/* * misc/bximage.c * $Id: bximage.c,v 1.32 2006-06-16 07:29:33 vruppert Exp $ * * Create empty hard disk or floppy disk images for bochs. * */ #ifdef WIN32 # include # include # include #ifdef _MSC_VER # include #endif #endif #include #include #include #include #include #include "config.h" #include #include "../osdep.h" #define HDIMAGE_HEADERS_ONLY 1 #include "../iodev/hdimage.h" int bx_hdimage; int bx_fdsize_idx; int bx_hdsize; int bx_hdimagemode; int bx_interactive; char bx_filename[256]; typedef int (*WRITE_IMAGE)(FILE*, Bit64u); #ifdef WIN32 typedef int (*WRITE_IMAGE_WIN32)(HANDLE, Bit64u); #endif char *EOF_ERR = "ERROR: End of input"; char *rcsid = "$Id: bximage.c,v 1.32 2006-06-16 07:29:33 vruppert Exp $"; char *divider = "========================================================================"; /* menu data for choosing floppy/hard disk */ char *fdhd_menu = "\nDo you want to create a floppy disk image or a hard disk image?\nPlease type hd or fd. "; char *fdhd_choices[] = { "fd", "hd" }; int fdhd_n_choices = 2; /* menu data for choosing floppy size */ char *fdsize_menu = "\nChoose the size of floppy disk image to create, in megabytes.\nPlease type 0.16, 0.18, 0.32, 0.36, 0.72, 1.2, 1.44, 1.68, 1.72, or 2.88.\n "; char *fdsize_choices[] = { "0.16","0.18","0.32","0.36","0.72","1.2","1.44","1.68","1.72","2.88" }; int fdsize_n_choices = 10; /* menu data for choosing disk mode */ char *hdmode_menu = "\nWhat kind of image should I create?\nPlease type flat, sparse or growing. "; char *hdmode_choices[] = {"flat", "sparse", "growing" }; int hdmode_n_choices = 3; void myexit (int code) { #ifdef WIN32 printf ("\nPress any key to continue\n"); getch(); #endif exit(code); } /* stolen from main.cc */ void bx_center_print (FILE *file, char *line, int maxwidth) { int imax; int i; imax = (maxwidth - strlen(line)) >> 1; for (i=0; imax) { printf ("Your choice (%s) was not an integer between %d and %d.\n\n", clean, min, max); } else { // choice is okay *out = n; return 0; } } } int ask_menu (char *prompt, int n_choices, char *choice[], int the_default, int *out) { char buffer[1024]; char *clean; int i; *out = -1; while (1) { printf ("%s", prompt); printf ("[%s] ", choice[the_default]); if (!fgets (buffer, sizeof(buffer), stdin)) return -1; clean = clean_string (buffer); if (strlen(clean) < 1) { // empty line, use the default *out = the_default; return 0; } for (i=0; i0) printf (", "); printf ("%s", choice[i]); } printf ("\n"); } } int ask_yn (char *prompt, int the_default, int *out) { char buffer[16]; char *clean; *out = -1; while (1) { printf ("%s", prompt); printf ("[%s] ", the_default?"yes":"no"); if (!fgets (buffer, sizeof(buffer), stdin)) return -1; clean = clean_string (buffer); if (strlen(clean) < 1) { // empty line, use the default *out = the_default; return 0; } switch (tolower(clean[0])) { case 'y': *out=1; return 0; case 'n': *out=0; return 0; } printf ("Please type either yes or no.\n"); } } int ask_string (char *prompt, char *the_default, char *out) { char buffer[1024]; char *clean; out[0] = 0; printf ("%s", prompt); printf ("[%s] ", the_default); if (!fgets (buffer, sizeof(buffer), stdin)) return -1; clean = clean_string (buffer); if (strlen(clean) < 1) { // empty line, use the default strcpy (out, the_default); return 0; } strcpy (out, clean); return 0; } // fileset is like memset but for a file handle void fileset(FILE * fp, int c, size_t n) { #define BLOCK_SIZE (1024) int block[BLOCK_SIZE]; size_t left_to_write = n; memset(block, c, sizeof(block)); while (left_to_write > 0) { size_t write = sizeof(block); if (write > left_to_write) write = left_to_write; if (1 != fwrite(block, write, 1, fp)) { fclose (fp); fatal ("ERROR: The disk image is not complete - could not write data block!"); } left_to_write -= write; } } /* Create a suited redolog header */ void make_redolog_header(redolog_header_t *header, const char* type, Bit64u size) { Bit32u entries, extent_size, bitmap_size; Bit64u maxsize; // Set standard header values strcpy((char*)header->standard.magic, STANDARD_HEADER_MAGIC); strcpy((char*)header->standard.type, REDOLOG_TYPE); strcpy((char*)header->standard.subtype, type); header->standard.version = htod32(STANDARD_HEADER_VERSION); header->standard.header = htod32(STANDARD_HEADER_SIZE); entries = 512; bitmap_size = 1; // Compute #entries and extent size values do { static Bit32u flip=0; extent_size = 8 * bitmap_size * 512; header->specific.catalog = htod32(entries); header->specific.bitmap = htod32(bitmap_size); header->specific.extent = htod32(extent_size); maxsize = (Bit64u)entries * (Bit64u)extent_size; flip++; if(flip&0x01) bitmap_size *= 2; else entries *= 2; } while (maxsize < size); header->specific.disk = htod64(size); } /* produce a flat image file */ #ifdef WIN32 int make_flat_image_win32(HANDLE hFile, Bit64u sec) { LARGE_INTEGER pos; DWORD dwCount, errCode; USHORT mode; char buffer[1024]; SetLastError(NO_ERROR); mode = COMPRESSION_FORMAT_DEFAULT; dwCount = 0; memset(buffer, 0, 512); WriteFile(hFile, buffer, 512, &dwCount, NULL); // set the first sector to 0, Win98 doesn't zero out the file // if there is a write at/over the end DeviceIoControl(hFile, FSCTL_SET_COMPRESSION, &mode, sizeof(mode), NULL, 0, &dwCount, NULL); pos.u.LowPart = (unsigned long)((sec - 1) << 9); pos.u.HighPart = (unsigned long)((sec - 1) >> 23); pos.u.LowPart = SetFilePointer(hFile, pos.u.LowPart, &pos.u.HighPart, FILE_BEGIN); memset(buffer, 0, 512); if ((pos.u.LowPart == 0xffffffff && GetLastError() != NO_ERROR) || !WriteFile(hFile, buffer, 512, &dwCount, NULL) || dwCount != 512) { errCode = GetLastError(); CloseHandle(hFile); if (errCode == ERROR_DISK_FULL) { fatal ("\nERROR: Not enough space on disk for image!"); } else { sprintf(buffer, "\nERROR: Disk image creation failed with error code %i!", errCode); fatal (buffer); } } return 0; } #endif int make_flat_image(FILE *fp, Bit64u sec) { /* * seek to sec*512-1 and write a single character. * can't just do: fseek(fp, 512*sec-1, SEEK_SET) * because 512*sec may be too large for signed int. */ while (sec > 0) { /* temp <-- min(sec, 4194303) * 4194303 is (int)(0x7FFFFFFF/512) */ long temp = (long)((sec < 4194303) ? sec : 4194303); fseek(fp, 512*temp, SEEK_CUR); sec -= temp; } fseek(fp, -1, SEEK_CUR); if (fputc('\0', fp) == EOF) { fclose (fp); fatal ("\nERROR: The disk image is not complete! (image larger then free space?)"); } return 0; } /* produce a sparse image file */ int make_sparse_image(FILE *fp, Bit64u sec) { Bit64u numpages; sparse_header_t header; size_t sizesofar; size_t padtopagesize; memset(&header, 0, sizeof(header)); header.magic = htod32(SPARSE_HEADER_MAGIC); header.version = htod32(SPARSE_HEADER_VERSION); header.pagesize = htod32((1 << 10) * 32); // Use 32 KB Pages - could be configurable numpages = (sec / (dtoh32(header.pagesize) / 512)) + 1; header.numpages = htod32((Bit32u)numpages); header.disk = htod64(sec * 512); if (numpages != dtoh32(header.numpages)) { fclose (fp); fatal ("ERROR: The disk image is too large for a sparse image!"); // Could increase page size here. // But note this only happens at 128 Terabytes! } if (fwrite(&header, sizeof(header), 1, fp) != 1) { fclose (fp); fatal ("ERROR: The disk image is not complete - could not write header!"); } fileset(fp, 0xff, 4 * dtoh32(header.numpages)); sizesofar = SPARSE_HEADER_SIZE + (4 * dtoh32(header.numpages)); padtopagesize = dtoh32(header.pagesize) - (sizesofar & (dtoh32(header.pagesize) - 1)); fileset(fp, 0, padtopagesize); return 0; } /* produce a growing image file */ int make_growing_image(FILE *fp, Bit64u sec) { redolog_header_t header; Bit32u i, not_allocated = htod32(REDOLOG_PAGE_NOT_ALLOCATED); memset(&header, 0, sizeof(header)); make_redolog_header(&header, REDOLOG_SUBTYPE_GROWING, sec * 512); if (fwrite(&header, sizeof(header), 1, fp) != 1) { fclose (fp); fatal ("ERROR: The disk image is not complete - could not write header!"); } for (i=0; i 32255)) { printf ("Hard disk image size out of range\n\n"); ret = 0; } } else { printf ("Image type (fd/hd) not specified\n\n"); } } else if (!strcmp ("-q", argv[arg])) { bx_interactive = 0; } else if (argv[arg][0] == '-') { printf ("Unknown option: %s\n\n", argv[arg]); ret = 0; } else { strcpy(bx_filename, argv[arg]); } arg++; } if (bx_hdimage == -1) { bx_hdimage = 1; bx_fdsize_idx = 6; bx_interactive = 1; } if (bx_hdimage == 1) { if (bx_hdimagemode == -1) { bx_hdimagemode = 0; bx_interactive = 1; } if (bx_hdsize == -1) { bx_hdsize = 10; bx_interactive = 1; } } else { if (bx_fdsize_idx == -1) { bx_fdsize_idx = 6; bx_interactive = 1; } } if (!strlen(bx_filename)) { bx_interactive = 1; } return ret; } int main (int argc, char *argv[]) { Bit64s sectors = 0; char filename[256]; char bochsrc_line[256]; WRITE_IMAGE write_function=NULL; #ifdef WIN32 WRITE_IMAGE_WIN32 writefn_win32=NULL; #endif if (!parse_cmdline (argc, argv)) myexit(1); print_banner (); if (bx_interactive) { if (ask_menu (fdhd_menu, fdhd_n_choices, fdhd_choices, bx_hdimage, &bx_hdimage) < 0) fatal (EOF_ERR); } if (bx_hdimage) { unsigned int cyl; int hdsize, heads=16, spt=63; int mode; if (bx_interactive) { if (ask_menu (hdmode_menu, hdmode_n_choices, hdmode_choices, bx_hdimagemode, &mode) < 0) fatal (EOF_ERR); if (ask_int ("\nEnter the hard disk size in megabytes, between 1 and 129023\n", 1, 129023, bx_hdsize, &hdsize) < 0) fatal (EOF_ERR); } else { mode = bx_hdimagemode; hdsize = bx_hdsize; } cyl = (unsigned int) (hdsize*1024.0*1024.0/16.0/63.0/512.0); assert (cyl < 262144); sectors = cyl*heads*spt; printf ("\nI will create a '%s' hard disk image with\n", hdmode_choices[mode]); printf (" cyl=%d\n", cyl); printf (" heads=%d\n", heads); printf (" sectors per track=%d\n", spt); printf (" total sectors=" FMT_LL "d\n", sectors); printf (" total size=%.2f megabytes\n", (float)(Bit64s)(sectors/2)/1024.0); if (bx_interactive) { if (!strlen(bx_filename)) strcpy(bx_filename, "c.img"); if (ask_string ("\nWhat should I name the image?\n", bx_filename, filename) < 0) fatal (EOF_ERR); } else { strcpy(filename, bx_filename); } sprintf (bochsrc_line, "ata0-master: type=disk, path=\"%s\", mode=%s, cylinders=%d, heads=%d, spt=%d", filename, hdmode_choices[mode], cyl, heads, spt); switch (mode) { case 1: write_function=make_sparse_image; break; case 2: write_function=make_growing_image; break; default: #ifdef WIN32 writefn_win32=make_flat_image_win32; #else write_function=make_flat_image; #endif } } else { int fdsize, cyl=0, heads=0, spt=0; if (bx_interactive) { if (ask_menu (fdsize_menu, fdsize_n_choices, fdsize_choices, bx_fdsize_idx, &fdsize) < 0) fatal (EOF_ERR); } else { fdsize = bx_fdsize_idx; } switch (fdsize) { case 0: cyl=40; heads=1; spt=8; break; /* 0.16 meg */ case 1: cyl=40; heads=1; spt=9; break; /* 0.18 meg */ case 2: cyl=40; heads=2; spt=8; break; /* 0.32 meg */ case 3: cyl=40; heads=2; spt=9; break; /* 0.36 meg */ case 4: cyl=80; heads=2; spt=9; break; /* 0.72 meg */ case 5: cyl=80; heads=2; spt=15; break; /* 1.2 meg */ case 6: cyl=80; heads=2; spt=18; break; /* 1.44 meg */ case 7: cyl=80; heads=2; spt=21; break; /* 1.68 meg */ case 8: cyl=82; heads=2; spt=21; break; /* 1.72 meg */ case 9: cyl=80; heads=2; spt=36; break; /* 2.88 meg */ default: fatal ("ERROR: fdsize out of range"); } sectors = cyl*heads*spt; printf ("I will create a floppy image with\n"); printf (" cyl=%d\n", cyl); printf (" heads=%d\n", heads); printf (" sectors per track=%d\n", spt); printf (" total sectors=" FMT_LL "d\n", sectors); printf (" total bytes=" FMT_LL "d\n", sectors*512); if (bx_interactive) { if (!strlen(bx_filename)) strcpy(bx_filename, "a.img"); if (ask_string ("\nWhat should I name the image?\n", bx_filename, filename) < 0) fatal (EOF_ERR); } else { strcpy(filename, bx_filename); } sprintf (bochsrc_line, "floppya: image=\"%s\", status=inserted", filename); write_function=make_flat_image; } if (sectors < 1) fatal ("ERROR: Illegal disk size!"); if (strlen (filename) < 1) fatal ("ERROR: Illegal filename"); #ifdef WIN32 if (writefn_win32 != NULL) { make_image_win32 (sectors, filename, writefn_win32); } else #endif { make_image (sectors, filename, write_function); } printf ("\nI wrote " FMT_LL "u bytes to ", sectors*512); printf ("%s.\n", filename); printf ("\nThe following line should appear in your bochsrc:\n"); printf (" %s\n", bochsrc_line); #ifdef WIN32 if (OpenClipboard(NULL)) { HGLOBAL hgClip; EmptyClipboard(); hgClip = GlobalAlloc(GMEM_DDESHARE, (strlen(bochsrc_line) + 1)); strcpy((char *)GlobalLock(hgClip), bochsrc_line); GlobalUnlock(hgClip); SetClipboardData(CF_TEXT, hgClip); CloseClipboard(); printf("(The line is stored in your windows clipboard, use CTRL-V to paste)\n"); } #endif myexit(0); // make picky compilers (c++, gcc) happy, // even though we leave via 'myexit' just above return 0; }