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hip_prof_gen.py
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hip_prof_gen.py
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#!/usr/bin/python
import os, sys, re
PROF_HEADER = "hip_prof_str.h"
OUTPUT = PROF_HEADER
REC_MAX_LEN = 1024
# Messages and errors controll
verbose = 0
errexit = 0
inp_file = 'none'
line_num = -1
# Verbose message
def message(msg):
if verbose: sys.stdout.write(msg + '\n')
# Fatal error termination
def error(msg):
if line_num != -1:
msg += ", file '" + inp_file + "', line (" + str(line_num) + ")"
if errexit:
msg = " Error: " + msg
else:
msg = " Warning: " + msg
sys.stdout.write(msg + '\n')
sys.stderr.write(sys.argv[0] + msg +'\n')
def fatal(msg):
error(msg)
if errexit: sys.exit(1)
#############################################################
# Normalizing API name
def filtr_api_name(name):
name = re.sub(r'\s*$', r'', name);
return name
# Normalizing API arguments
def filtr_api_args(args_str):
args_str = re.sub(r'^\s*', r'', args_str);
args_str = re.sub(r'\s*$', r'', args_str);
args_str = re.sub(r'\s*,\s*', r',', args_str);
args_str = re.sub(r'\s+', r' ', args_str);
args_str = re.sub(r'\s*(\*+)\s*', r'\1 ', args_str);
args_str = re.sub(r'(enum|struct) ', '', args_str);
return args_str
# Normalizing types
def norm_api_types(type_str):
type_str = re.sub(r'uint32_t', r'unsigned int', type_str)
type_str = re.sub(r'^unsigned$', r'unsigned int', type_str)
return type_str
# Creating a list of arguments [(type, name), ...]
def list_api_args(args_str):
args_str = filtr_api_args(args_str)
args_list = []
if args_str != '':
for arg_pair in args_str.split(','):
if arg_pair == 'void': continue
arg_pair = re.sub(r'\s*=\s*\S+$','', arg_pair);
m = re.match("^(.*)\s(\S+)$", arg_pair);
if m:
arg_type = norm_api_types(m.group(1))
arg_name = m.group(2)
args_list.append((arg_type, arg_name))
else:
fatal("bad args: args_str: '" + args_str + "' arg_pair: '" + arg_pair + "'")
return args_list;
# Creating arguments string "type0, type1, ..."
def filtr_api_types(args_str):
args_list = list_api_args(args_str)
types_str = ''
for arg_tuple in args_list:
types_str += arg_tuple[0] + ', '
return types_str
# Creating options list [opt0, opt1, ...]
def filtr_api_opts(args_str):
args_list = list_api_args(args_str)
opts_list = []
for arg_tuple in args_list:
opts_list.append(arg_tuple[1])
return opts_list
#############################################################
# Parsing API header
# hipError_t hipSetupArgument(const void* arg, size_t size, size_t offset);
def parse_api(inp_file_p, out):
global inp_file
global line_num
inp_file = inp_file_p
beg_pattern = re.compile("^(hipError_t|const char\s*\*)\s+([^\(]+)\(");
api_pattern = re.compile("^(hipError_t|const char\s*\*)\s+([^\(]+)\(([^\)]*)\)");
end_pattern = re.compile("Texture");
hidden_pattern = re.compile(r'__attribute__\(\(visibility\("hidden"\)\)\)')
nms_open_pattern = re.compile(r'namespace hip_impl {')
nms_close_pattern = re.compile(r'}')
inp = open(inp_file, 'r')
found = 0
hidden = 0
nms_level = 0;
record = ""
line_num = -1
for line in inp.readlines():
record += re.sub(r'^\s+', r' ', line[:-1])
line_num += 1
if len(record) > REC_MAX_LEN:
fatal("bad record \"" + record + "\"")
m = beg_pattern.match(line)
if m:
name = m.group(2)
if hidden != 0:
message("api: " + name + " - hidden")
elif nms_level != 0:
message("api: " + name + " - hip_impl")
else:
message("api: " + name)
found = 1
if found != 0:
record = re.sub("\s__dparm\([^\)]*\)", '', record);
m = api_pattern.match(record)
if m:
found = 0
if end_pattern.search(record): break
out[filtr_api_name(m.group(2))] = m.group(3)
else: continue
hidden = 0
if hidden_pattern.match(line): hidden = 1
if nms_open_pattern.match(line): nms_level += 1
if (nms_level > 0) and nms_close_pattern.match(line): nms_level -= 1
if nms_level < 0:
fatal("nms level < 0")
record = ""
inp.close()
line_num = -1
#############################################################
# Parsing API implementation
# hipError_t hipSetupArgument(const void* arg, size_t size, size_t offset) {
# HIP_INIT_CB(hipSetupArgument, arg, size, offset);
# inp_file - input implementation source file
# api_map - input public API map [<api name>] => <api args>
# out - output map [<api name>] => [opt0, opt1, ...]
def parse_content(inp_file_p, api_map, out):
global inp_file
global line_num
inp_file = inp_file_p
# API definition begin pattern
beg_pattern = re.compile("^(hipError_t|const char\s*\*)\s+[^\(]+\(");
# API definition complete pattern
api_pattern = re.compile("^(hipError_t|const char\s*\*)\s+([^\(]+)\(([^\)]*)\)\s*{");
# API init macro pattern
init_pattern = re.compile("^\s*HIP_INIT[_\w]*_API\(([^,]+)(,|\))");
target_pattern = re.compile("^(\s*HIP_INIT[^\(]*)(_API\()(.*)\);\s*$");
# Open input file
inp = open(inp_file, 'r')
# API name
api_name = ""
# Valid public API found flag
api_valid = 0
# Input file patched content
content = ''
# Sub content for found API defiition
sub_content = ''
# Current record, accumulating several API definition related lines
record = ''
# Current input file line number
line_num = -1
# API beginning found flag
found = 0
# Reading input file
for line in inp.readlines():
# Accumulating record
record += re.sub(r'^\s+', r' ', line[:-1])
line_num += 1
if len(record) > REC_MAX_LEN:
fatal("bad record \"" + record + "\"")
break;
# Looking for API begin
if beg_pattern.match(record): found = 1
# Matching complete API definition
if found == 1:
record = re.sub("\s__dparm\([^\)]*\)", '', record);
m = api_pattern.match(record)
# Checking if complete API matched
if m:
found = 2
api_name = filtr_api_name(m.group(2));
# Checking if API name is in the API map
if api_name in api_map:
# Getting API arguments
api_args = m.group(3)
# Getting etalon arguments from the API map
eta_args = api_map[api_name]
if eta_args == '':
eta_args = api_args
api_map[api_name] = eta_args
# Normalizing API arguments
api_types = filtr_api_types(api_args)
# Normalizing etalon arguments
eta_types = filtr_api_types(eta_args)
if api_types == eta_types:
# API is already found
if api_name in out:
fatal("API redefined \"" + api_name + "\", record \"" + record + "\"")
# Set valid public API found flag
api_valid = 1
# Set output API map with API arguments list
out[api_name] = filtr_api_opts(api_args)
else:
# Warning about mismatched API, possible non public overloaded version
api_diff = '\t\t' + inp_file + " line(" + str(line_num) + ")\n\t\tapi: " + api_types + "\n\t\teta: " + eta_types
message("\t" + api_name + ' args mismatch:\n' + api_diff + '\n')
# API found action
if found == 2:
# Looking for INIT macro
m = init_pattern.match(line)
if m:
found = 0
if api_valid == 1:
api_valid = 0
message("\t" + api_name)
else:
# Registering dummy API for non public API if the name in INIT is not NONE
init_name = m.group(1)
# Ignore if it is initialized as NONE
if init_name != 'NONE':
# Check if init name matching API name
if init_name != api_name:
fatal("init name mismatch: '" + init_name + "' <> '" + api_name + "'")
# If init name is not in public API map then it is private API
# else it was not identified and will be checked on finish
if not init_name in api_map:
if init_name in out:
fatal("API reinit \"" + api_name + "\", record \"" + record + "\"")
out[init_name] = []
elif re.search('}', line):
found = 0
# Expect INIT macro for valid public API
if api_valid == 1:
api_valid = 0
if api_name in out:
del out[api_name]
del api_map[api_name]
out['.' + api_name] = 1
else:
fatal("API is not in out \"" + api_name + "\", record \"" + record + "\"")
if found != 1: record = ""
content += line
inp.close()
line_num = -1
if len(out) != 0:
return content
else:
return ''
# src path walk
def parse_src(api_map, src_path, src_patt, out):
pattern = re.compile(src_patt)
src_path = re.sub(r'\s', '', src_path)
for src_dir in src_path.split(':'):
message("Parsing " + src_dir + " for '" + src_patt + "'")
for root, dirs, files in os.walk(src_dir):
for fnm in files:
if pattern.search(fnm):
file = root + '/' + fnm
message(file)
content = parse_content(file, api_map, out);
if content != '':
f = open(file, 'w')
f.write(content)
f.close()
#############################################################
# Generating profiling primitives header
# api_map - public API map [<api name>] => [(type, name), ...]
# opts_map - opts map [<api name>] => [opt0, opt1, ...]
def generate_prof_header(f, api_map, opts_map):
# Private API list
priv_lst = []
f.write('// automatically generated sources\n')
f.write('#ifndef _HIP_PROF_STR_H\n');
f.write('#define _HIP_PROF_STR_H\n');
f.write('#define HIP_PROF_VER 1\n')
# Generating dummy macro for non-public API
f.write('\n// Dummy API primitives\n')
f.write('#define INIT_NONE_CB_ARGS_DATA(cb_data) {};\n')
for name in opts_map:
if not name in api_map:
opts_lst = opts_map[name]
if len(opts_lst) != 0:
fatal("bad dummy API \"" + name + "\", args: " + str(opts_lst))
f.write('#define INIT_'+ name + '_CB_ARGS_DATA(cb_data) {};\n')
priv_lst.append(name)
for name in priv_lst:
message("Private: " + name)
# Generating the callbacks ID enumaration
f.write('\n// HIP API callbacks ID enumaration\n')
f.write('enum hip_api_id_t {\n')
cb_id = 0
for name in api_map.keys():
f.write(' HIP_API_ID_' + name + ' = ' + str(cb_id) + ',\n')
cb_id += 1
f.write(' HIP_API_ID_NUMBER = ' + str(cb_id) + ',\n')
f.write('\n')
f.write(' HIP_API_ID_NONE = HIP_API_ID_NUMBER,\n')
for name in priv_lst:
f.write(' HIP_API_ID_' + name + ' = HIP_API_ID_NUMBER,\n')
f.write('};\n')
# Generating the callbacks ID enumaration
f.write('\n// Return HIP API string\n')
f.write('static inline const char* hip_api_name(const uint32_t id) {\n')
f.write(' switch(id) {\n')
for name in api_map.keys():
f.write(' case HIP_API_ID_' + name + ': return "' + name + '";\n')
f.write(' };\n')
f.write(' return "unknown";\n')
f.write('};\n')
# Generating the callbacks data structure
f.write('\n// HIP API callbacks data structure\n')
f.write(
'typedef struct hip_api_data_t {\n' +
' uint64_t correlation_id;\n' +
' uint32_t phase;\n' +
' union {\n'
)
for name, args in api_map.items():
if len(args) != 0:
f.write(' struct {\n')
for arg_tuple in args:
if arg_tuple[0] == "hipLimit_t":
f.write(' enum ' + arg_tuple[0] + ' ' + arg_tuple[1] + ';\n')
else:
f.write(' ' + arg_tuple[0] + ' ' + arg_tuple[1] + ';\n')
f.write(' } ' + name + ';\n')
f.write(
' } args;\n' +
'} hip_api_data_t;\n'
)
# Generating the callbacks args data filling macros
f.write('\n// HIP API callbacks args data filling macros\n')
for name, args in api_map.items():
f.write('// ' + name + str(args) + '\n')
f.write('#define INIT_' + name + '_CB_ARGS_DATA(cb_data) { \\\n')
if name in opts_map:
opts_list = opts_map[name]
if len(args) != len(opts_list):
fatal("\"" + name + "\" API args and opts mismatch, args: " + str(args) + ", opts: " + str(opts_list))
# API args iterating:
# type is args[<ind>][0]
# name is args[<ind>][1]
for ind in range(0, len(args)):
arg_tuple = args[ind]
fld_name = arg_tuple[1]
arg_name = opts_list[ind]
f.write(' cb_data.args.' + name + '.' + fld_name + ' = ' + arg_name + '; \\\n')
f.write('};\n')
f.write('#define INIT_CB_ARGS_DATA(cb_id, cb_data) INIT_##cb_id##_CB_ARGS_DATA(cb_data)\n')
# Generating the method for the API string, name and parameters
f.write('\n')
f.write('#if HIP_PROF_HIP_API_STRING\n')
f.write('#include <sstream>\n');
f.write('#include <string>\n');
f.write('// HIP API string method, method name and parameters\n')
f.write('const char* hipApiString(hip_api_id_t id, const hip_api_data_t* data) {\n')
f.write(' std::ostringstream oss;\n')
f.write(' switch (id) {\n')
for name, args in api_map.items():
f.write(' case HIP_API_ID_' + name + ':\n')
f.write(' oss << "' + name + '("')
for ind in range(0, len(args)):
arg_tuple = args[ind]
arg_name = arg_tuple[1]
if ind != 0: f.write(' << ","')
f.write('\n << " ' + arg_name + '=" << data->args.' + name + '.' + arg_name)
f.write('\n << ")";\n')
f.write(' break;\n')
f.write(' default: oss << "unknown";\n')
f.write(' };\n')
f.write(' return strdup(oss.str().c_str());\n')
f.write('};\n')
f.write('#endif // HIP_PROF_HIP_API_STRING\n')
f.write('#endif // _HIP_PROF_STR_H\n');
#############################################################
# main
# Usage
if (len(sys.argv) > 1) and (sys.argv[1] == '-v'):
verbose = 1
sys.argv.pop(1)
if (len(sys.argv) > 1) and (sys.argv[1] == '-e'):
errexit = 1
sys.argv.pop(1)
if (len(sys.argv) < 3):
fatal ("Usage: " + sys.argv[0] + " [-v] <input HIP API .h file> <patched srcs path>\n" +
" -v - verbose messages\n" +
" example:\n" +
" $ hipap.py hip/include/hip/hcc_detail/hip_runtime_api.h hip/src")
# API header file given as an argument
api_hfile = sys.argv[1]
if not os.path.isfile(api_hfile):
fatal("input file '" + api_hfile + "' not found")
# Srcs directory given as an argument
src_pat = "\.cpp$"
src_dir = sys.argv[2]
if not os.path.isdir(src_dir):
fatal("src directory " + src_dir + "' not found")
if len(sys.argv) > 3: OUTPUT = sys.argv[3]
# API declaration map
api_map = {
'hipHccModuleLaunchKernel': '',
'hipExtModuleLaunchKernel': ''
}
# API options map
opts_map = {}
# Parsing API header
parse_api(api_hfile, api_map)
# Parsing sources
parse_src(api_map, src_dir, src_pat, opts_map)
# Checking for non-conformant APIs
for name in list(opts_map.keys()):
m = re.match(r'\.(\S*)', name)
if m:
message("Init missing: " + m.group(1))
del opts_map[name]
# Converting api map to map of lists
# Checking for not found APIs
not_found = 0
if len(opts_map) != 0:
for name in api_map.keys():
args_str = api_map[name];
args_list = list_api_args(args_str)
api_map[name] = args_list
if not name in opts_map:
error("implementation not found: " + name)
not_found += 1
if not_found != 0:
fatal(str(not_found) + " API calls missing in interception layer")
# Generating output header file
with open(OUTPUT, 'w') as f:
generate_prof_header(f, api_map, opts_map)
# Successfull exit
sys.exit(0)