply(0, 6)
def setPowerState_reply(self, data):
self.log("< setPowerState")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 11)
def connectTo(self, data):
unk1, target = struct.unpack("<II24x", data)
target = DCPDPTXRemotePortTarget(target)
self.log(f"> connectTo(target={target}, unk1=0x{unk1:x})")
chexdump(data, print_fn=self.log)
@epic_service_reply(0, 11)
def connectTo_reply(self, data):
if len(data) < 32:
self.log(f"< connectTo() short data len={len(data)}")
unk1, target = struct.unpack("<II24x", data)
target = DCPDPTXRemotePortTarget(target)
self.log(f"< connectTo(target={target}, unk1=0x{unk1:x})")
chexdump(data, print_fn=self.log)
@epic_service_cmd(0, 12)
def validateConnection(self, data):
unk1, target = struct.unpack("<II40x", data)
target = DCPDPTXRemotePortTarget(target)
self.log(f"> validateConnection(target={target}, unk1=0x{unk1:x})")
@epic_service_reply(0, 12)
def validateConnection_reply(self, data):
unk1, target = struct.unpack("<II40x", data)
target = DCPDPTXRemotePortTarget(target)
self.log(f"< validateConnection(target={target}, unk1=0x{unk1:x})")
@epic_service_cmd(8, 8)
def hotPlugDetectChangeOccurred(self, data):
self.log(f"> hotPlugDetectChangeOccurred()")
chexdump(data, print_fn=self.log)
unk = struct.unpack("<16x?15x", data)[0]
self.log(f"> hotPlugDetectChangeOccurred(unk={unk})")
@epic_service_reply(8, 8)
def hotPlugDetectChangeOccurred_reply(self, data):
if len(data) < 32:
self.log(f"< hotPlugDetectChangeOccurred()")
chexdump(data, print_fn=self.log)
else:
unk = struct.unpack("<16x?15x", data)[0]
self.log(f"< hotPlugDetectChangeOccurred(unk={unk})")
@epic_service_notify(0, 0)
def apcall_activate(self, data):
self.log(f"< DPTX_APCALL_ACTIVATE)")
@epic_service_notify_ack(0, 0)
def apcall_activate_ack(self, data):
self.log(f"> DPTX_APCALL_ACTIVATE)")
@epic_service_notify(0, 1)
def apcall_deactivate(self, data):
self.log(f"< DPTX_APCALL_DEACTIVATE)")
@epic_service_notify_ack(0, 1)
def apcall_deactivate_ack(self, data):
self.log(f"> DPTX_APCALL_DEACTIVATE)")
@epic_service_notify(0, 2)
def apcall_max_drive_settings(self, data):
self.log(f"< DPTX_APCALL_GET_MAX_DRIVE_SETTINGS)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 2)
def apcall_max_drive_settings_ack(self, data):
self.log(f"> DPTX_APCALL_GET_MAX_DRIVE_SETTINGS)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 3)
def apcall_set_drive_settings(self, data):
self.log(f"< DPTX_APCALL_SET_DRIVE_SETTINGS)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 3)
def apcall_set_drive_settings_ack(self, data):
self.log(f"> DPTX_APCALL_SET_DRIVE_SETTINGS)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 4)
def apcall_get_drive_settings(self, data):
self.log(f"< DPTX_APCALL_GET_DRIVE_SETTINGS)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 4)
def apcall_get_drive_settings_ack(self, data):
self.log(f"> DPTX_APCALL_GET_DRIVE_SETTINGS)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 5)
def apcall_will_change_link_cfg(self, data):
self.log(f"< DPTX_APCALL_WILL_CHANGE_LINK_CONFIG)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 5)
def apcall_will_change_link_cfg_ack(self, data):
self.log(f"> DPTX_APCALL_WILL_CHANGE_LINK_CONFIG)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 6)
def apcall_did_change_link_cfg(self, data):
self.log(f"< DPTX_APCALL_DID_CHANGE_LINK_CONFIG)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 6)
def apcall_did_change_link_cfg_ack(self, data):
self.log(f"> DPTX_APCALL_DID_CHANGE_LINK_CONFIG)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 7)
def apcall_max_link_rate(self, data):
self.log(f"< DPTX_APCALL_GET_MAX_LINK_RATE)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 7)
def apcall_max_link_rate_ack(self, data):
self.log(f"> DPTX_APCALL_GET_MAX_LINK_RATE)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 8)
def apcall_get_link_rate(self, data):
self.log(f"< DPTX_APCALL_GET_LINK_RATE)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 8)
def apcall_get_link_rate_ack(self, data):
self.log(f"> DPTX_APCALL_GET_LINK_RATE)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 9)
def apcall_set_link_rate(self, data):
self.log(f"< DPTX_APCALL_SET_LINK_RATE)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 9)
def apcall_set_link_rate_ack(self, data):
self.log(f"> DPTX_APCALL_SET_LINK_RATE)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 10)
def apcall_max_lane_count(self, data):
self.log(f"< DPTX_APCALL_GET_MAX_LANE_COUNT)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 10)
def apcall_max_lane_count_ack(self, data):
self.log(f"> DPTX_APCALL_GET_MAX_LANE_COUNT)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 11)
def apcall_get_active_lane_count(self, data):
self.log(f"< DPTX_APCALL_GET_ACTIVE_LANE_COUNT)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 11)
def apcall_get_active_lane_count_ack(self, data):
self.log(f"> DPTX_APCALL_GET_ACTIVE_LANE_COUNT)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 12)
def apcall_set_active_lane_count(self, data):
self.log(f"< DPTX_APCALL_SET_ACTIVE_LANE_COUNT)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 12)
def apcall_set_active_lane_count_ack(self, data):
self.log(f"> DPTX_APCALL_SET_ACTIVE_LANE_COUNT)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 13)
def apcall_supports_downspread(self, data):
self.log(f"< DPTX_APCALL_GET_SUPPORTS_DOWN_SPREAD)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 13)
def apcall_supports_downspread_ack(self, data):
self.log(f"> DPTX_APCALL_GET_SUPPORTS_DOWN_SPREAD)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 14)
def apcall_get_downspread(self, data):
self.log(f"< DPTX_APCALL_GET_DOWN_SPREAD)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 14)
def apcall_get_downspread_ack(self, data):
self.log(f"> DPTX_APCALL_GET_DOWN_SPREAD)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 15)
def apcall_set_downspread(self, data):
self.log(f"< DPTX_APCALL_SET_DOWN_SPREAD)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 15)
def apcall_set_downspread_ack(self, data):
self.log(f"> DPTX_APCALL_SET_DOWN_SPREAD)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 16)
def apcall_supports_lane_map(self, data):
self.log(f"< DPTX_APCALL_GET_SUPPORTS_LANE_MAPPING)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 16)
def apcall_supports_lane_map_ack(self, data):
self.log(f"> DPTX_APCALL_GET_SUPPORTS_LANE_MAPPING)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 17)
def apcall_set_lane_map(self, data):
self.log(f"< DPTX_APCALL_SET_LANE_MAP)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 17)
def apcall_set_lane_map_ack(self, data):
self.log(f"> DPTX_APCALL_SET_LANE_MAP)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 18)
def apcall_supports_hpd(self, data):
self.log(f"< DPTX_APCALL_GET_SUPPORTS_HPD)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 18)
def apcall_supports_hpd_ack(self, data):
self.log(f"> DPTX_APCALL_GET_SUPPORTS_HPD)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 19)
def apcall_force_hpd(self, data):
self.log(f"< DPTX_APCALL_FORCE_HOTPLUG_DETECT)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 19)
def apcall_force_hpd_ack(self, data):
self.log(f"> DPTX_APCALL_FORCE_HOTPLUG_DETECT)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 20)
def apcall_inactive_sink(self, data):
self.log(f"< DPTX_APCALL_INACTIVE_SINK_DETECTED)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 20)
def apcall_inactive_sink_ack(self, data):
self.log(f"> DPTX_APCALL_INACTIVE_SINK_DETECTED)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 21)
def apcall_set_tiled_hints(self, data):
self.log(f"< DPTX_APCALL_SET_TILED_DISPLAY_HINTS)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 21)
def apcall_set_tiled_hints_ack(self, data):
self.log(f"> DPTX_APCALL_SET_TILED_DISPLAY_HINTS)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 22)
def apcall_dev_not_responding(self, data):
self.log(f"< DPTX_APCALL_DEVICE_NOT_RESPONDING)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 22)
def apcall_dev_not_responding_ack(self, data):
self.log(f"> DPTX_APCALL_DEVICE_NOT_RESPONDING)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 23)
def apcall_dev_busy_timeout(self, data):
self.log(f"< DPTX_APCALL_DEVICE_BUSY_TIMEOUT)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 23)
def apcall_dev_busy_timeout_ack(self, data):
self.log(f"> DPTX_APCALL_DEVICE_BUSY_TIMEOUT)")
chexdump(data, print_fn=self.log)
@epic_service_notify(0, 24)
def apcall_dev_not_started(self, data):
self.log(f"< APCALL_DEVICE_NOT_STARTED)")
chexdump(data, print_fn=self.log)
@epic_service_notify_ack(0, 24)
def apcall_dev_not_started_ack(self, data):
self.log(f"> APCALL_DEVICE_NOT_STARTED)")
chexdump(data, print_fn=self.log)
class DPTXPortService(EPICEp):
NAME = "dptxport"
SERVICES = [
DCPDPTXPortEpicTracer
]
class DCPTracer(ASCTracer):
ENDPOINTS = {
0x20: SystemService,
0x21: TestService,
0x22: DCPExpertService,
# Disp0 / DCP iboot as used by m1n1 is incompatible with the generic
# EPICEp tracer, disable it for now
#0x23: Disp0Service,
0x24: DPAVController,
0x25: EPICEp, # dcpav-power-ep
0x26: DPSACService,
0x27: DPDevService,
0x28: DPAVService,
0x29: AVService,
0x2a: DPTXPortService, # dcpdptx-port-ep
0x2b: HDCPService,
0x2c: EPICEp, # cb-ap-to-dcp-service-ep
0x2d: RemoteAllocService,
0x37: DCPEp, # iomfb-link
}
def handle_msg(self, direction, r0, r1):
super().handle_msg(direction, r0, r1)
#iomon.poll()
# get get the SID used by DCP from the only child of "dart-dcp*"
dcp_sid = u.adt[get_dcp_device(DCPDevType.DART_DCP, dcp_name)][0].reg
dart_dcp_tracer = DARTTracer(hv, get_dcp_device(DCPDevType.DART_DCP, dcp_name))
dart_dcp_tracer.start()
dart_disp0_tracer = DARTTracer(hv, get_dcp_device(DCPDevType.DART_DISP, dcp_name))
dart_disp0_tracer.start()
def readmem_iova(addr, size, readfn):
try:
return dart_dcp_tracer.dart.ioread(dcp_sid, addr, size)
except Exception as e:
print(e)
return None
iomon.readmem = readmem_iova
dcp_tracer = DCPTracer(hv, get_dcp_device(DCPDevType.DCP, dcp_name), verbose=1)
dcp_tracer.start(dart_dcp_tracer.dart, stream=dcp_sid)
#dcp_tracer.ep.dcpep.state.dumpfile = open(dcp_name + ".log", "a")