Files
rocm-systems/rocm_agent_enumerator
T
Joseph Greathouse ea5ce46fb4 Add better PCI ID backup in rocm_agent_enumerator
The PCI ID backup method in rocm_agent_enumerator, where the
tool uses lspci to find all AMD GPU devices in the system and
manaully match them to gfx version, is extremely outdated. The
PCI ID list did not include anything after Vega 10, and the
actual call to lspci no longer returned anything due to some
missing conversions.

The patch adds all GPUs that might be needed by ROCr up through
Navy Flounder. The PCI ID to gfx matching pulls from the amdgpu
driver and libhsakmt.

Change-Id: I58b77bb6aa631f575352fc444d2542f265909706
2021-10-29 18:45:23 -05:00

211 rindas
6.8 KiB
Python
Izpildāmais fails

#!/usr/bin/env python3
import os
import re
import subprocess
import sys
# get current working directory
CWD = os.path.dirname(os.path.realpath(__file__))
ISA_TO_ID = {
# Kaveri - Temporary
"gfx700" : [0x1304, 0x1305, 0x1306, 0x1307, 0x1309, 0x130a, 0x130b, 0x130c,
0x130d, 0x130e, 0x130f, 0x1310, 0x1311, 0x1312, 0x1313, 0x1315,
0x1316, 0x1317, 0x1318, 0x131b, 0x131c, 0x131d],
# Hawaii
"gfx701" : [0x67a0, 0x67a1, 0x67a2, 0x67a8, 0x67a9, 0x67aa, 0x67b0, 0x67b1,
0x67b8, 0x67b9, 0x67ba, 0x67be],
# Carrizo
"gfx801" : [0x9870, 0x9874, 0x9875, 0x9876, 0x9877, 0x98e4],
# Tonga
"gfx802" : [0x6920, 0x6921, 0x6928, 0x6929, 0x692b, 0x692f, 0x6930, 0x6938,
0x6939],
# Fiji
"gfx803" : [0x7300, 0x730f,
# Polaris10
0x67c0, 0x67c1, 0x67c2, 0x67c4, 0x67c7, 0x67c8, 0x67c9, 0x67ca,
0x67cc, 0x67cf, 0x6fdf,
# Polaris11
0x67d0, 0x67df, 0x67e0, 0x67e1, 0x67e3, 0x67e7, 0x67e8, 0x67e9,
0x67eb, 0x67ef, 0x67ff,
# Polaris12
0x6980, 0x6981, 0x6985, 0x6986, 0x6987, 0x6995, 0x6997, 0x699f,
# VegaM
0x694c, 0x694e, 0x694f],
# Vega10
"gfx900" : [0x6860, 0x6861, 0x6862, 0x6863, 0x6864, 0x6867, 0x6868, 0x6869,
0x6869, 0x686a, 0x686b, 0x686c, 0x686d, 0x686e, 0x686f, 0x687f],
# Raven
"gfx902" : [0x15dd, 0x15d8],
# Vega12
"gfx904" : [0x69a0, 0x69a1, 0x69a2, 0x69a3, 0x69af],
# Vega20
"gfx906" : [0x66a0, 0x66a1, 0x66a2, 0x66a3, 0x66a4, 0x66a7, 0x66af],
# Arcturus
"gfx908" : [0x738c, 0x7388, 0x738e, 0x7390],
# Aldebaran
"gfx90a" : [0x7408, 0x740c, 0x740f, 0x7410],
# Renoir
"gfx90c" : [0x15e7, 0x1636, 0x1638, 0x164c],
# Navi10
"gfx1010" : [0x7310, 0x7312, 0x7318, 0x7319, 0x731a, 0x731b, 0x731e, 0x731f],
# Navi12
"gfx1011" : [0x7360, 0x7362],
# Navi14
"gfx1012" : [0x7340, 0x7341, 0x7347, 0x734f],
# Cyan_Skillfish
"gfx1013" : [0x13f9, 0x13fa, 0x13fb, 0x13fc, 0x13f3],
# Sienna_Cichlid
"gfx1030" : [0x73a0, 0x73a1, 0x73a2, 0x73a3, 0x73a5, 0x73a8, 0x73a9, 0x73ab,
0x73ac, 0x73ad, 0x73ae, 0x73af, 0x73bf],
# Navy_Flounder
"gfx1031" : [0x73c0, 0x73c1, 0x73c3, 0x73da, 0x73db, 0x73dc, 0x73dd, 0x73de,
0x73df],
# Dimgray_Cavefish
"gfx1032" : [0x73e0, 0x73e1, 0x73e2, 0x73e3, 0x73e8, 0x73e9, 0x73ea, 0x73eb,
0x73ec, 0x73ed, 0x73ef, 0x73ff],
# Van Gogh
"gfx1033" : [0x163f],
# Beige_Goby
"gfx1034" : [0x7420, 0x7421, 0x7422, 0x7423, 0x743f],
# Yellow_Carp
"gfx1035" : [0x164d, 0x1681]
}
def staticVars(**kwargs):
def deco(func):
for k in kwargs:
setattr(func, k, kwargs[k])
return func
return deco
@staticVars(search_term=re.compile("gfx[0-9a-fA-F]+"))
def getGCNISA(line, match_from_beginning = False):
if match_from_beginning is True:
result = getGCNISA.search_term.match(line)
else:
result = getGCNISA.search_term.search(line)
if result is not None:
return result.group(0)
return None
@staticVars(search_name=re.compile("gfx[0-9a-fA-F]+:[-+:\w]+"))
def getGCNArchName(line):
result = getGCNArchName.search_name.search(line)
if result is not None:
return result.group(0)
return None
def readFromTargetLstFile():
target_list = []
# locate target.lst using environment variable or
# it should be placed at the same directory with this script
target_lst_path = os.environ.get("ROCM_TARGET_LST");
if target_lst_path == None:
target_lst_path = os.path.join(CWD, "target.lst")
if os.path.isfile(target_lst_path):
target_lst_file = open(target_lst_path, 'r')
for line in target_lst_file:
# for target.lst match from beginning so targets can be disabled by
# commenting it out
target = getGCNISA(line, match_from_beginning = True)
if target is not None:
target_list.append(target)
return target_list
def readFromROCMINFO(search_arch_name = False):
target_list = []
# locate rocminfo binary which should be placed at the same directory with
# this script
rocminfo_executable = os.path.join(CWD, "rocminfo")
try:
# run rocminfo
rocminfo_output = subprocess.Popen(rocminfo_executable, stdout=subprocess.PIPE).communicate()[0].decode("utf-8").split('\n')
except:
rocminfo_output = []
# search AMDGCN gfx ISA
if search_arch_name is True:
line_search_term = re.compile("\A\s+Name:\s+(amdgcn-amd-amdhsa--gfx\d+)")
else:
line_search_term = re.compile("\A\s+Name:\s+(gfx\d+)")
for line in rocminfo_output:
if line_search_term.match(line) is not None:
if search_arch_name is True:
target = getGCNArchName(line)
else:
target = getGCNISA(line)
if target is not None:
target_list.append(target)
return target_list
def readFromLSPCI():
target_list = []
try:
# run lspci
lspci_output = subprocess.Popen(["/usr/bin/lspci", "-n", "-d", "1002:"], stdout=subprocess.PIPE).communicate()[0].decode("utf-8").split('\n')
except:
lspci_output = []
target_search_term = re.compile("1002:\w+")
for line in lspci_output:
search_result = target_search_term.search(line)
if search_result is not None:
device_id = int(search_result.group(0).split(':')[1], 16)
# try lookup from ISA_TO_ID dict
for target in ISA_TO_ID.keys():
for target_device_id in ISA_TO_ID[target]:
if device_id == target_device_id:
target_list.append(target)
break
return target_list
def main():
if len(sys.argv) == 2 and sys.argv[1] == '-name' :
""" Prints the list of available AMD GCN target names extracted from rocminfo, a tool
shipped with this script to enumerate GPU agents available on a working ROCm stack."""
target_list = readFromROCMINFO(True)
else:
"""Prints the list of available AMD GCN ISA
The program collects the list in 3 different ways, in the order of
precendence:
1. ROCM_TARGET_LST : a user defined environment variable, set to the path and
filename where to find the "target.lst" file. This can be
used in an install environment with sandbox, where
execution of "rocminfo" is not possible.
2. target.lst : user-supplied text file. This is used in a container setting
where ROCm stack may usually not available.
3. rocminfo : a tool shipped with this script to enumerate GPU agents
available on a working ROCm stack.
4. lspci : enumerate PCI bus and locate supported devices from a hard-coded
lookup table.
"""
target_list = readFromTargetLstFile()
if len(target_list) == 0:
target_list = readFromROCMINFO()
if len(target_list) == 0:
target_list = readFromLSPCI()
# workaround to cope with existing rocm_agent_enumerator behavior where gfx000
# would always be returned
print("gfx000")
for gfx in target_list:
print(gfx)
if __name__ == "__main__":
main()