#!/usr/bin/env python from __future__ import print_function import os import re import sys import binascii import time assert len(sys.argv) > 2 start = time.time() print("MEMFS: starting") # Exclude experimental features e.g. GRIB3 and TAF # The BUFR codetables is not used in the engine EXCLUDED = ["grib3", "codetables", "taf", "stations"] pos = 1 if sys.argv[1] == "-exclude": product = sys.argv[2] if product == "bufr": EXCLUDED.append(product) elif product == "grib": EXCLUDED.extend(["grib1", "grib2"]) else: assert False, "Invalid product %s" % product pos = 3 dirs = [os.path.realpath(x) for x in sys.argv[pos:-1]] print("Directories: ", dirs) print("Excluding: ", EXCLUDED) FILES = {} SIZES = {} NAMES = [] CHUNK = 16 * 1024 * 1024 # chunk size in bytes # Binary to ASCII function. Different in Python 2 and 3 try: str(b"\x23\x20", "ascii") ascii = lambda x: str(x, "ascii") # Python 3 except: ascii = lambda x: str(x) # Python 2 def get_outfile_name(base, count): return base + "_" + str(count).zfill(3) + ".c" # The last argument is the base name of the generated C file(s) output_file_base = sys.argv[-1] buffer = None fcount = -1 for directory in dirs: # print("MEMFS: directory=", directory) dname = os.path.basename(directory) NAMES.append(dname) for dirpath, dirnames, files in os.walk(directory, followlinks=True): # Prune the walk by modifying the dirnames in-place dirnames[:] = [dirname for dirname in dirnames if dirname not in EXCLUDED] for name in files: if buffer is None: fcount += 1 opath = get_outfile_name(output_file_base, fcount) print("MEMFS: Generating output:", opath) buffer = open(opath, "w") full = "%s/%s" % (dirpath, name) _, ext = os.path.splitext(full) if ext not in [".def", ".table", ".tmpl", ".list", ".txt"]: continue if name == "CMakeLists.txt": continue full = full.replace("\\", "/") fname = full[full.find("/%s/" % (dname,)) :] # print("MEMFS: Add ", fname) name = re.sub(r"\W", "_", fname) assert name not in FILES assert name not in SIZES FILES[name] = fname SIZES[name] = os.path.getsize(full) txt = "const unsigned char %s[] = {" % (name,) buffer.write(txt) with open(full, "rb") as f: i = 0 # Python 2 # contents_hex = f.read().encode("hex") # Python 2 and 3 contents_hex = binascii.hexlify(f.read()) # Read two characters at a time and convert to C hex # e.g. 23 -> 0x23 for n in range(0, len(contents_hex), 2): twoChars = ascii(contents_hex[n : n + 2]) txt = "0x%s," % (twoChars,) buffer.write(txt) i += 1 if (i % 20) == 0: buffer.write("\n") buffer.write("};\n") if buffer.tell() >= CHUNK: buffer.close() buffer = None if buffer is not None: buffer.close() # The number of generated C files is hard coded. # See memfs/CMakeLists.txt assert fcount == 6, fcount opath = output_file_base + "_final.c" print("MEMFS: Generating output: ", opath) g = open(opath, "w") print( """ #include "eccodes_config.h" #ifdef ECCODES_HAVE_FMEMOPEN #define _GNU_SOURCE #endif #include #include #include #include #include "eccodes_windef.h" """, file=g, ) # Write extern variables with sizes for k, v in SIZES.items(): print("extern const unsigned char %s[%d];" % (k, v), file=g) print( """ struct entry { const char* path; const unsigned char* content; size_t length; } entries[] = { """, file=g, ) items = [(v, k) for k, v in FILES.items()] for k, v in sorted(items): print('{"/MEMFS%s", &%s[0], sizeof(%s) / sizeof(%s[0]) },' % (k, v, v, v), file=g) print( """}; #if defined(ECCODES_HAVE_FUNOPEN) && !defined(ECCODES_HAVE_FMEMOPEN) typedef struct mem_file { const char* buffer; size_t size; size_t pos; } mem_file; static int read_mem(void *data, char * buf, int len) { mem_file* f = (mem_file*)data; int n = len; if(f->pos + n > f->size) { n = f->size - f->pos; } memcpy(buf, f->buffer + f->pos, n); f->pos += n; return n; } static int write_mem(void* data, const char* buf, int len) { mem_file* f = (mem_file*)data; return -1; } static fpos_t seek_mem(void *data, fpos_t pos, int whence) { mem_file* f = (mem_file*)data; long newpos = 0; switch (whence) { case SEEK_SET: newpos = (long)pos; break; case SEEK_CUR: newpos = (long)f->pos + (long)pos; break; case SEEK_END: newpos = (long)f->size - (long)pos; break; default: return -1; break; } if(newpos < 0) { newpos = 0; } if(newpos > f->size) { newpos = f->size; } f->pos = newpos; return newpos; } static int close_mem(void *data) { mem_file* f = (mem_file*)data; free(f); return 0; } static FILE* fmemopen(const char* buffer, size_t size, const char* mode){ mem_file* f = (mem_file*)calloc(sizeof(mem_file), 1); if(!f) return NULL; f->buffer = buffer; f->size = size; return funopen(f, &read_mem, &write_mem, &seek_mem, &close_mem); } #elif defined(ECCODES_ON_WINDOWS) #include #include #include static FILE *fmemopen(void* buffer, size_t size, const char* mode) { char path[MAX_PATH - 13]; if (!GetTempPath(sizeof(path), path)) return NULL; char filename[MAX_PATH + 1]; if (!GetTempFileName(path, "eccodes", 0, filename)) return NULL; HANDLE h = CreateFile(filename, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_ALWAYS, FILE_ATTRIBUTE_TEMPORARY | FILE_FLAG_DELETE_ON_CLOSE, NULL); if (h == INVALID_HANDLE_VALUE) return NULL; int fd = _open_osfhandle((intptr_t)h, _O_RDWR); if (fd < 0) { CloseHandle(h); return NULL; } FILE* f = _fdopen(fd, "w+"); if (!f) { _close(fd); return NULL; } fwrite(buffer, size, 1, f); rewind(f); return f; } #endif static size_t entries_count = sizeof(entries)/sizeof(entries[0]); static const unsigned char* find(const char* path, size_t* length) { size_t i; for(i = 0; i < entries_count; i++) { if(strcmp(path, entries[i].path) == 0) { /*printf("Found in MEMFS %s\\n", path);*/ *length = entries[i].length; return entries[i].content; } } return NULL; } int codes_memfs_exists(const char* path) { size_t dummy; return find(path, &dummy) != NULL; } FILE* codes_memfs_open(const char* path) { size_t size; const unsigned char* mem = find(path, &size); if(!mem) { return NULL; } return fmemopen((void*)mem, size, "r"); } """, file=g, ) print("Finished") print("MEMFS: done", time.time() - start)