ref: b548687a8ed1d0a159c9d3f3f921d93bbb56908e
dir: /os/port/allocb.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" enum { Hdrspc = 64, /* leave room for high-level headers */ Bdead = 0x51494F42, /* "QIOB" */ }; struct { Lock; uintptr bytes; } ialloc; /* * allocate blocks (round data base address to 64 bit boundary). * if mallocz gives us more than we asked for, leave room at the front * for header. */ Block* _allocb(s32 size) { Block *b; uintptr addr; int n; b = mallocz(sizeof(Block)+size+Hdrspc+(BY2V-1), 0); if(b == nil) return nil; b->next = nil; b->list = nil; b->free = nil; b->flag = 0; addr = (uintptr)b; addr = ROUND(addr + sizeof(Block), BY2V); b->base = (uchar*)addr; b->lim = ((uchar*)b) + msize(b); b->rp = b->base; n = b->lim - b->base - size; b->rp += n & ~(BY2V-1); b->wp = b->rp; return b; } /* TODO Add Bhdr attributes here */ void showblockheader(Block *b, intptr pc, char *str) { iprint("%s called by 0x%8.8luX, pid %d base 0x%8.8luX lim 0x%8.8luX\n" " next 0x%8.8luX rp 0x%8.8luX wp 0x%8.8luX malloctag 0x%8.8luX\n", str, pc, up->pid, b->base, b->lim, b->next, b->rp, b->wp, getmalloctag(b)); } Block* allocb(int size) { Block *b; if(0 && up == nil) panic("allocb outside process: %8.8zux", getcallerpc(&size)); b = _allocb(size); if(b == 0) exhausted("Blocks"); setmalloctag(b, getcallerpc(&size)); /* showblockheader(b, getcallerpc(&size), "allocb()"); */ return b; } /* * interrupt time allocation */ Block* iallocb(int size) { Block *b; if(ialloc.bytes > conf.ialloc){ print("iallocb: limited %lud/%lud\n", ialloc.bytes, conf.ialloc); return nil; } b = _allocb(size); if(b == nil){ print("iallocb: no memory %lud/%lud\n", ialloc.bytes, conf.ialloc); return nil; } setmalloctag(b, getcallerpc(&size)); b->flag = BINTR; ilock(&ialloc); ialloc.bytes += b->lim - b->base; iunlock(&ialloc); return b; } void checkbl(Block *b, char *msg, intptr pc); void freeb(Block *b) { void *dead = (void*)Bdead; if(b == nil) return; /* * drivers which perform non cache coherent DMA manage their own buffer * pool of uncached buffers and provide their own free routine. */ if(b->free) { /* checkbl(b, "checking block before free'ing\n", getcallerpc(&b)); print("freeb b 0x%zx b->free 0x%zx\n", b, (intptr)b->free); */ b->free(b); return; } if(b->flag & BINTR) { ilock(&ialloc); ialloc.bytes -= b->lim - b->base; iunlock(&ialloc); } /* poison the block in case someone is still holding onto it */ b->next = dead; b->rp = dead; b->wp = dead; b->lim = dead; b->base = dead; free(b); } /* same as checkb but with more details for debugging */ void checkbl(Block *b, char *msg, intptr pc) { void *dead = (void*)Bdead; if(b == dead) panic("checkb b %s %lux", msg, b); if(b->base == dead || b->lim == dead || b->next == dead || b->rp == dead || b->wp == dead){ showblockheader(b, pc, "freeb() dead"); panic("checkb dead: %s\n", msg); } if(b->base > b->lim){ showblockheader(b, pc, "freeb() 0"); panic("checkb 0 %s %lux %lux", msg, b->base, b->lim); } if(b->rp < b->base){ showblockheader(b, pc, "freeb() 1"); panic("checkb 1 %s %lux %lux", msg, b->base, b->rp); } if(b->wp < b->base) panic("checkb 2 %s %lux %lux", msg, b->base, b->wp); if(b->rp > b->lim) panic("checkb 3 %s %lux %lux", msg, b->rp, b->lim); if(b->wp > b->lim) panic("checkb 4 %s %lux %lux", msg, b->wp, b->lim); } void checkb(Block *b, char *msg) { void *dead = (void*)Bdead; if(b == dead) panic("checkb b %s %lux", msg, b); if(b->base == dead || b->lim == dead || b->next == dead || b->rp == dead || b->wp == dead){ print("checkb: base 0x%8.8luX lim 0x%8.8luX next 0x%8.8luX\n", b->base, b->lim, b->next); print("checkb: rp 0x%8.8luX wp 0x%8.8luX\n", b->rp, b->wp); panic("checkb dead: %s\n", msg); } if(b->base > b->lim) panic("checkb 0 %s %lux %lux", msg, b->base, b->lim); if(b->rp < b->base) panic("checkb 1 %s %lux %lux", msg, b->base, b->rp); if(b->wp < b->base) panic("checkb 2 %s %lux %lux", msg, b->base, b->wp); if(b->rp > b->lim) panic("checkb 3 %s %lux %lux", msg, b->rp, b->lim); if(b->wp > b->lim) panic("checkb 4 %s %lux %lux", msg, b->wp, b->lim); } void iallocsummary(void) { print("ialloc %ud/%ud\n", ialloc.bytes, conf.ialloc); }