From e44e3482bdb4d0ebde2d8b41830ac2cdb07948fb Mon Sep 17 00:00:00 2001 From: Yang Zhang Date: Fri, 28 Aug 2015 09:58:54 +0800 Subject: Add qemu 2.4.0 Change-Id: Ic99cbad4b61f8b127b7dc74d04576c0bcbaaf4f5 Signed-off-by: Yang Zhang --- qemu/roms/openbios/kernel/bootstrap.c | 1322 +++++++++++++++++++++++++++++++++ 1 file changed, 1322 insertions(+) create mode 100644 qemu/roms/openbios/kernel/bootstrap.c (limited to 'qemu/roms/openbios/kernel/bootstrap.c') diff --git a/qemu/roms/openbios/kernel/bootstrap.c b/qemu/roms/openbios/kernel/bootstrap.c new file mode 100644 index 000000000..520d7b48c --- /dev/null +++ b/qemu/roms/openbios/kernel/bootstrap.c @@ -0,0 +1,1322 @@ +/* tag: forth bootstrap environment + * + * Copyright (C) 2003-2006 Stefan Reinauer, Patrick Mauritz + * + * See the file "COPYING" for further information about + * the copyright and warranty status of this work. + */ + +#include "sysinclude.h" +#include +#include +#include +#include +#include +#include +#include +#include + +#ifdef __GLIBC__ +#define _GNU_SOURCE +#include +#endif + +#include "config.h" +#include "kernel/stack.h" +#include "sysinclude.h" +#include "kernel/kernel.h" +#include "dict.h" +#include "cross.h" +#include "openbios-version.h" + +#define MAX_PATH_LEN 256 + +#define MEMORY_SIZE (1024*1024) /* 1M ram for hosted system */ +#define DICTIONARY_SIZE (256*1024) /* 256k for the dictionary */ +#define TRAMPOLINE_SIZE (4*sizeof(cell)) /* 4 cells for the trampoline */ + +/* state variables */ +static ucell *latest, *state, *base; +static ucell *memory; +ucell *trampoline; + +/* local variables */ +static int errors = 0; +static int segfault = 0; +static int verbose = 0; + +#define MAX_SRC_FILES 128 + +static FILE *srcfiles[MAX_SRC_FILES]; +static char *srcfilenames[MAX_SRC_FILES]; +static int srclines[MAX_SRC_FILES]; +static unsigned int cursrc = 0; + +static char *srcbasedict; + +/* console variables */ +static FILE *console; + +#ifdef NATIVE_BITWIDTH_SMALLER_THAN_HOST_BITWIDTH +unsigned long base_address; +#endif + +/* include path handling */ +typedef struct include_path include; +struct include_path { + const char *path; + include *next; +}; + +static include includes = { ".", NULL }; +static FILE *depfile; + +static ucell * relocation_address=NULL; +static int relocation_length=0; + +/* the word names are used to generate the prim words in the + * dictionary. This is done by the C written interpreter. + */ +static const char *wordnames[] = { + "(semis)", "", "(lit)", "", "", "", "", "(do)", "(?do)", "(loop)", + "(+loop)", "", "", "", "dup", "2dup", "?dup", "over", "2over", "pick", "drop", + "2drop", "nip", "roll", "rot", "-rot", "swap", "2swap", ">r", "r>", + "r@", "depth", "depth!", "rdepth", "rdepth!", "+", "-", "*", "u*", + "mu/mod", "abs", "negate", "max", "min", "lshift", "rshift", ">>a", + "and", "or", "xor", "invert", "d+", "d-", "m*", "um*", "@", "c@", + "w@", "l@", "!", "+!", "c!", "w!", "l!", "=", ">", "<", "u>", "u<", + "sp@", "move", "fill", "(emit)", "(key?)", "(key)", "execute", + "here", "here!", "dobranch", "do?branch", "unaligned-w@", + "unaligned-w!", "unaligned-l@", "unaligned-l!", "ioc@", "iow@", + "iol@", "ioc!", "iow!", "iol!", "i", "j", "call", "sys-debug", + "$include", "$encode-file", "(debug", "(debug-off)" +}; + +/* + * dictionary related functions. + */ + +/* + * Compare two dictionaries constructed at different addresses. When + * the cells don't match, a need for relocation is detected and the + * corresponding bit in reloc_table bitmap is set. + */ +static void relocation_table(unsigned char * dict_one, unsigned char *dict_two, int length) +{ + ucell *d1=(ucell *)dict_one, *d2=(ucell *)dict_two; + ucell *reloc_table; + int pos, bit; + int l=(length+(sizeof(cell)-1))/sizeof(ucell), i; + + /* prepare relocation table */ + relocation_length=(length+BITS-1)/BITS; + reloc_table = malloc(relocation_length*sizeof(cell)); + memset(reloc_table,0,relocation_length*sizeof(cell)); + + for (i=0; i= pointer2cell(dict_one) && + // d1[i] <= pointer2cell(dict_one+length)) + // printk("\nWARNING: inconsistent relocation (%x:%x)!\n", d1[i], d2[i]); + } else { + /* This is a pointer, it needs relocation, d2==dict */ + reloc_table[pos] |= target_ucell((ucell)1ULL << bit); + d2[i] = target_ucell(target_ucell(d2[i]) - pointer2cell(d2)); + } + } + +#ifdef CONFIG_DEBUG_DICTIONARY + printk("dict1 %lx dict2 %lx dict %lx\n",dict_one, dict_two, dict); + for (i=0; i< relocation_length ; i++) + printk("reloc %d %lx\n",i+1, reloc_table[i]); +#endif + relocation_address=reloc_table; +} + +static void write_dictionary(const char *filename) +{ + FILE *f; + unsigned char *write_data, *walk_data; + int write_len; + dictionary_header_t *header; + u32 checksum=0; + + /* + * get memory for dictionary + */ + + write_len = sizeof(dictionary_header_t)+dicthead+relocation_length*sizeof(cell); + write_data = malloc(write_len); + if(!write_data) { + printk("panic: can't allocate memory for output dictionary (%d" + " bytes\n", write_len); + exit(1); + } + memset(write_data, 0, write_len); + + /* + * prepare dictionary header + */ + + header = (dictionary_header_t *)write_data; + *header = (dictionary_header_t){ + .signature = DICTID, + .version = 2, + .cellsize = sizeof(ucell), +#ifdef CONFIG_BIG_ENDIAN + .endianess = -1, +#else + .endianess = 0, +#endif + .checksum = 0, + .compression = 0, + .relocation = -1, + .length = target_ulong((uint32_t)dicthead), + .last = target_ucell((ucell)((unsigned long)last + - (unsigned long)dict)), + }; + + /* + * prepare dictionary data + */ + + walk_data=write_data+sizeof(dictionary_header_t); + memcpy (walk_data, dict, dicthead); + + /* + * prepare relocation data. + * relocation_address is zero when writing a dictionary core. + */ + + if (relocation_address) { +#ifdef CONFIG_DEBUG_DICTIONARY + printk("writing %d reloc cells \n",relocation_length); +#endif + walk_data += dicthead; + memcpy(walk_data, relocation_address, + relocation_length*sizeof(cell)); + /* free relocation information */ + free(relocation_address); + relocation_address=NULL; + } else { + header->relocation=0; + } + + /* + * Calculate Checksum + */ + + walk_data=write_data; + while (walk_datachecksum=target_long(checksum); + + if (verbose) { + dump_header(header); + } + + f = fopen(filename, "w"); + if (!f) { + printk("panic: can't write to dictionary '%s'.\n", filename); + exit(1); + } + + fwrite(write_data, write_len, 1, f); + + free(write_data); + fclose(f); + +#ifdef CONFIG_DEBUG_DICTIONARY + printk("wrote dictionary to file %s.\n", filename); +#endif +} + +/* + * Write dictionary as a list of ucell hex values to filename. Array + * header and end lines are not generated. + * + * Cells with relocations are output using the expression + * DICTIONARY_BASE + value. + * + * Define some helpful constants. + */ +static void write_dictionary_hex(const char *filename) +{ + FILE *f; + ucell *walk; + + f = fopen(filename, "w"); + if (!f) { + printk("panic: can't write to dictionary '%s'.\n", filename); + exit(1); + } + + for (walk = (ucell *)dict; walk < (ucell *)(dict + dicthead); walk++) { + int pos, bit, l; + ucell val; + + l = (walk - (ucell *)dict); + pos = l / BITS; + bit = l & ~(-BITS); + + val = read_ucell(walk); + if (relocation_address[pos] & target_ucell((ucell)1ULL << bit)) { + fprintf(f, "DICTIONARY_BASE + 0x%" FMT_CELL_x + ",\n", val); + } else { + fprintf(f, "0x%" FMT_CELL_x",\n", val); + } + } + + fprintf(f, "#define FORTH_DICTIONARY_LAST 0x%" FMT_CELL_x"\n", + (ucell)((unsigned long)last - (unsigned long)dict)); + fprintf(f, "#define FORTH_DICTIONARY_END 0x%" FMT_CELL_x"\n", + (ucell)dicthead); + fclose(f); + +#ifdef CONFIG_DEBUG_DICTIONARY + printk("wrote dictionary to file %s.\n", filename); +#endif +} + +static ucell read_dictionary(char *fil) +{ + int ilen; + ucell ret; + char *mem; + FILE *f; + struct stat finfo; + + if (stat(fil, &finfo)) + return 0; + + ilen = finfo.st_size; + + if ((mem = malloc(ilen)) == NULL) { + printk("panic: not enough memory.\n"); + exit(1); + } + + f = fopen(fil, "r"); + if (!f) { + printk("panic: can't open dictionary.\n"); + exit(1); + } + + if (fread(mem, ilen, 1, f) != 1) { + printk("panic: can't read dictionary.\n"); + fclose(f); + exit(1); + } + fclose(f); + + ret = load_dictionary(mem, ilen); + + free(mem); + return ret; +} + + +/* + * C Parser related functions + */ + +/* + * skipws skips all whitespaces (space, tab, newline) from the input file + */ + +static void skipws(FILE * f) +{ + int c; + while (!feof(f)) { + c = getc(f); + + if (c == ' ' || c == '\t') + continue; + + if (c == '\n') { + srclines[cursrc - 1]++; + continue; + } + + ungetc(c, f); + break; + } +} + +/* + * parse gets the next word from the input stream, delimited by + * delim. If delim is 0, any word delimiter will end the stream + * word delimiters are space, tab and newline. The resulting word + * will be put zero delimited to the char array line. + */ + +static int parse(FILE * f, char *line, char delim) +{ + int cnt = 0, c = 0; + + while (!feof(f)) { + c = getc(f); + + if (delim && c == delim) + break; + + if ((!delim) && (c == ' ' || c == '\t' || c == '\n')) + break; + + line[cnt++] = c; + } + + /* Update current line number */ + if (c == '\n') { + srclines[cursrc - 1]++; + } + + line[cnt] = 0; + + return cnt; +} + +/* + * parse_word is a small helper that skips whitespaces before a word. + * it's behaviour is similar to the forth version parse-word. + */ + +static void parse_word(FILE * f, char *line) +{ + skipws(f); + parse(f, line, 0); +} + + +static void writestring(const char *str) +{ + unsigned int i; + for (i = 0; i < strlen(str); i++) { + dict[dicthead + i] = str[i]; + } + dicthead += i + 1; + dict[dicthead - 1] = (char) strlen(str) + 128; +} + +#define writebyte(value) {write_byte(dict+dicthead,value); dicthead++;} +#define writecell(value) {write_cell(dict+dicthead, value); dicthead+=sizeof(cell);} + +/* + * reveal a word, ie. make it visible. + */ + +static void reveal(void) +{ + *last = *latest; +} + +/* + * dictionary padding + */ + +static void paddict(ucell align) +{ + while (dicthead % align != 0) + writebyte(0); +} + +/* + * generic forth word creator function. + */ + +static void fcreate(const char *word, ucell cfaval) +{ + if (strlen(word) == 0) { + printk("WARNING: tried to create unnamed word.\n"); + return; + } + + writestring(word); + /* get us at least 1 byte for flags */ + writebyte(0); + paddict(sizeof(cell)); + /* set flags high bit. */ + dict[dicthead - 1] = 128; + /* lfa and cfa */ + writecell(read_ucell(latest)); + *latest = target_ucell(pointer2cell(dict) + dicthead - sizeof(cell)); + writecell(cfaval); +} + + +static ucell *buildvariable(const char *name, cell defval) +{ + fcreate(name, DOVAR); /* see dict.h for DOVAR and other CFA ids */ + writecell(defval); + return (ucell *) (dict + dicthead - sizeof(cell)); +} + +static void buildconstant(const char *name, cell defval) +{ + fcreate(name, DOCON); /* see dict.h for DOCON and other CFA ids */ + writecell(defval); +} + +static void builddefer(const char *name) +{ + fcreate(name, DODFR); /* see dict.h for DODFR and other CFA ids */ + writecell((ucell)0); + writecell((ucell)findword("(semis)")); +} + +/* + * Include file handling + */ + +static void add_includepath(char *path) +{ + include *incl = &includes; + include *newpath; + + while (incl->next) + incl = incl->next; + + newpath = malloc(sizeof(include)); + if (!newpath) { + printk("panic: not enough memory for include path.\n"); + exit(1); + } + + incl->next = newpath; + newpath->path = path; + newpath->next = NULL; +} + + +static FILE *fopen_include(const char *fil) +{ + char fullpath[MAX_PATH_LEN]; + FILE *ret; + include *incl = &includes; + + while (incl) { + snprintf(fullpath, sizeof(fullpath), "%s/%s", incl->path, fil); + + ret = fopen(fullpath, "r"); + if (ret != NULL) { + +#ifdef CONFIG_DEBUG_INTERPRETER + printk("Including '%s'\n", fil); +#endif + srcfilenames[cursrc] = strdup(fil); + srclines[cursrc] = 1; + srcfiles[cursrc++] = ret; + + if (depfile) { + fprintf(depfile, " %s", fullpath); + } + + return ret; + } + + incl = incl->next; + } + return NULL; +} + + +/* + * Forth exception handler + */ + +void exception(cell no) +{ + printk("%s:%d: ", srcfilenames[cursrc - 1], srclines[cursrc - 1]); + + /* See also forth/bootstrap/interpreter.fs */ + switch (no) { + case -1: + case -2: + printk("Aborted.\n"); + break; + case -3: + printk("Stack Overflow.\n"); + break; + case -4: + printk("Stack Underflow.\n"); + break; + case -5: + printk("Return Stack Overflow.\n"); + break; + case -6: + printk("Return Stack Underflow.\n"); + break; + case -19: + printk("undefined word.\n"); + break; + case -21: + printk("out of memory.\n"); + break; + case -33: + printk("undefined method.\n"); + break; + case -34: + printk("no such device.\n"); + break; + default: + printk("error %" FMT_CELL_d " occured.\n", no); + } + exit(1); +} + + +/* + * This is the C version of the forth interpreter + */ + +static int interpret_source(char *fil) +{ + FILE *f; + char tib[160]; + cell num; + char *test; + + const ucell SEMIS = (ucell)findword("(semis)"); + const ucell LIT = (ucell)findword("(lit)"); + const ucell DOBRANCH = (ucell)findword("dobranch"); + + if ((f = fopen_include(fil)) == NULL) { + printk("error while loading source file '%s'\n", fil); + errors++; + exit(1); + } + + /* FIXME: We should read this file at + * once. No need to get it char by char + */ + + while (!feof(f)) { + xt_t res; + parse_word(f, tib); + + /* if there is actually no word, we continue right away */ + if (strlen(tib) == 0) { + continue; + } + + /* Checking for builtin words that are needed to + * bootstrap the forth base dictionary. + */ + + if (!strcmp(tib, "(")) { + parse(f, tib, ')'); + continue; + } + + if (!strcmp(tib, "\\")) { + parse(f, tib, '\n'); + continue; + } + + if (!strcmp(tib, ":")) { + parse_word(f, tib); + +#ifdef CONFIG_DEBUG_INTERPRETER + printk("create colon word %s\n\n", tib); +#endif + fcreate(tib, DOCOL); /* see dict.h for DOCOL and other CFA ids */ + *state = (ucell) (-1); + continue; + } + + if (!strcmp(tib, ";")) { +#ifdef CONFIG_DEBUG_INTERPRETER + printk("finish colon definition\n\n"); +#endif + writecell((cell)SEMIS); + *state = (ucell) 0; + reveal(); + continue; + } + + if (!strcasecmp(tib, "variable")) { + parse_word(f, tib); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("defining variable %s\n\n", tib); +#endif + buildvariable(tib, 0); + reveal(); + continue; + } + + if (!strcasecmp(tib, "constant")) { + parse_word(f, tib); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("defining constant %s\n\n", tib); +#endif + buildconstant(tib, POP()); + reveal(); + continue; + } + + if (!strcasecmp(tib, "value")) { + parse_word(f, tib); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("defining value %s\n\n", tib); +#endif + buildconstant(tib, POP()); + reveal(); + continue; + } + + if (!strcasecmp(tib, "defer")) { + parse_word(f, tib); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("defining defer word %s\n\n", tib); +#endif + builddefer(tib); + reveal(); + continue; + } + + if (!strcasecmp(tib, "include")) { + parse_word(f, tib); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("including file %s\n\n", tib); +#endif + interpret_source(tib); + continue; + } + + if (!strcmp(tib, "[']")) { + xt_t xt; + parse_word(f, tib); + xt = findword(tib); + if (*state == 0) { +#ifdef CONFIG_DEBUG_INTERPRETER + printk + ("writing address of %s to stack\n\n", + tib); +#endif + PUSH_xt(xt); + } else { +#ifdef CONFIG_DEBUG_INTERPRETER + printk("writing lit, addr(%s) to dict\n\n", + tib); +#endif + writecell(LIT); /* lit */ + writecell((cell)xt); + } + continue; + /* we have no error detection here */ + } + + if (!strcasecmp(tib, "s\"")) { + int cnt; + cell loco; + + cnt = parse(f, tib, '"'); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("compiling string %s\n", tib); +#endif + loco = dicthead + (6 * sizeof(cell)); + writecell(LIT); + writecell(pointer2cell(dict) + loco); + writecell(LIT); + writecell((ucell)cnt); + writecell(DOBRANCH); + loco = cnt + sizeof(cell) - 1; + loco &= ~(sizeof(cell) - 1); + writecell(loco); + memcpy(dict + dicthead, tib, cnt); + dicthead += cnt; + paddict(sizeof(cell)); + continue; + } + + /* look if tib is in dictionary. */ + /* should the dictionary be searched before the builtins ? */ + res = findword(tib); + if (res) { + u8 flags = read_byte((u8*)cell2pointer(res) - + sizeof(cell) - 1); +#ifdef CONFIG_DEBUG_INTERPRETER + printk("%s is 0x%" FMT_CELL_x "\n", tib, (ucell) res); +#endif + if (!(*state) || (flags & 3)) { +#ifdef CONFIG_DEBUG_INTERPRETER + printk("executing %s, %" FMT_CELL_d + " (flags: %s %s)\n", + tib, res, + (flags & 1) ? "immediate" : "", + (flags & 2) ? "compile-only" : ""); +#endif + PC = (ucell)res; + enterforth(res); + } else { +#ifdef CONFIG_DEBUG_INTERPRETER + printk("writing %s to dict\n\n", tib); +#endif + writecell((cell)res); + } + continue; + } + + /* if not look if it's a number */ + if (tib[0] == '-') + num = strtoll(tib, &test, read_ucell(base)); + else + num = strtoull(tib, &test, read_ucell(base)); + + + if (*test != 0) { + /* what is it?? */ + printk("%s:%d: %s is not defined.\n\n", srcfilenames[cursrc - 1], srclines[cursrc - 1], tib); + errors++; +#ifdef CONFIG_DEBUG_INTERPRETER + continue; +#else + return -1; +#endif + } + + if (*state == 0) { +#ifdef CONFIG_DEBUG_INTERPRETER + printk("pushed %" FMT_CELL_x " to stack\n\n", num); +#endif + PUSH(num); + } else { +#ifdef CONFIG_DEBUG_INTERPRETER + printk("writing lit, %" FMT_CELL_x " to dict\n\n", num); +#endif + writecell(LIT); /* lit */ + writecell(num); + } + } + + fclose(f); + cursrc--; + + return 0; +} + +static int build_dictionary(void) +{ + ucell lfa = 0; + unsigned int i; + + /* we need a temporary place for latest outside the dictionary */ + latest = &lfa; + + /* starting a new dictionary: clear dicthead */ + dicthead = 0; + +#ifdef CONFIG_DEBUG_DICTIONARY + printk("building dictionary, %d primitives.\nbuilt words:", + sizeof(wordnames) / sizeof(void *)); +#endif + + for (i = 0; i < sizeof(wordnames) / sizeof(void *); i++) { + if (strlen(wordnames[i]) != 0) { + fcreate((char *) wordnames[i], i); +#ifdef CONFIG_DEBUG_DICTIONARY + printk(" %s", wordnames[i]); +#endif + } + } +#ifdef CONFIG_DEBUG_DICTIONARY + printk(".\n"); +#endif + + /* get last/latest and state */ + state = buildvariable("state", 0); + last = buildvariable("forth-last", 0); + latest = buildvariable("latest", 0); + + *latest = target_ucell(pointer2cell(latest)-2*sizeof(cell)); + + base=buildvariable("base", 10); + + buildconstant("/c", sizeof(u8)); + buildconstant("/w", sizeof(u16)); + buildconstant("/l", sizeof(u32)); + buildconstant("/n", sizeof(ucell)); + buildconstant("/x", sizeof(u64)); + + reveal(); + if (verbose) { + printk("Dictionary initialization finished.\n"); + } + return 0; +} + +/* + * functions used by primitives + */ + +int availchar(void) +{ + int tmp; + if( cursrc < 1 ) { + interruptforth |= FORTH_INTSTAT_STOP; + /* return -1 in order to exit the loop in key() */ + return -1; + } + + tmp = getc( srcfiles[cursrc-1] ); + if (tmp != EOF) { + ungetc(tmp, srcfiles[cursrc-1]); + return -1; + } + + fclose(srcfiles[--cursrc]); + + return availchar(); +} + +int get_inputbyte( void ) +{ + int tmp; + + if( cursrc < 1 ) { + interruptforth |= FORTH_INTSTAT_STOP; + return 0; + } + + tmp = getc( srcfiles[cursrc-1] ); + + /* Update current line number */ + if (tmp == '\n') { + srclines[cursrc - 1]++; + } + + if (tmp != EOF) { + return tmp; + } + + fclose(srcfiles[--cursrc]); + + return get_inputbyte(); +} + +void put_outputbyte( int c ) +{ + if (console) + fputc(c, console); +} + +/* + * segmentation fault handler. linux specific? + */ + +static void +segv_handler(int signo __attribute__ ((unused)), + siginfo_t * si, void *context __attribute__ ((unused))) +{ + static int count = 0; + ucell addr = 0xdeadbeef; + + if (count) { + printk("Died while dumping forth dictionary core.\n"); + goto out; + } + + count++; + + if (PC >= pointer2cell(dict) && PC <= pointer2cell(dict) + dicthead) + addr = read_cell(cell2pointer(PC)); + + printk("panic: segmentation violation at %p\n", (char *)si->si_addr); + printk("dict=%p here=%p(dict+0x%" FMT_CELL_x ") pc=0x%" FMT_CELL_x "(dict+0x%" FMT_CELL_x ")\n", + dict, dict + dicthead, dicthead, PC, PC - pointer2cell(dict)); + printk("dstackcnt=%d rstackcnt=%d instruction=%" FMT_CELL_x "\n", + dstackcnt, rstackcnt, addr); + + printdstack(); + printrstack(); + + printk("Writing dictionary core file\n"); + write_dictionary("forth.dict.core"); + + out: + exit(1); +} + +/* + * allocate memory and prepare engine for memory management. + */ + +static void init_memory(void) +{ + memset(memory, 0, MEMORY_SIZE); + + /* we push start and end of memory to the stack + * so that it can be used by the forth word QUIT + * to initialize the memory allocator. + * Add a cell to the start address so we don't end + * up with a start address of zero during bootstrap + */ + + PUSH(pointer2cell(memory)+sizeof(cell)); + PUSH(pointer2cell(memory) + MEMORY_SIZE-1); +} + + +void +include_file( const char *name ) +{ + FILE *file; + + if( cursrc >= sizeof(srcfiles)/sizeof(srcfiles[0]) ) { + printk("\npanic: Maximum include depth reached!\n"); + exit(1); + } + + file = fopen_include( name ); + if( !file ) { + printk("\npanic: Failed opening file '%s'\n", name ); + exit(1); + } +} + + +void +encode_file( const char *name ) +{ + FILE *file = fopen_include(name); + int size; + + if( !file ) { + printk("\npanic: Can't open '%s'\n", name ); + exit(1); + } + fseek( file, 0, SEEK_END ); + size = ftell( file ); + fseek( file, 0, SEEK_SET ); + + if (verbose) { + printk("\nEncoding %s [%d bytes]\n", name, size ); + } + fread( dict + dicthead, size, 1, file ); + PUSH( pointer2cell(dict + dicthead) ); + PUSH( size ); + dicthead += size; + paddict(sizeof(cell)); +} + + +static void run_dictionary(char *basedict, char *confile) +{ + if(!basedict) + return; + + read_dictionary(basedict); + PC = (ucell)findword("initialize"); + + if (!PC) { + if (verbose) { + printk("Unable to find initialize word in dictionary %s; ignoring\n", basedict); + } + return; + } + + if(!srcfiles[0]) { + cursrc = 1; + srcfiles[cursrc-1] = stdin; + } + + dstackcnt=0; + rstackcnt=0; + + init_memory(); + if (verbose) + printk("Jumping to dictionary %s...\n", basedict); + + /* If a console file has been specified, open it */ + if (confile) + console = fopen(confile, "w"); + + srcbasedict = basedict; + + enterforth((xt_t)PC); + + /* Close the console file */ + if (console) + fclose(console); +} + +static void new_dictionary(const char *source) +{ + build_dictionary(); + + interpret_source((char *)source); + + if (verbose || errors > 0) { + printk("interpretion finished. %d errors occured.\n", + errors); + } +} + +/* + * main loop + */ + +#define BANNER "OpenBIOS bootstrap kernel. (C) 2003-2006 Patrick Mauritz, Stefan Reinauer\n"\ + "This software comes with absolutely no warranty. "\ + "All rights reserved.\n\n" + +#ifdef __GLIBC__ +#define USAGE "Usage: %s [options] [dictionary file|source file]\n\n" \ + " -h|--help show this help\n" \ + " -V|--version print version and exit\n" \ + " -v|--verbose print debugging information\n" \ + " -I|--include dir add dir to include path\n" \ + " -d|--source-dictionary bootstrap.dict\n" \ + " use this dictionary as base\n" \ + " -D|--target-dictionary output.dict\n" \ + " write to output.dict\n" \ + " -c|--console output.log\n" \ + " write kernel console output to log file\n" \ + " -s|--segfault install segfault handler\n" \ + " -M|--dependency-dump file\n" \ + " dump dependencies in Makefile format\n\n" \ + " -x|--hexdump output format is C language hex dump\n" +#else +#define USAGE "Usage: %s [options] [dictionary file|source file]\n\n" \ + " -h show this help\n" \ + " -V print version and exit\n" \ + " -v print debugging information\n" \ + " -I add dir to include path\n" \ + " -d bootstrap.dict\n" \ + " use this dictionary as base\n" \ + " -D output.dict\n" \ + " write to output.dict\n" \ + " -c output.log\n" \ + " write kernel console output to log file\n" \ + " -s install segfault handler\n\n" \ + " -M file dump dependencies in Makefile format\n\n" \ + " -x output format is C language hex dump\n" +#endif + +int main(int argc, char *argv[]) +{ + struct sigaction sa; + + unsigned char *ressources=NULL; /* All memory used by us */ + const char *dictname = NULL; + char *basedict = NULL; + char *consolefile = NULL; + char *depfilename = NULL; + + unsigned char *bootstrapdict[2]; + int c, cnt, hexdump = 0; + + const char *optstring = "VvhsI:d:D:c:M:x?"; + + while (1) { +#ifdef __GLIBC__ + int option_index = 0; + static struct option long_options[] = { + {"version", 0, NULL, 'V'}, + {"verbose", 0, NULL, 'v'}, + {"help", 0, NULL, 'h'}, + {"segfault", 0, NULL, 's'}, + {"include", 1, NULL, 'I'}, + {"source-dictionary", 1, NULL, 'd'}, + {"target-dictionary", 1, NULL, 'D'}, + {"console", 1, NULL, 'c'}, + {"dependency-dump", 1, NULL, 'M'}, + {"hexdump", 0, NULL, 'x'}, + }; + + /* + * option handling + */ + + c = getopt_long(argc, argv, optstring, long_options, + &option_index); +#else + c = getopt(argc, argv, optstring); +#endif + if (c == -1) + break; + + switch (c) { + case 'V': + printk("Version " OPENBIOS_VERSION_STR "\n"); + return 0; + case 'h': + case '?': + printk("Version " OPENBIOS_VERSION_STR "\n" USAGE, + argv[0]); + return 0; + case 'v': + verbose = 1; + break; + case 's': + segfault = 1; + break; + case 'I': +#ifdef CONFIG_DEBUG_INTERPRETER + printk("adding '%s' to include path\n", optarg); +#endif + add_includepath(optarg); + break; + case 'd': + if (!basedict) { + basedict = optarg; + } + break; + case 'D': + if(!dictname) { + dictname = optarg; + } + break; + case 'c': + if (!consolefile) { + consolefile = optarg; + } + break; + case 'M': + if (!depfilename) { + depfilename = optarg; + } + break; + case 'x': + hexdump = 1; + break; + default: + return 1; + } + } + + if (!dictname) { + dictname = "bootstrap.dict"; + } + if (verbose) { + printk(BANNER); + printk("Using source dictionary '%s'\n", basedict); + printk("Dumping final dictionary to '%s'\n", dictname); + printk("Dumping dependencies to '%s'\n", depfilename); + } + + if (argc < optind) { + printk(USAGE, argv[0]); + return 1; + } + + if (depfilename) { + depfile = fopen(depfilename, "w"); + if (!depfile) { + printk("panic: can't write to dependency file '%s'.\n", + depfilename); + exit(1); + } + fprintf(depfile, "%s:", dictname); + } + + /* + * Get all required resources + */ + + + ressources = malloc(MEMORY_SIZE + (2 * DICTIONARY_SIZE) + TRAMPOLINE_SIZE); + if (!ressources) { + printk("panic: not enough memory on host system.\n"); + return 1; + } + +#ifdef NATIVE_BITWIDTH_SMALLER_THAN_HOST_BITWIDTH + base_address=(unsigned long)ressources; +#endif + + memory = (ucell *)ressources; + + bootstrapdict[0] = ressources + MEMORY_SIZE; + bootstrapdict[1] = ressources + MEMORY_SIZE + DICTIONARY_SIZE; + trampoline = (ucell *)(ressources + MEMORY_SIZE + DICTIONARY_SIZE + DICTIONARY_SIZE); + +#ifdef CONFIG_DEBUG_INTERPRETER + printf("memory: %p\n",memory); + printf("dict1: %p\n",bootstrapdict[0]); + printf("dict2: %p\n",bootstrapdict[1]); + printf("trampoline: %p\n",trampoline); + printf("size=%d, trampoline_size=%d\n",MEMORY_SIZE + (2 * + DICTIONARY_SIZE) + TRAMPOLINE_SIZE, + TRAMPOLINE_SIZE); +#endif + + if (trampoline == NULL) { + /* We're using side effects which is to some extent nasty */ + printf("WARNING: no trampoline!\n"); + } else { + init_trampoline(trampoline); + } + + if (!segfault) { + if (verbose) + printk("Installing SIGSEGV handler..."); + + sa.sa_sigaction = segv_handler; + sigemptyset(&sa.sa_mask); + sa.sa_flags = SA_SIGINFO | SA_NODEFER; + sigaction(SIGSEGV, &sa, NULL); + + if (verbose) + printk("done.\n"); + } + + /* + * Now do the real work + */ + + for (cnt=0; cnt<2; cnt++) { + if (verbose) { + printk("Compiling dictionary %d/%d\n", cnt+1, 2); + } + dict=bootstrapdict[cnt]; + if(!basedict) { + new_dictionary(argv[optind]); + } else { + for (c=argc-1; c>=optind; c--) + include_file(argv[c]); + + run_dictionary(basedict, consolefile); + } + if (depfile) { + fprintf(depfile, "\n"); + fclose(depfile); + depfile = NULL; + } + if(errors) + break; + } + +#ifndef CONFIG_DEBUG_INTERPRETER + if (errors) + printk("dictionary not dumped to file.\n"); + else +#endif + { + relocation_table( bootstrapdict[0], bootstrapdict[1], dicthead); + if (hexdump) { + write_dictionary_hex(dictname); + } else { + write_dictionary(dictname); + } + } + + free(ressources); + + if (errors) + return 1; + else + return 0; +} -- cgit 1.2.3-korg