/* * Copyright (c) 2017 rxi * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include #include #include #include #include #include "microtar.h" typedef struct { char name[100]; char mode[8]; char owner[8]; char group[8]; char size[12]; char mtime[12]; char checksum[8]; char type; char linkname[100]; char _padding[255]; } mtar_raw_header_t; static void * mtar_memset( void * s, int c, size_t n ){ unsigned char * p = ( unsigned char * ) s; while ( n-- ){ *p++ = ( unsigned char ) c; } return s; } #ifdef MTAR_OBJ size_t (*fread)(void *restrict, size_t size, size_t count, FILE *restrict)=NULL; size_t (*fwrite)(const void *restrict, size_t size, size_t count, FILE *restrict)=NULL; int (*fclose)(FILE *)=NULL; FILE* (*fopen)(const char *restrict, const char *restrict)=NULL; int (*fseek)(FILE *, long, int)=NULL; long (*ftell)(FILE *)=NULL; int (*sprintf)(char* buffer, const char* format, ...)=NULL; int (*sscanf)(const char*, const char *restrict, ...)=NULL; int (*strcmp)(const char * s1, const char* s2)=NULL; char* (*strchr)(const char* s, int c)=NULL; char* (*strcpy)(char* s1, const char* s2)=NULL; #endif static unsigned round_up(unsigned n, unsigned incr) { return n + (incr - n % incr) % incr; } static unsigned checksum(const mtar_raw_header_t* rh) { unsigned i; unsigned char *p = (unsigned char*) rh; unsigned res = 256; for (i = 0; i < offsetof(mtar_raw_header_t, checksum); i++) { res += p[i]; } for (i = offsetof(mtar_raw_header_t, type); i < sizeof(*rh); i++) { res += p[i]; } return res; } static int tread(mtar_t *tar, void *data, unsigned size) { int err = tar->read(tar, data, size); tar->pos += size; return err; } static int twrite(mtar_t *tar, const void *data, unsigned size) { int err = tar->write(tar, data, size); tar->pos += size; return err; } static int write_null_bytes(mtar_t *tar, int n) { int i, err; char nul = '\0'; for (i = 0; i < n; i++) { err = twrite(tar, &nul, 1); if (err) { return err; } } return MTAR_ESUCCESS; } static int raw_to_header(mtar_header_t *h, const mtar_raw_header_t *rh) { unsigned chksum1, chksum2; /* If the checksum starts with a null byte we assume the record is NULL */ if (*rh->checksum == '\0') { return MTAR_ENULLRECORD; } /* Build and compare checksum */ chksum1 = checksum(rh); sscanf(rh->checksum, "%o", &chksum2); if (chksum1 != chksum2) { return MTAR_EBADCHKSUM; } /* Load raw header into header */ sscanf(rh->mode, "%o", &h->mode); sscanf(rh->owner, "%o", &h->owner); sscanf(rh->size, "%o", &h->size); sscanf(rh->mtime, "%o", &h->mtime); h->type = rh->type; strcpy(h->name, rh->name); strcpy(h->linkname, rh->linkname); return MTAR_ESUCCESS; } static int header_to_raw(mtar_raw_header_t *rh, const mtar_header_t *h) { unsigned chksum; /* Load header into raw header */ mtar_memset(rh, 0, sizeof(*rh)); sprintf(rh->mode, "%o", h->mode); sprintf(rh->owner, "%o", h->owner); sprintf(rh->size, "%o", h->size); sprintf(rh->mtime, "%o", h->mtime); rh->type = h->type ? h->type : MTAR_TREG; strcpy(rh->name, h->name); strcpy(rh->linkname, h->linkname); /* Calculate and write checksum */ chksum = checksum(rh); sprintf(rh->checksum, "%06o", chksum); rh->checksum[7] = ' '; return MTAR_ESUCCESS; } const char* mtar_strerror(int err) { switch (err) { case MTAR_ESUCCESS : return "success"; case MTAR_EFAILURE : return "failure"; case MTAR_EOPENFAIL : return "could not open"; case MTAR_EREADFAIL : return "could not read"; case MTAR_EWRITEFAIL : return "could not write"; case MTAR_ESEEKFAIL : return "could not seek"; case MTAR_EBADCHKSUM : return "bad checksum"; case MTAR_ENULLRECORD : return "null record"; case MTAR_ENOTFOUND : return "file not found"; } return "unknown error"; } static int file_write(mtar_t *tar, const void *data, unsigned size) { unsigned res = fwrite(data, 1, size, tar->stream); return (res == size) ? MTAR_ESUCCESS : MTAR_EWRITEFAIL; } static int file_read(mtar_t *tar, void *data, unsigned size) { unsigned res = fread(data, 1, size, tar->stream); return (res == size) ? MTAR_ESUCCESS : MTAR_EREADFAIL; } static int file_seek(mtar_t *tar, unsigned offset) { int res = fseek(tar->stream, offset, SEEK_SET); return (res == 0) ? MTAR_ESUCCESS : MTAR_ESEEKFAIL; } static int file_close(mtar_t *tar) { fclose(tar->stream); return MTAR_ESUCCESS; } int mtar_open(mtar_t *tar, const char *filename, const char *mode) { int err; mtar_header_t h; /* Init tar struct and functions */ mtar_memset(tar, 0, sizeof(*tar)); tar->write = file_write; tar->read = file_read; tar->seek = file_seek; tar->close = file_close; /* Assure mode is always binary */ if ( strchr(mode, 'r') ) mode = "rb"; if ( strchr(mode, 'w') ) mode = "wb"; if ( strchr(mode, 'a') ) mode = "ab"; /* Open file */ tar->stream = fopen(filename, mode); if (!tar->stream) { return MTAR_EOPENFAIL; } /* Read first header to check it is valid if mode is `r` */ if (*mode == 'r') { err = mtar_read_header(tar, &h); if (err != MTAR_ESUCCESS) { mtar_close(tar); return err; } } /* Return ok */ return MTAR_ESUCCESS; } int mtar_close(mtar_t *tar) { return tar->close(tar); } int mtar_seek(mtar_t *tar, unsigned pos) { int err = tar->seek(tar, pos); tar->pos = pos; return err; } int mtar_rewind(mtar_t *tar) { tar->remaining_data = 0; tar->last_header = 0; return mtar_seek(tar, 0); } int mtar_next(mtar_t *tar) { int err, n; mtar_header_t h; /* Load header */ err = mtar_read_header(tar, &h); if (err) { return err; } /* Seek to next record */ n = round_up(h.size, 512) + sizeof(mtar_raw_header_t); return mtar_seek(tar, tar->pos + n); } int mtar_find(mtar_t *tar, const char *name, mtar_header_t *h) { int err; mtar_header_t header; /* Start at beginning */ err = mtar_rewind(tar); if (err) { return err; } /* Iterate all files until we hit an error or find the file */ while ( (err = mtar_read_header(tar, &header)) == MTAR_ESUCCESS ) { if ( !strcmp(header.name, name) ) { if (h) { *h = header; } return MTAR_ESUCCESS; } mtar_next(tar); } /* Return error */ if (err == MTAR_ENULLRECORD) { err = MTAR_ENOTFOUND; } return err; } int mtar_read_header(mtar_t *tar, mtar_header_t *h) { int err; mtar_raw_header_t rh; /* Save header position */ tar->last_header = tar->pos; /* Read raw header */ err = tread(tar, &rh, sizeof(rh)); if (err) { return err; } /* Seek back to start of header */ err = mtar_seek(tar, tar->last_header); if (err) { return err; } /* Load raw header into header struct and return */ return raw_to_header(h, &rh); } int mtar_read_data(mtar_t *tar, void *ptr, unsigned size) { int err; /* If we have no remaining data then this is the first read, we get the size, * set the remaining data and seek to the beginning of the data */ if (tar->remaining_data == 0) { mtar_header_t h; /* Read header */ err = mtar_read_header(tar, &h); if (err) { return err; } /* Seek past header and init remaining data */ err = mtar_seek(tar, tar->pos + sizeof(mtar_raw_header_t)); if (err) { return err; } tar->remaining_data = h.size; } /* Read data */ err = tread(tar, ptr, size); if (err) { return err; } tar->remaining_data -= size; /* If there is no remaining data we've finished reading and seek back to the * header */ if (tar->remaining_data == 0) { return mtar_seek(tar, tar->last_header); } return MTAR_ESUCCESS; } int mtar_write_header(mtar_t *tar, const mtar_header_t *h) { mtar_raw_header_t rh; /* Build raw header and write */ header_to_raw(&rh, h); tar->remaining_data = h->size; return twrite(tar, &rh, sizeof(rh)); } int mtar_write_file_header(mtar_t *tar, const char *name, unsigned size) { mtar_header_t h; /* Build header */ mtar_memset(&h, 0, sizeof(h)); strcpy(h.name, name); h.size = size; h.type = MTAR_TREG; h.mode = 0664; /* Write header */ return mtar_write_header(tar, &h); } int mtar_write_dir_header(mtar_t *tar, const char *name) { mtar_header_t h; /* Build header */ mtar_memset(&h, 0, sizeof(h)); strcpy(h.name, name); h.type = MTAR_TDIR; h.mode = 0775; /* Write header */ return mtar_write_header(tar, &h); } int mtar_write_data(mtar_t *tar, const void *data, unsigned size) { int err; /* Write data */ err = twrite(tar, data, size); if (err) { return err; } tar->remaining_data -= size; /* Write padding if we've written all the data for this file */ if (tar->remaining_data == 0) { return write_null_bytes(tar, round_up(tar->pos, 512) - tar->pos); } return MTAR_ESUCCESS; } int mtar_finalize(mtar_t *tar) { /* Write two NULL records */ return write_null_bytes(tar, sizeof(mtar_raw_header_t) * 2); } /* Load libc.obj */ #ifdef MTAR_OBJ #include void mtar_panic(char* func_name){ _ksys_debug_puts("mtar.obj: "); _ksys_debug_puts(func_name); _ksys_debug_puts(" = NULL!\n"); } int mtar_init(){ ksys_coff_etable_t *libc = _ksys_load_coff("/sys/lib/libc.obj"); if(!libc){ _ksys_debug_puts("mtar.obj: libc.obj not loaded!"); return 1; } fread = _ksys_get_coff_func(libc, "fread", mtar_panic); fwrite = _ksys_get_coff_func(libc, "fwrite", mtar_panic); fclose = _ksys_get_coff_func(libc, "fclose", mtar_panic); fopen = _ksys_get_coff_func(libc, "fopen", mtar_panic); fseek = _ksys_get_coff_func(libc, "fseek", mtar_panic); ftell = _ksys_get_coff_func(libc, "ftell", mtar_panic); sprintf= _ksys_get_coff_func(libc, "sprintf", mtar_panic); sscanf = _ksys_get_coff_func(libc, "sscanf", mtar_panic); strcmp = _ksys_get_coff_func(libc, "strcmp", mtar_panic); strchr = _ksys_get_coff_func(libc, "strchr", mtar_panic); strcpy = _ksys_get_coff_func(libc, "strcpy", mtar_panic); return 0; } ksys_coff_etable_t EXPORTS[] = { {"mtar_init", mtar_init}, {"mtar_open", mtar_open}, {"mtar_close", mtar_close}, {"mtar_seek", mtar_seek}, {"mtar_rewind", mtar_rewind}, {"mtar_next", mtar_next}, {"mtar_find", mtar_find}, {"mtar_read_header", mtar_read_header}, {"mtar_read_data", mtar_read_data}, {"mtar_write_header", mtar_write_header}, {"mtar_write_file_header", mtar_write_file_header}, {"mtar_write_dir_header", mtar_write_dir_header}, {"mtar_write_data",mtar_write_data}, {"mtar_finalize", mtar_finalize}, {"mtar_strerror", mtar_strerror}, NULL }; #endif