ref: 5a514a681e4c2ab86f76509203a0a96d371d51aa
dir: /proc.c/
#include <u.h> #include <libc.h> #include <thread.h> #include <bio.h> #include <mach.h> #include <ctype.h> #include "dat.h" #include "fns.h" #pragma pack on typedef struct Tos Tos; struct Tos { struct /* Per process profiling */ { ulong pp; /* known to be 0(ptr) */ ulong next; /* known to be 4(ptr) */ ulong last; ulong first; ulong pid; ulong what; } prof; uvlong cyclefreq; /* cycle clock frequency if there is one, 0 otherwise */ vlong kcycles; /* cycles spent in kernel */ vlong pcycles; /* cycles spent in process (kernel + user) */ ulong pid; /* might as well put the pid here */ ulong clock; /* top of stack is here */ }; #pragma pack off Process plist; Lock plistlock; void initproc(void) { P = emallocz(sizeof(Process)); P->pid = getpid(); P->fd = newfd(); incref(&nproc); plist.prev = P; plist.next = P; P->prev = &plist; P->next = &plist; if(vfp) resetvfp(); else resetfpa(); } void addproc(Process *p) { lock(&plistlock); p->prev = plist.prev; p->next = &plist; plist.prev->next = p; plist.prev = p; unlock(&plistlock); } void remproc(Process *p) { lock(&plistlock); p->prev->next = p->next; p->next->prev = p->prev; unlock(&plistlock); } Process * findproc(int pid) { Process *p; lock(&plistlock); for(p = plist.next; p != &plist; p = p->next) if(p->pid == pid) break; unlock(&plistlock); if(p != &plist) return p; return nil; } static void copyname(char *file) { char *p; p = strrchr(file, '/'); if(p == nil) p = file; else p++; strncpy(P->name, p, NAMEMAX); if(P->path != nil && decref(P->path) == 0) free(P->path); P->path = emallocz(sizeof(Ref) + strlen(file)+1); incref(P->path); strcpy((char*)(P->path + 1), file); } static void initstack(int argc, char **argv) { ulong tos, sp, ap, size, i, len; tos = (mach->utop & ~7) - sizeof(Tos) * 2; sp = tos; size = 8; for(i = 0; i < argc; i++) size += strlen(argv[i]) + 5; sp -= size; sp &= ~7; P->R[0] = tos; P->R[1] = mach->utop - 4; P->R[13] = sp; *(ulong *) vaddrnol(sp, 4, AWR) = argc; sp += 4; ap = sp + (argc + 1) * 4; for(i = 0; i < argc; i++) { *(ulong *) vaddrnol(sp, 4, AWR) = ap; sp += 4; len = strlen(argv[i]) + 1; memcpy(vaddrnol(ap, len, AWR), argv[i], len); ap += len; } *(ulong *) vaddrnol(sp, 4, AWR) = 0; inittos(); } void inittos(void) { ulong tos; tos = (mach->utop & ~7) - sizeof(Tos) * 2; ((Tos *) vaddrnol(tos, sizeof(Tos), AWR))->pid = P->pid; } static int loadscript(int fd, char *file, int argc, char **argv) { char buf[513], *p, **q, **nargv; int rc, nargc, i; seek(fd, 0, 0); rc = readn(fd, buf, 512); if(rc <= 0) goto invalid; close(fd); buf[rc] = 0; p = strchr(buf, '\n'); if(p == nil) goto invalid; *p = 0; while(isspace(*--p)) *p = 0; nargc = 0; p = buf + 2; while(*p) { while(*p && isspace(*p)) p++; nargc++; while(*p && !isspace(*p)) p++; } if(nargc == 0) goto invalid; nargv = emallocz(sizeof(char *) * (nargc + argc)); q = nargv; p = buf + 2; while(*p) { while(*p && isspace(*p)) p++; *(p-1) = 0; *q++ = p; while(*p && !isspace(*p)) p++; } *q++ = file; for(i = 1; i < argc; i++) *q++ = argv[i]; rc = loadtext(*nargv, argc + nargc, nargv); free(nargv); return rc; invalid: werrstr("exec header invalid"); return -1; } static void inithooks(void) { Symbol s; if(lookup("poolalloc", nil, &s) == -1) mallocaddr = -1; else mallocaddr = s.value; if(lookup("poolrealloc", nil, &s) == -1) reallocaddr = -1; else reallocaddr = s.value; if(lookup("poolfree", nil, &s) == -1) freeaddr = -1; else freeaddr = s.value; if(lookup("vtrace", nil, &s) == -1) vtraceaddr = -1; else vtraceaddr = s.value; } int loadtext(char *file, int argc, char **argv) { int fd; Fhdr fp; Segment *text, *data, *bss; char buf[2]; fd = open(file, OREAD); if(fd < 0) return -1; if(pread(fd, buf, 2, 0) == 2 && buf[0] == '#' && buf[1] == '!') return loadscript(fd, file, argc, argv); seek(fd, 0, 0); if(crackhdr(fd, &fp) == 0 || fp.magic != E_MAGIC) { werrstr("exec header invalid"); return -1; } copyname(file); P->notehandler = P->innote = P->notein = P->noteout = 0; freesegs(); memset(P->R, 0, sizeof(P->R)); P->CPSR = 0; text = newseg(fp.txtaddr - fp.hdrsz, fp.txtsz + fp.hdrsz, SEGTEXT); data = newseg(fp.dataddr, fp.datsz, SEGDATA); bss = newseg(fp.dataddr + fp.datsz, fp.bsssz, SEGBSS); if(check){ markvalid(text, 0, fp.txtsz+fp.hdrsz); markvalid(data, 0, fp.datsz); markvalid(bss, 0, fp.bsssz); } newseg((mach->utop & ~7) - STACKSIZE, STACKSIZE, SEGSTACK); seek(fd, fp.txtoff - fp.hdrsz, 0); if(readn(fd, text->data, fp.txtsz + fp.hdrsz) < fp.txtsz + fp.hdrsz) sysfatal("%r"); seek(fd, fp.datoff, 0); if(readn(fd, data->data, fp.datsz) < fp.datsz) sysfatal("%r"); memset(bss->data, 0, bss->size); P->R[15] = fp.entry; if(havesymbols || check) if(syminit(fd, &fp) < 0) fprint(2, "initializing symbol table: %r\n"); if(check) inithooks(); close(fd); fdclear(P->fd); initstack(argc, argv); if(vfp) resetvfp(); else resetfpa(); return 0; } void cherrstr(char *str, ...) { va_list va; va_start(va, str); vsnprint(P->errbuf, ERRMAX, str, va); va_end(va); } u32int noteerr(u32int x, u32int y) { if(((int)x) >= ((int)y)) return x; rerrstr(P->errbuf, ERRMAX); return x; } Fd * newfd(void) { Fd *fd; fd = emallocz(sizeof(*fd)); incref(fd); return fd; } Fd * copyfd(Fd *old) { Fd *new; rlock(old); new = newfd(); if(old->nfds > 0) { new->nfds = old->nfds; new->fds = emalloc(old->nfds); memcpy(new->fds, old->fds, old->nfds); } runlock(old); return new; } void fddecref(Fd *fd) { if(decref(fd) == 0) { free(fd->fds); free(fd); } } int iscexec(Fd *fd, int n) { int r; r = 0; rlock(fd); if(n / 8 < fd->nfds) r = (fd->fds[n / 8] & (1 << (n % 8))) != 0; runlock(fd); return r; } void setcexec(Fd *fd, int n, int status) { int old; wlock(fd); if(n / 8 >= fd->nfds) { if(status == 0) { wunlock(fd); return; } old = fd->nfds; fd->nfds = (n / 8) + 1; fd->fds = erealloc(fd->fds, fd->nfds); memset(fd->fds + old, 0, fd->nfds - old); } if(status == 0) fd->fds[n / 8] &= ~(1 << (n % 8)); else fd->fds[n / 8] |= (1 << (n % 8)); wunlock(fd); } void fdclear(Fd *fd) { int i, j, k; wlock(fd); if(fd->nfds == 0) { wunlock(fd); return; } for(i = 0; i < fd->nfds; i++) { j = fd->fds[i]; for(k = 0; k < 8; k++) if(j & (1<<k)) close(8 * i + k); } free(fd->fds); fd->nfds = 0; fd->fds = nil; wunlock(fd); } /* call this from a notehandler if you don't want the front to fall off */ void addnote(char *msg) { int new; new = P->notein + 1; if((new - P->noteout) % NNOTE == 0) return; strncpy(P->notes[P->notein % NNOTE], msg, ERRMAX - 1); P->notein = new; } /* the following code is not for the weak of heart */ void donote(char *msg, ulong type) { extern int vtrace; int rc; u32int *ureg, *sp, uregp, msgp; char *msgb; if(P->notehandler == 0) exits(msg); clrex(); uregp = P->R[13] - 18 * 4; ureg = vaddrnol(uregp, 18 * 4, 0); memcpy(ureg, P->R, 15 * 4); ureg[15] = type; ureg[16] = P->CPSR; ureg[17] = P->R[15]; P->R[13] = uregp; msgp = P->R[13] -= ERRMAX; msgb = vaddrnol(msgp, ERRMAX, 0); strncpy(msgb, msg, ERRMAX); P->R[13] -= 3 * 4; sp = vaddrnol(P->R[13], 3 * 4, 0); sp[0] = 0; sp[2] = msgp; P->R[0] = uregp; P->R[15] = P->notehandler; P->innote = 1; switch(rc = setjmp(P->notejmp) - 1) { case -1: for(;;) { if(ultraverbose || vtrace) dump(); step(); } case NDFLT: exits(msg); case NCONT: break; default: sysfatal("unhandled noted argument %d", rc); } P->innote = 0; ureg = vaddrnol(uregp, 18 * 4, 0); /* just to be sure */ memcpy(P->R, ureg, 15 * 4); P->CPSR = ureg[16]; P->R[15] = ureg[17]; }