/* Serval Distributed Numbering Architecture (DNA) Copyright (C) 2010 Paul Gardner-Stephen This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "serval.h" overlay_buffer *ob_new(int size) { overlay_buffer *ret=calloc(sizeof(overlay_buffer),1); if (!ret) return NULL; ob_unlimitsize(ret); return ret; } // index an existing static buffer. // and allow other callers to use the ob_ convenience methods for reading and writing up to size bytes. overlay_buffer *ob_static(unsigned char *bytes, int size){ overlay_buffer *ret=calloc(sizeof(overlay_buffer),1); if (!ret) return NULL; ret->bytes = bytes; ret->allocSize =-1; ret->sizeLimit=size; return ret; } int ob_free(overlay_buffer *b) { if (!b) return WHY("Asked to free NULL"); if (b->bytes && b->allocSize>0) free(b->bytes); b->bytes=NULL; b->allocSize=0; b->sizeLimit=0; free(b); return 0; } int ob_checkpoint(overlay_buffer *b) { if (!b) return WHY("Asked to checkpoint NULL"); b->checkpointLength=b->length; return 0; } int ob_rewind(overlay_buffer *b) { if (!b) return WHY("Asked to rewind NULL"); b->length=b->checkpointLength; return 0; } int ob_setlength(overlay_buffer *b,int bytes){ if (bytes > b->sizeLimit) return WHY("Length exceeds size limit"); if (b->allocSize>=0 && bytes > b->allocSize) return WHY("Length exceeds allocated size"); b->length=bytes; return 0; } int ob_limitsize(overlay_buffer *b,int bytes) { if (!b) return WHY("Asked to limit size of NULL"); if (b->length>bytes) return WHY("Length of data in buffer already exceeds size limit"); if (b->checkpointLength>bytes) return WHY("Checkpointed length of data in buffer already exceeds size limit"); if (bytes<0) return WHY("Can't limit buffer to a negative size"); if (b->allocSize<0) return WHY("Can't change the limit of a static buffer"); b->sizeLimit=bytes; return 0; } int ob_unlimitsize(overlay_buffer *b) { if (!b) return WHY("b is NULL"); if (b->allocSize<0) return WHY("Can't change the limit of a static buffer"); b->sizeLimit=-1; return 0; } int ob_makespace(overlay_buffer *b,int bytes) { if (b->sizeLimit!=-1 && b->length+bytes>b->sizeLimit) { if (debug&DEBUG_PACKETFORMATS) WHY("Asked to make space beyond size limit"); return -1; } if (b->allocSize<0){ return WHY("Can't resize a static buffer"); } if (0) DEBUGF("ob_makespace(%p,%d)\n b->bytes=%p,b->length=%d,b->allocSize=%d\n", b,bytes,b->bytes,b->length,b->allocSize); if (b->length+bytes>=b->allocSize) { int newSize=b->length+bytes; if (newSize<64) newSize=64; if (newSize&63) newSize+=64-(newSize&63); if (newSize>1024) { if (newSize&1023) newSize+=1024-(newSize&1023); } if (newSize>65536) { if (newSize&65535) newSize+=65536-(newSize&65535); } if (0) DEBUGF("realloc(b->bytes=%p,newSize=%d)", b->bytes,newSize); /* XXX OSX realloc() seems to be able to corrupt things if the heap is not happy when calling realloc(), making debugging memory corruption much harder. So will do a three-stage malloc,bcopy,free to see if we can tease the bug out that way. */ /* unsigned char *r=realloc(b->bytes,newSize); if (!r) return WHY("realloc() failed"); b->bytes=r; */ #ifdef MALLOC_PARANOIA #warning adding lots of padding to try to catch overruns if (b->bytes) { int i; int corrupt=0; for(i=0;i<4096;i++) if (b->bytes[b->allocSize+i]!=0xbd) corrupt++; if (corrupt) { WHYF("!!!!!! %d corrupted bytes in overrun catch tray", corrupt); dump("overrun catch tray",&b->bytes[b->allocSize],4096); sleep(3600); } } unsigned char *new=malloc(newSize+4096); if (!new) return WHY("realloc() failed"); { int i; for(i=0;i<4096;i++) new[newSize+i]=0xbd; } #else unsigned char *new=malloc(newSize); #endif bcopy(b->bytes,new,b->length); if (b->bytes) free(b->bytes); b->bytes=new; b->allocSize=newSize; return 0; } else return 0; } /* Functions that append data and increase the size of the buffer if possible / required */ int ob_append_byte(overlay_buffer *b,unsigned char byte) { if (ob_makespace(b,1)) return WHY("ob_makespace() failed"); b->bytes[b->length++] = byte; return 0; } unsigned char *ob_append_space(overlay_buffer *b,int count) { if (ob_makespace(b,count)) { WHY("ob_makespace() failed"); return NULL; } unsigned char *r=&b->bytes[b->length]; b->length+=count; return r; } int ob_append_bytes(overlay_buffer *b,unsigned char *bytes,int count) { if (ob_makespace(b,count)) return WHY("ob_makespace() failed"); bcopy(bytes,&b->bytes[b->length],count); b->length+=count; return 0; } int ob_append_short(overlay_buffer *b,unsigned short v) { unsigned short s=htons(v); return ob_append_bytes(b,(unsigned char *)&s,sizeof(unsigned short)); } int ob_append_int(overlay_buffer *b,unsigned int v) { unsigned int s=htonl(v); return ob_append_bytes(b,(unsigned char *)&s,sizeof(unsigned int)); } int ob_append_rfs(overlay_buffer *b,int l) { /* Encode the specified length and append it to the buffer */ if (l<0||l>0xffff) return -1; /* First work out how long the field needs to be, then write dummy bytes and use ob_patch_rfs to set the value. That way we have only one lot of code that does the encoding. */ b->var_length_offset=b->length; b->var_length_bytes=rfs_length(l); unsigned char c[3]={0,0,0}; if (ob_append_bytes(b,c,b->var_length_bytes)) { b->var_length_offset=0; return -1; } return ob_patch_rfs(b,l); } /* Functions that read / write data within the existing length limit */ int test_offset(overlay_buffer *b,int start,int length){ if (!b) FATAL("b is NULL"); if (start<0) FATALF("passed illegal offset %d",start); if (b->sizeLimit>=0 && start+length>b->sizeLimit) FATALF("passed offset too large %d", start+length); if (b->allocSize>=0 && start+length>b->allocSize) FATALF("passed offset too large %d", start+length); return 0; } int ob_setbyte(overlay_buffer *b,int ofs,unsigned char value) { test_offset(b, ofs, 1); b->bytes[ofs]=value; return 0; } int ob_getbyte(overlay_buffer *b,int ofs) { test_offset(b, ofs, 1); if (ofs >= b->length) FATALF("passed offset too large %d", ofs); return b->bytes[ofs]; } unsigned int ob_get_int(overlay_buffer *b,int offset) { // TODO unsigned -1? FATAL? test_offset(b, offset, sizeof(unsigned int)); // Some platforms require alignment if (((uintptr_t)&b->bytes[offset])&3) { union { unsigned char uc[4]; uint32_t ui32; } bb; bcopy(&b->bytes[offset], &bb.uc[0], 4); return ntohl(bb.ui32); } else return ntohl(*((uint32_t*)&b->bytes[offset])); } int rfs_length(int l) { if (l<0) return -1; if (l<250) return 1; else if (l<(255+250+(256*4))) return 2; else if (l<=0xffff) return 3; else return -1; } int rfs_encode(int l, unsigned char *b) { if (l<250) { b[0]=l; } else if (l<(255+250+(256*4))) { l-=250; int page=(l>>8); l&=0xff; b[0]=RFS_PLUS250+page; b[1]=l; } else { b[0]=RFS_3BYTE; b[1]=l>>8; b[2]=l&0xff; } return 0; } int rfs_decode(unsigned char *b,int *ofs) { int rfs=b[*ofs]; switch(rfs) { case RFS_PLUS250: case RFS_PLUS456: case RFS_PLUS762: case RFS_PLUS1018: case RFS_PLUS1274: rfs=250+256*(rfs-RFS_PLUS250)+b[++(*ofs)]; break; case RFS_3BYTE: rfs=(b[(*ofs)+1]<<8)+b[(*ofs)+2]; (*ofs)+=2; default: /* Length is natural value of field, so nothing to do */ break; } (*ofs)++; return rfs; } int ob_indel_space(overlay_buffer *b,int offset,int shift) { if (shift>0) { /* make space */ if (ob_makespace(b,-shift)) return -1; bcopy(&b->bytes[offset],&b->bytes[offset+shift],b->length-(offset+shift)); } else if (shift<0) { /* free up space */ bcopy(&b->bytes[offset-shift],&b->bytes[offset],b->length-(offset-shift)); } b->length+=shift; return 0; } int ob_patch_rfs(overlay_buffer *b,int l) { if (l==COMPUTE_RFS_LENGTH){ // assume the payload has been written, we can now calculate the actual length l = b->length - (b->var_length_offset + b->var_length_bytes); } if (l<0||l>0xffff) return -1; /* Adjust size of field */ int new_size=rfs_length(l); int shift=new_size-b->var_length_bytes; if (shift) { if (debug&DEBUG_PACKETCONSTRUCTION) { DEBUGF("Patching RFS for rfs_size=%d (was %d), so indel %d btyes", new_size,b->var_length_bytes,shift); dump("before indel", &b->bytes[b->var_length_offset], b->length-b->var_length_offset); } if (ob_indel_space(b,b->var_length_offset,shift)) return -1; if (debug&DEBUG_PACKETCONSTRUCTION) { dump("after indel", &b->bytes[b->var_length_offset], b->length-b->var_length_offset); } } if (rfs_encode(l,&b->bytes[b->var_length_offset])) return -1; if (debug&DEBUG_PACKETCONSTRUCTION) { dump("after patch", &b->bytes[b->var_length_offset], b->length-b->var_length_offset); } return 0; } int asprintable(int c) { if (c<' ') return '.'; if (c>0x7e) return '.'; return c; } int ob_dump(overlay_buffer *b,char *desc) { DEBUGF("overlay_buffer '%s' at %p : length=%d", desc, b, b->length); dump(NULL, b->bytes, b->length); return 0; } #undef malloc #undef calloc #undef free #undef realloc #define SDM_GUARD_AFTER 16384 void *_serval_debug_malloc(unsigned int bytes,char *file,const char *func,int line) { void *r=malloc(bytes+SDM_GUARD_AFTER); logMessage(LOG_LEVEL_DEBUG, file, line, func, "malloc(%d) -> %p", bytes, r); return r; } void *_serval_debug_calloc(unsigned int bytes,unsigned int count,char *file,const char *func,int line) { void *r=calloc((bytes*count)+SDM_GUARD_AFTER,1); logMessage(LOG_LEVEL_DEBUG, file, line, func, "calloc(%d,%d) -> %p", bytes, count, r); return r; } void _serval_debug_free(void *p,char *file,const char *func,int line) { free(p); logMessage(LOG_LEVEL_DEBUG, file, line, func, "free(%p)", p); }