ref: 8a60d9e2a8dc5b81b44426002b03110ef391f618
dir: /sys/src/liboventi/plan9-io.c/
#include <u.h> #include <libc.h> #include <oventi.h> enum { IdealAlignment = 32, ChunkSize = 128*1024, }; void vtMemFree(void *p) { if(p == 0) return; free(p); } void * vtMemAlloc(int size) { void *p; p = malloc(size); if(p == 0) vtFatal("vtMemAlloc: out of memory"); setmalloctag(p, getcallerpc(&size)); return p; } void * vtMemAllocZ(int size) { void *p = vtMemAlloc(size); memset(p, 0, size); setmalloctag(p, getcallerpc(&size)); return p; } void * vtMemRealloc(void *p, int size) { if(p == nil) return vtMemAlloc(size); p = realloc(p, size); if(p == 0) vtFatal("vtRealloc: out of memory"); setrealloctag(p, getcallerpc(&size)); return p; } void * vtMemBrk(int n) { static Lock lk; static uchar *buf; static int nbuf; static int nchunk; int align, pad; void *p; if(n >= IdealAlignment) align = IdealAlignment; else if(n > 8) align = 8; else align = 4; lock(&lk); pad = (align - (uintptr)buf) & (align-1); if(n + pad > nbuf) { buf = vtMemAllocZ(ChunkSize); setmalloctag(buf, getcallerpc(&n)); nbuf = ChunkSize; pad = (align - (uintptr)buf) & (align-1); nchunk++; } assert(n + pad <= nbuf); p = buf + pad; buf += pad + n; nbuf -= pad + n; unlock(&lk); return p; } void vtThreadSetName(char *name) { int fd; char buf[32]; sprint(buf, "/proc/%d/args", getpid()); if((fd = open(buf, OWRITE)) >= 0){ write(fd, name, strlen(name)); close(fd); } } int vtFdRead(int fd, uchar *buf, int n) { n = read(fd, buf, n); if(n < 0) { vtOSError(); return -1; } if(n == 0) { vtSetError("unexpected EOF"); return 0; } return n; } int vtFdWrite(int fd, uchar *buf, int n) { int nn; nn = write(fd, buf, n); if(nn < 0) { vtOSError(); return 0; } if(n != nn) { vtSetError("truncated write"); return 0; } return 1; } void vtFdClose(int fd) { close(fd); } char * vtOSError(void) { return vtSetError("%r"); }