/* cygheap.cc: Cygwin heap manager. Copyright 2000, 2001 Red Hat, Inc. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include #include #include #include #include "security.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "child_info.h" #include "heap.h" #include "cygerrno.h" #include "sync.h" #include "shared_info.h" init_cygheap NO_COPY *cygheap; void NO_COPY *cygheap_max = NULL; static NO_COPY muto *cygheap_protect = NULL; struct cygheap_entry { int type; struct cygheap_entry *next; char data[0]; }; #define NBUCKETS 32 static char *buckets[NBUCKETS] = {0}; #define N0 ((_cmalloc_entry *) NULL) #define to_cmalloc(s) ((_cmalloc_entry *) (((char *) (s)) - (int) (N0->data))) #define CFMAP_OPTIONS (SEC_RESERVE | PAGE_READWRITE) #define MVMAP_OPTIONS (FILE_MAP_WRITE) extern "C" { static void __stdcall _cfree (void *ptr) __attribute__((regparm(1))); extern void *_cygheap_start; } inline static void init_cheap () { cygheap = (init_cygheap *) VirtualAlloc ((void *) &_cygheap_start, CYGHEAPSIZE, MEM_RESERVE, PAGE_NOACCESS); if (!cygheap) { MEMORY_BASIC_INFORMATION m; if (!VirtualQuery ((LPCVOID) &_cygheap_start, &m, sizeof m)) system_printf ("couldn't get memory info, %E"); small_printf ("AllocationBase %p, BaseAddress %p, RegionSize %p, State %p\n", m.AllocationBase, m.BaseAddress, m.RegionSize, m.State); api_fatal ("Couldn't reserve space for cygwin's heap, %E"); } cygheap_max = cygheap + 1; } void __stdcall cygheap_setup_for_child (child_info *ci) { void *newcygheap; cygheap_protect->acquire (); unsigned n = (char *) cygheap_max - (char *) cygheap; ci->cygheap_h = CreateFileMapping (INVALID_HANDLE_VALUE, &sec_none, CFMAP_OPTIONS, 0, CYGHEAPSIZE, NULL); newcygheap = MapViewOfFileEx (ci->cygheap_h, MVMAP_OPTIONS, 0, 0, 0, NULL); if (!VirtualAlloc (newcygheap, n, MEM_COMMIT, PAGE_READWRITE)) api_fatal ("couldn't allocate new cygwin heap for child, %E"); memcpy (newcygheap, cygheap, n); UnmapViewOfFile (newcygheap); ci->cygheap = cygheap; ci->cygheap_max = cygheap_max; ProtectHandle1 (ci->cygheap_h, passed_cygheap_h); cygheap_protect->release (); return; } void __stdcall cygheap_setup_for_child_cleanup (child_info *ci) { ForceCloseHandle1 (ci->cygheap_h, passed_cygheap_h); } /* Called by fork or spawn to reallocate cygwin heap */ void __stdcall cygheap_fixup_in_child (child_info *ci, bool execed) { cygheap = ci->cygheap; cygheap_max = ci->cygheap_max; void *addr = iswinnt ? cygheap : NULL; void *newaddr; newaddr = MapViewOfFileEx (ci->cygheap_h, MVMAP_OPTIONS, 0, 0, 0, addr); if (newaddr != cygheap) { if (!newaddr) newaddr = MapViewOfFileEx (ci->cygheap_h, MVMAP_OPTIONS, 0, 0, 0, NULL); DWORD n = (DWORD) cygheap_max - (DWORD) cygheap; /* Reserve cygwin heap in same spot as parent */ if (!VirtualAlloc (cygheap, CYGHEAPSIZE, MEM_RESERVE, PAGE_NOACCESS)) { MEMORY_BASIC_INFORMATION m; memset (&m, 0, sizeof m); if (!VirtualQuery ((LPCVOID) cygheap, &m, sizeof m)) system_printf ("couldn't get memory info, %E"); small_printf ("m.AllocationBase %p, m.BaseAddress %p, m.RegionSize %p, m.State %p\n", m.AllocationBase, m.BaseAddress, m.RegionSize, m.State); api_fatal ("Couldn't reserve space for cygwin's heap (%p <%p>) in child, %E", cygheap, newaddr); } /* Allocate same amount of memory as parent */ if (!VirtualAlloc (cygheap, n, MEM_COMMIT, PAGE_READWRITE)) api_fatal ("Couldn't allocate space for child's heap %p, size %d, %E", cygheap, n); memcpy (cygheap, newaddr, n); UnmapViewOfFile (newaddr); } ForceCloseHandle1 (ci->cygheap_h, passed_cygheap_h); cygheap_init (); if (execed) { /* Walk the allocated memory chain looking for orphaned memory from previous execs */ for (_cmalloc_entry *rvc = cygheap->chain; rvc; rvc = rvc->prev) { cygheap_entry *ce = (cygheap_entry *) rvc->data; if (rvc->b >= NBUCKETS || ce->type <= HEAP_1_START) continue; else if (ce->type < HEAP_1_MAX) ce->type += HEAP_1_MAX; /* Mark for freeing after next exec */ else _cfree (ce); /* Marked by parent for freeing in child */ } } } #define pagetrunc(x) ((void *) (((DWORD) (x)) & ~(4096 - 1))) static void *__stdcall _csbrk (int sbs) { void *lastheap; bool needalloc; if (cygheap) needalloc = 0; else { init_cheap (); needalloc = 1; } lastheap = cygheap_max; (char *) cygheap_max += sbs; void *heapalign = (void *) pagetrunc (lastheap); if (!needalloc) needalloc = sbs && ((heapalign == lastheap) || heapalign != pagetrunc (cygheap_max)); if (needalloc && !VirtualAlloc (lastheap, (DWORD) sbs ?: 1, MEM_COMMIT, PAGE_READWRITE)) api_fatal ("couldn't commit memory for cygwin heap, %E"); return lastheap; } extern "C" void __stdcall cygheap_init () { cygheap_protect = new_muto (FALSE, "cygheap_protect"); _csbrk (0); if (!cygheap->fdtab) cygheap->fdtab.init (); } /* Copyright (C) 1997, 2000 DJ Delorie */ static void *_cmalloc (int size) __attribute ((regparm(1))); static void *__stdcall _crealloc (void *ptr, int size) __attribute ((regparm(2))); static void *__stdcall _cmalloc (int size) { _cmalloc_entry *rvc; unsigned b, sz; /* Calculate "bit bucket" and size as a power of two. */ for (b = 3, sz = 8; sz && sz < (size + sizeof (_cmalloc_entry)); b++, sz <<= 1) continue; cygheap_protect->acquire (); if (buckets[b]) { rvc = (_cmalloc_entry *) buckets[b]; buckets[b] = rvc->ptr; rvc->b = b; } else { size = sz + sizeof (_cmalloc_entry); rvc = (_cmalloc_entry *) _csbrk (size); rvc->b = b; rvc->prev = cygheap->chain; cygheap->chain = rvc; } cygheap_protect->release (); return rvc->data; } static void __stdcall _cfree (void *ptr) { cygheap_protect->acquire (); _cmalloc_entry *rvc = to_cmalloc (ptr); DWORD b = rvc->b; rvc->ptr = buckets[b]; buckets[b] = (char *) rvc; cygheap_protect->release (); } static void *__stdcall _crealloc (void *ptr, int size) __attribute__((regparm(2))); static void *__stdcall _crealloc (void *ptr, int size) { void *newptr; if (ptr == NULL) newptr = _cmalloc (size); else { int oldsize = 1 << to_cmalloc (ptr)->b; if (size <= oldsize) return ptr; newptr = _cmalloc (size); memcpy (newptr, ptr, oldsize); _cfree (ptr); } return newptr; } /* End Copyright (C) 1997 DJ Delorie */ #define sizeof_cygheap(n) ((n) + sizeof(cygheap_entry)) #define N ((cygheap_entry *) NULL) #define tocygheap(s) ((cygheap_entry *) (((char *) (s)) - (int) (N->data))) inline static void * creturn (cygheap_types x, cygheap_entry * c, int len) { if (!c) { __seterrno (); return NULL; } c->type = x; char *cend = ((char *) c + sizeof (*c) + len); if (cygheap_max < cend) cygheap_max = cend; MALLOC_CHECK; return (void *) c->data; } extern "C" void *__stdcall cmalloc (cygheap_types x, DWORD n) { cygheap_entry *c; MALLOC_CHECK; c = (cygheap_entry *) _cmalloc (sizeof_cygheap (n)); if (!c) system_printf ("cmalloc returned NULL"); return creturn (x, c, n); } extern "C" void *__stdcall crealloc (void *s, DWORD n) { MALLOC_CHECK; if (s == NULL) return cmalloc (HEAP_STR, n); // kludge assert (!inheap (s)); cygheap_entry *c = tocygheap (s); cygheap_types t = (cygheap_types) c->type; c = (cygheap_entry *) _crealloc (c, sizeof_cygheap (n)); if (!c) system_printf ("crealloc returned NULL"); return creturn (t, c, n); } extern "C" void __stdcall cfree (void *s) { MALLOC_CHECK; assert (!inheap (s)); (void) _cfree (tocygheap (s)); MALLOC_CHECK; } extern "C" void *__stdcall ccalloc (cygheap_types x, DWORD n, DWORD size) { cygheap_entry *c; MALLOC_CHECK; c = (cygheap_entry *) _cmalloc (sizeof_cygheap (n * size)); if (c) memset (c->data, 0, n * size); if (!c) system_printf ("ccalloc returned NULL"); return creturn (x, c, n); } extern "C" char *__stdcall cstrdup (const char *s) { MALLOC_CHECK; char *p = (char *) cmalloc (HEAP_STR, strlen (s) + 1); if (!p) return NULL; strcpy (p, s); MALLOC_CHECK; return p; } extern "C" char *__stdcall cstrdup1 (const char *s) { MALLOC_CHECK; char *p = (char *) cmalloc (HEAP_1_STR, strlen (s) + 1); if (!p) return NULL; strcpy (p, s); MALLOC_CHECK; return p; } void cygheap_root::set (const char *posix, const char *native) { if (*posix == '/' && posix[1] == '\0') { if (m) { cfree (m); m = NULL; } return; } if (!m) m = (struct cygheap_root_mount_info *) ccalloc (HEAP_MOUNT, 1, sizeof (*m)); strcpy (m->posix_path, posix); m->posix_pathlen = strlen (posix); if (m->posix_pathlen >= 1 && m->posix_path[m->posix_pathlen - 1] == '/') m->posix_path[--m->posix_pathlen] = '\0'; strcpy (m->native_path, native); m->native_pathlen = strlen (native); if (m->native_pathlen >= 1 && m->native_path[m->native_pathlen - 1] == '\\') m->native_path[--m->native_pathlen] = '\0'; } cygheap_user::~cygheap_user () { #if 0 if (pname) cfree (pname); if (plogsrv) cfree (plogsrv); if (pdomain) cfree (pdomain); if (psid) cfree (psid); #endif } void cygheap_user::set_name (const char *new_name) { if (pname) cfree (pname); pname = cstrdup (new_name ? new_name : ""); } void cygheap_user::set_logsrv (const char *new_logsrv) { if (plogsrv) cfree (plogsrv); plogsrv = (new_logsrv && *new_logsrv) ? cstrdup (new_logsrv) : NULL; } void cygheap_user::set_domain (const char *new_domain) { if (pdomain) cfree (pdomain); pdomain = (new_domain && *new_domain) ? cstrdup (new_domain) : NULL; } BOOL cygheap_user::set_sid (PSID new_sid) { if (!new_sid) { if (psid) cfree (psid); psid = NULL; return TRUE; } else { if (!psid) psid = cmalloc (HEAP_STR, MAX_SID_LEN); return CopySid (MAX_SID_LEN, psid, new_sid); } }