Marco Zecchini
Rtos API example
Diff: mbed-os/tools/targets/REALTEK_RTL8195AM.py
- Revision:
- 0:9fca2b23d0ba
diff -r 000000000000 -r 9fca2b23d0ba mbed-os/tools/targets/REALTEK_RTL8195AM.py
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/mbed-os/tools/targets/REALTEK_RTL8195AM.py Sat Feb 23 12:13:36 2019 +0000
@@ -0,0 +1,280 @@
+"""
+Realtek Semiconductor Corp.
+
+RTL8195A elf2bin script
+"""
+
+import sys, array, struct, os, re, subprocess
+import hashlib
+import shutil
+
+from tools.paths import TOOLS_BOOTLOADERS
+from tools.toolchains import TOOLCHAIN_PATHS
+from datetime import datetime
+
+# Constant Variables
+RAM2_RSVD = 0x00000000
+RAM2_VER = 0x8195FFFF00000000
+RAM2_TAG = 0x81950001
+RAM2_SHA = '0'
+
+def write_fixed_width_string(value, width, output):
+ # cut string to list & reverse
+ line = [value[i:i+2] for i in range(0, len(value), 2)]
+ output.write("".join([chr(long(b, 16)) for b in line]))
+
+def write_fixed_width_value(value, width, output):
+ # convert to string
+ line = format(value, '0%dx' % (width))
+ if len(line) > width:
+ print "[ERROR] value 0x%s cannot fit width %d" % (line, width)
+ sys.exit(-1)
+ # cut string to list & reverse
+ line = [line[i:i+2] for i in range(0, len(line), 2)]
+ line.reverse()
+ # convert to write buffer
+ output.write("".join([chr(long(b, 16)) for b in line]))
+
+def append_image_file(image, output):
+ input = open(image, "rb")
+ output.write(input.read())
+ input.close()
+
+def write_padding_bytes(output_name, size):
+ current_size = os.stat(output_name).st_size
+ padcount = size - current_size
+ if padcount < 0:
+ print "[ERROR] image is larger than expected size"
+ sys.exit(-1)
+ output = open(output_name, "ab")
+ output.write('\377' * padcount)
+ output.close()
+
+def sha256_checksum(filename, block_size=65536):
+ sha256 = hashlib.sha256()
+ with open(filename, 'rb') as f:
+ for block in iter(lambda: f.read(block_size), b''):
+ sha256.update(block)
+ return sha256.hexdigest()
+
+def get_version_by_time():
+ secs = int((datetime.now()-datetime(2016,11,1)).total_seconds())
+ return RAM2_VER + secs
+
+# ----------------------------
+# main function
+# ----------------------------
+def prepend(image, entry, segment, image_ram2, image_ota):
+
+ # parse input arguments
+ output = open(image_ram2, "wb")
+
+ write_fixed_width_value(os.stat(image).st_size, 8, output)
+ write_fixed_width_value(int(entry), 8, output)
+ write_fixed_width_value(int(segment), 8, output)
+
+ RAM2_SHA = sha256_checksum(image)
+ write_fixed_width_value(RAM2_TAG, 8, output)
+ write_fixed_width_value(get_version_by_time(), 16, output)
+ write_fixed_width_string(RAM2_SHA, 64, output)
+ write_fixed_width_value(RAM2_RSVD, 8, output)
+
+ append_image_file(image, output)
+ output.close()
+
+ ota = open(image_ota, "wb")
+ write_fixed_width_value(os.stat(image).st_size, 8, ota)
+ write_fixed_width_value(int(entry), 8, ota)
+ write_fixed_width_value(int(segment), 8, ota)
+ write_fixed_width_value(0xFFFFFFFF, 8, ota)
+ write_fixed_width_value(get_version_by_time(), 16, ota)
+ write_fixed_width_string(RAM2_SHA, 64, ota)
+ write_fixed_width_value(RAM2_RSVD, 8, ota)
+
+ append_image_file(image, ota)
+ ota.close()
+
+def find_symbol(toolchain, mapfile, symbol):
+ ret = None
+
+ HEX = '0x0{,8}(?P<addr>[0-9A-Fa-f]{8})'
+ if toolchain == "GCC_ARM":
+ SYM = re.compile(r'^\s+' + HEX + r'\s+' + symbol + '\r?$')
+ elif toolchain in ["ARM_STD", "ARM", "ARM_MICRO"]:
+ SYM = re.compile(r'^\s+' + HEX + r'\s+0x[0-9A-Fa-f]{8}\s+Code.*\s+i\.' + symbol + r'\s+.*$')
+ elif toolchain == "IAR":
+ SYM = re.compile(r'^' + symbol + r'\s+' + HEX + '\s+.*$')
+
+ with open(mapfile, 'r') as infile:
+ for line in infile:
+ match = re.match(SYM, line)
+ if match:
+ ret = match.group("addr")
+
+ if not ret:
+ print "[ERROR] cannot find the address of symbol " + symbol
+ return 0
+
+ return int(ret,16) | 1
+
+def parse_load_segment_gcc(image_elf):
+ # Program Headers:
+ # Type Offset VirtAddr PhysAddr FileSiz MemSiz Flg Align
+ # LOAD 0x000034 0x10006000 0x10006000 0x026bc 0x026bc RW 0x8
+ # LOAD 0x0026f0 0x30000000 0x30000000 0x06338 0x06338 RWE 0x4
+ segment_list = []
+ cmd = os.path.join(TOOLCHAIN_PATHS['GCC_ARM'], 'arm-none-eabi-readelf')
+ cmd = '"' + cmd + '"' + ' -l ' + image_elf
+ for line in subprocess.check_output(cmd, shell=True, universal_newlines=True).split("\n"):
+ if not line.startswith(" LOAD"):
+ continue
+ segment = line.split()
+ if len(segment) != 8:
+ continue
+ offset = int(segment[1][2:], 16)
+ addr = int(segment[2][2:], 16)
+ size = int(segment[4][2:], 16)
+ if addr != 0 and size != 0:
+ segment_list.append((offset, addr, size))
+ return segment_list
+
+def parse_load_segment_armcc(image_elf):
+ # ====================================
+ #
+ # ** Program header #2
+ #
+ # Type : PT_LOAD (1)
+ # File Offset : 52 (0x34)
+ # Virtual Addr : 0x30000000
+ # Physical Addr : 0x30000000
+ # Size in file : 27260 bytes (0x6a7c)
+ # Size in memory: 42168 bytes (0xa4b8)
+ # Flags : PF_X + PF_W + PF_R + PF_ARM_ENTRY (0x80000007)
+ # Alignment : 8
+ #
+ (offset, addr, size) = (0, 0, 0)
+ segment_list = []
+ in_segment = False
+ cmd = os.path.join(TOOLCHAIN_PATHS['ARM'], 'bin', 'fromelf')
+ cmd = '"' + cmd + '"' + ' --text -v --only=none ' + image_elf
+ for line in subprocess.check_output(cmd, shell=True, universal_newlines=True).split("\n"):
+ if line == "":
+ pass
+ elif line.startswith("** Program header"):
+ in_segment = True
+ elif in_segment == False:
+ pass
+ elif line.startswith("============"):
+ if addr != 0 and size != 0:
+ segment_list.append((offset, addr, size))
+ in_segment = False
+ (offset, addr, size) = (0, 0, 0)
+ elif line.startswith(" Type"):
+ if not re.match(r'\s+Type\s+:\s+PT_LOAD\s.*$', line):
+ in_segment = False
+ elif line.startswith(" File Offset"):
+ match = re.match(r'^\s+File Offset\s+:\s+(?P<offset>\d+).*$', line)
+ if match:
+ offset = int(match.group("offset"))
+ elif line.startswith(" Virtual Addr"):
+ match = re.match(r'^\s+Virtual Addr\s+:\s+0x(?P<addr>[0-9a-f]+).*$', line)
+ if match:
+ addr = int(match.group("addr"), 16)
+ elif line.startswith(" Size in file"):
+ match = re.match(r'^\s+Size in file\s+:.*\(0x(?P<size>[0-9a-f]+)\).*$', line)
+ if match:
+ size = int(match.group("size"), 16)
+ return segment_list
+
+
+def parse_load_segment_iar(image_elf):
+ # SEGMENTS:
+ #
+ # Type Offset Virtual Physical File Sz Mem Sz Flags Align
+ # ---- ------ ------- -------- ------- ------ ----- -----
+ # 0: load 0x34 0x10006000 0x10006000 0x26bc 0x26bc 0x6 WR 0x8
+ # 1: load 0x26f0 0x30000000 0x30000000 0x6338 0x6338 0x7 XWR 0x4
+ #
+ # SECTIONS:
+ #
+ # Name Type Addr Offset Size Aln Lnk Inf ESz Flags
+ # ---- ---- ---- ------ ---- --- --- --- --- -----
+ # 1: .shstrtab strtab 0xfc4d8 0x60 0x4
+ # 2: .strtab strtab 0xfc538 0xbb3f 0x4
+
+ segment_list = []
+ in_segment = False
+ cmd = os.path.join(TOOLCHAIN_PATHS['IAR'], 'bin', 'ielfdumparm')
+ cmd = '"' + cmd + '"' + ' ' + image_elf
+ for line in subprocess.check_output(cmd, shell=True, universal_newlines=True).split("\n"):
+ if line.startswith(" SEGMENTS:"):
+ in_segment = True
+ elif in_segment == False:
+ pass
+ elif line.startswith(" SECTIONS:"):
+ break
+ elif re.match(r'^\s+\w+:\s+load\s+.*$', line):
+ segment = line.split()
+ offset = int(segment[2][2:], 16)
+ addr = int(segment[3][2:], 16)
+ size = int(segment[5][2:], 16)
+ if addr < 0x10007000:
+ continue
+ if addr != 0 and size != 0:
+ segment_list.append((offset, addr, size))
+ return segment_list
+
+def parse_load_segment(toolchain, image_elf):
+ if toolchain == "GCC_ARM":
+ return parse_load_segment_gcc(image_elf)
+ elif toolchain in ["ARM_STD", "ARM", "ARM_MICRO"]:
+ return parse_load_segment_armcc(image_elf)
+ elif toolchain == "IAR":
+ return parse_load_segment_iar(image_elf)
+ else:
+ return []
+
+def write_load_segment(image_elf, image_bin, segment):
+ file_elf = open(image_elf, "rb")
+ file_bin = open(image_bin, "wb")
+ for (offset, addr, size) in segment:
+ file_elf.seek(offset)
+ # write image header - size & addr
+ write_fixed_width_value(addr, 8, file_bin)
+ write_fixed_width_value(size, 8, file_bin)
+ # write load segment
+ file_bin.write(file_elf.read(size))
+ delta = size % 4
+ if delta != 0:
+ padding = 4 - delta
+ write_fixed_width_value(0x0, padding * 2, file_bin)
+ file_bin.close()
+ file_elf.close()
+
+# ----------------------------
+# main function
+# ----------------------------
+def rtl8195a_elf2bin(t_self, image_elf, image_bin):
+ # remove target binary file/path
+ if os.path.isfile(image_bin):
+ os.remove(image_bin)
+ else:
+ shutil.rmtree(image_bin)
+
+ segment = parse_load_segment(t_self.name, image_elf)
+ write_load_segment(image_elf, image_bin, segment)
+
+ image_name = os.path.splitext(image_elf)[0]
+ image_map = image_name + '.map'
+
+ ram2_ent = find_symbol(t_self.name, image_map, "PLAT_Start")
+ ram1_bin = os.path.join(TOOLS_BOOTLOADERS, "REALTEK_RTL8195AM", "ram_1.bin")
+ ram2_bin = image_name + '-ram_2.bin'
+ ota_bin = image_name + '-ota.bin'
+ prepend(image_bin, ram2_ent, len(segment), ram2_bin, ota_bin)
+
+ # write output file
+ output = open(image_bin, "wb")
+ append_image_file(ram1_bin, output)
+ append_image_file(ram2_bin, output)
+ output.close()