/* zmalloc - total amount of allocated memory aware version of malloc() * * Copyright (c) 2009-2010, Salvatore Sanfilippo * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Redis nor the names of its contributors may be used * to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "fmacros.h" #include "config.h" #include "solarisfixes.h" #include #include #include #include #include #ifdef __linux__ #include #endif /* This function provide us access to the original libc free(). This is useful * for instance to free results obtained by backtrace_symbols(). We need * to define this function before including zmalloc.h that may shadow the * free implementation if we use jemalloc or another non standard allocator. */ void zlibc_free(void *ptr) { free(ptr); } #include #include #include "zmalloc.h" #include "atomicvar.h" #define UNUSED(x) ((void)(x)) #ifdef HAVE_MALLOC_SIZE #define PREFIX_SIZE (0) #else #if defined(__sun) || defined(__sparc) || defined(__sparc__) #define PREFIX_SIZE (sizeof(long long)) #else #define PREFIX_SIZE (sizeof(size_t)) #endif #endif /* When using the libc allocator, use a minimum allocation size to match the * jemalloc behavior that doesn't return NULL in this case. */ #define MALLOC_MIN_SIZE(x) ((x) > 0 ? (x) : sizeof(long)) /* Explicitly override malloc/free etc when using tcmalloc. */ #if defined(USE_TCMALLOC) #define malloc(size) tc_malloc(size) #define calloc(count,size) tc_calloc(count,size) #define realloc(ptr,size) tc_realloc(ptr,size) #define free(ptr) tc_free(ptr) #elif defined(USE_JEMALLOC) #define malloc(size) je_malloc(size) #define calloc(count,size) je_calloc(count,size) #define realloc(ptr,size) je_realloc(ptr,size) #define free(ptr) je_free(ptr) #define mallocx(size,flags) je_mallocx(size,flags) #define dallocx(ptr,flags) je_dallocx(ptr,flags) #endif #define update_zmalloc_stat_alloc(__n) atomicIncr(used_memory,(__n)) #define update_zmalloc_stat_free(__n) atomicDecr(used_memory,(__n)) static redisAtomic size_t used_memory = 0; static void zmalloc_default_oom(size_t size) { fprintf(stderr, "zmalloc: Out of memory trying to allocate %zu bytes\n", size); fflush(stderr); abort(); } static void (*zmalloc_oom_handler)(size_t) = zmalloc_default_oom; #ifdef HAVE_MALLOC_SIZE void *extend_to_usable(void *ptr, size_t size) { UNUSED(size); return ptr; } #endif /* Try allocating memory, and return NULL if failed. * '*usable' is set to the usable size if non NULL. */ static inline void *ztrymalloc_usable_internal(size_t size, size_t *usable) { /* Possible overflow, return NULL, so that the caller can panic or handle a failed allocation. */ if (size >= SIZE_MAX/2) return NULL; void *ptr = malloc(MALLOC_MIN_SIZE(size)+PREFIX_SIZE); if (!ptr) return NULL; #ifdef HAVE_MALLOC_SIZE size = zmalloc_size(ptr); update_zmalloc_stat_alloc(size); if (usable) *usable = size; return ptr; #else *((size_t*)ptr) = size; update_zmalloc_stat_alloc(size+PREFIX_SIZE); if (usable) *usable = size; return (char*)ptr+PREFIX_SIZE; #endif } void *ztrymalloc_usable(size_t size, size_t *usable) { size_t usable_size = 0; void *ptr = ztrymalloc_usable_internal(size, &usable_size); #ifdef HAVE_MALLOC_SIZE ptr = extend_to_usable(ptr, usable_size); #endif if (usable) *usable = usable_size; return ptr; } /* Allocate memory or panic */ void *zmalloc(size_t size) { void *ptr = ztrymalloc_usable_internal(size, NULL); if (!ptr) zmalloc_oom_handler(size); return ptr; } /* Try allocating memory, and return NULL if failed. */ void *ztrymalloc(size_t size) { void *ptr = ztrymalloc_usable_internal(size, NULL); return ptr; } /* Allocate memory or panic. * '*usable' is set to the usable size if non NULL. */ void *zmalloc_usable(size_t size, size_t *usable) { size_t usable_size = 0; void *ptr = ztrymalloc_usable_internal(size, &usable_size); if (!ptr) zmalloc_oom_handler(size); #ifdef HAVE_MALLOC_SIZE ptr = extend_to_usable(ptr, usable_size); #endif if (usable) *usable = usable_size; return ptr; } /* Allocation and free functions that bypass the thread cache * and go straight to the allocator arena bins. * Currently implemented only for jemalloc. Used for online defragmentation. */ #ifdef HAVE_DEFRAG void *zmalloc_no_tcache(size_t size) { if (size >= SIZE_MAX/2) zmalloc_oom_handler(size); void *ptr = mallocx(size+PREFIX_SIZE, MALLOCX_TCACHE_NONE); if (!ptr) zmalloc_oom_handler(size); update_zmalloc_stat_alloc(zmalloc_size(ptr)); return ptr; } void zfree_no_tcache(void *ptr) { if (ptr == NULL) return; update_zmalloc_stat_free(zmalloc_size(ptr)); dallocx(ptr, MALLOCX_TCACHE_NONE); } #endif /* Try allocating memory and zero it, and return NULL if failed. * '*usable' is set to the usable size if non NULL. */ static inline void *ztrycalloc_usable_internal(size_t size, size_t *usable) { /* Possible overflow, return NULL, so that the caller can panic or handle a failed allocation. */ if (size >= SIZE_MAX/2) return NULL; void *ptr = calloc(1, MALLOC_MIN_SIZE(size)+PREFIX_SIZE); if (ptr == NULL) return NULL; #ifdef HAVE_MALLOC_SIZE size = zmalloc_size(ptr); update_zmalloc_stat_alloc(size); if (usable) *usable = size; return ptr; #else *((size_t*)ptr) = size; update_zmalloc_stat_alloc(size+PREFIX_SIZE); if (usable) *usable = size; return (char*)ptr+PREFIX_SIZE; #endif } void *ztrycalloc_usable(size_t size, size_t *usable) { size_t usable_size = 0; void *ptr = ztrycalloc_usable_internal(size, &usable_size); #ifdef HAVE_MALLOC_SIZE ptr = extend_to_usable(ptr, usable_size); #endif if (usable) *usable = usable_size; return ptr; } /* Allocate memory and zero it or panic. * We need this wrapper to have a calloc compatible signature */ void *zcalloc_num(size_t num, size_t size) { /* Ensure that the arguments to calloc(), when multiplied, do not wrap. * Division operations are susceptible to divide-by-zero errors so we also check it. */ if ((size == 0) || (num > SIZE_MAX/size)) { zmalloc_oom_handler(SIZE_MAX); return NULL; } void *ptr = ztrycalloc_usable_internal(num*size, NULL); if (!ptr) zmalloc_oom_handler(num*size); return ptr; } /* Allocate memory and zero it or panic */ void *zcalloc(size_t size) { void *ptr = ztrycalloc_usable_internal(size, NULL); if (!ptr) zmalloc_oom_handler(size); return ptr; } /* Try allocating memory, and return NULL if failed. */ void *ztrycalloc(size_t size) { void *ptr = ztrycalloc_usable_internal(size, NULL); return ptr; } /* Allocate memory or panic. * '*usable' is set to the usable size if non NULL. */ void *zcalloc_usable(size_t size, size_t *usable) { size_t usable_size = 0; void *ptr = ztrycalloc_usable_internal(size, &usable_size); if (!ptr) zmalloc_oom_handler(size); #ifdef HAVE_MALLOC_SIZE ptr = extend_to_usable(ptr, usable_size); #endif if (usable) *usable = usable_size; return ptr; } /* Try reallocating memory, and return NULL if failed. * '*usable' is set to the usable size if non NULL. */ static inline void *ztryrealloc_usable_internal(void *ptr, size_t size, size_t *usable) { #ifndef HAVE_MALLOC_SIZE void *realptr; #endif size_t oldsize; void *newptr; /* not allocating anything, just redirect to free. */ if (size == 0 && ptr != NULL) { zfree(ptr); if (usable) *usable = 0; return NULL; } /* Not freeing anything, just redirect to malloc. */ if (ptr == NULL) return ztrymalloc_usable(size, usable); /* Possible overflow, return NULL, so that the caller can panic or handle a failed allocation. */ if (size >= SIZE_MAX/2) { zfree(ptr); if (usable) *usable = 0; return NULL; } #ifdef HAVE_MALLOC_SIZE oldsize = zmalloc_size(ptr); newptr = realloc(ptr,size); if (newptr == NULL) { if (usable) *usable = 0; return NULL; } update_zmalloc_stat_free(oldsize); size = zmalloc_size(newptr); update_zmalloc_stat_alloc(size); if (usable) *usable = size; return newptr; #else realptr = (char*)ptr-PREFIX_SIZE; oldsize = *((size_t*)realptr); newptr = realloc(realptr,size+PREFIX_SIZE); if (newptr == NULL) { if (usable) *usable = 0; return NULL; } *((size_t*)newptr) = size; update_zmalloc_stat_free(oldsize); update_zmalloc_stat_alloc(size); if (usable) *usable = size; return (char*)newptr+PREFIX_SIZE; #endif } void *ztryrealloc_usable(void *ptr, size_t size, size_t *usable) { size_t usable_size = 0; ptr = ztryrealloc_usable_internal(ptr, size, &usable_size); #ifdef HAVE_MALLOC_SIZE ptr = extend_to_usable(ptr, usable_size); #endif if (usable) *usable = usable_size; return ptr; } /* Reallocate memory and zero it or panic */ void *zrealloc(void *ptr, size_t size) { ptr = ztryrealloc_usable_internal(ptr, size, NULL); if (!ptr && size != 0) zmalloc_oom_handler(size); return ptr; } /* Try Reallocating memory, and return NULL if failed. */ void *ztryrealloc(void *ptr, size_t size) { ptr = ztryrealloc_usable_internal(ptr, size, NULL); return ptr; } /* Reallocate memory or panic. * '*usable' is set to the usable size if non NULL. */ void *zrealloc_usable(void *ptr, size_t size, size_t *usable) { size_t usable_size = 0; ptr = ztryrealloc_usable(ptr, size, &usable_size); if (!ptr && size != 0) zmalloc_oom_handler(size); #ifdef HAVE_MALLOC_SIZE ptr = extend_to_usable(ptr, usable_size); #endif if (usable) *usable = usable_size; return ptr; } /* Provide zmalloc_size() for systems where this function is not provided by * malloc itself, given that in that case we store a header with this * information as the first bytes of every allocation. */ #ifndef HAVE_MALLOC_SIZE size_t zmalloc_size(void *ptr) { void *realptr = (char*)ptr-PREFIX_SIZE; size_t size = *((size_t*)realptr); return size+PREFIX_SIZE; } size_t zmalloc_usable_size(void *ptr) { return zmalloc_size(ptr)-PREFIX_SIZE; } #endif void zfree(void *ptr) { #ifndef HAVE_MALLOC_SIZE void *realptr; size_t oldsize; #endif if (ptr == NULL) return; #ifdef HAVE_MALLOC_SIZE update_zmalloc_stat_free(zmalloc_size(ptr)); free(ptr); #else realptr = (char*)ptr-PREFIX_SIZE; oldsize = *((size_t*)realptr); update_zmalloc_stat_free(oldsize+PREFIX_SIZE); free(realptr); #endif } /* Similar to zfree, '*usable' is set to the usable size being freed. */ void zfree_usable(void *ptr, size_t *usable) { #ifndef HAVE_MALLOC_SIZE void *realptr; size_t oldsize; #endif if (ptr == NULL) return; #ifdef HAVE_MALLOC_SIZE update_zmalloc_stat_free(*usable = zmalloc_size(ptr)); free(ptr); #else realptr = (char*)ptr-PREFIX_SIZE; *usable = oldsize = *((size_t*)realptr); update_zmalloc_stat_free(oldsize+PREFIX_SIZE); free(realptr); #endif } char *zstrdup(const char *s) { size_t l = strlen(s)+1; char *p = zmalloc(l); memcpy(p,s,l); return p; } size_t zmalloc_used_memory(void) { size_t um; atomicGet(used_memory,um); return um; } void zmalloc_set_oom_handler(void (*oom_handler)(size_t)) { zmalloc_oom_handler = oom_handler; } /* Use 'MADV_DONTNEED' to release memory to operating system quickly. * We do that in a fork child process to avoid CoW when the parent modifies * these shared pages. */ void zmadvise_dontneed(void *ptr) { #if defined(USE_JEMALLOC) && defined(__linux__) static size_t page_size = 0; if (page_size == 0) page_size = sysconf(_SC_PAGESIZE); size_t page_size_mask = page_size - 1; size_t real_size = zmalloc_size(ptr); if (real_size < page_size) return; /* We need to align the pointer upwards according to page size, because * the memory address is increased upwards and we only can free memory * based on page. */ char *aligned_ptr = (char *)(((size_t)ptr+page_size_mask) & ~page_size_mask); real_size -= (aligned_ptr-(char*)ptr); if (real_size >= page_size) { madvise((void *)aligned_ptr, real_size&~page_size_mask, MADV_DONTNEED); } #else (void)(ptr); #endif } /* Get the RSS information in an OS-specific way. * * WARNING: the function zmalloc_get_rss() is not designed to be fast * and may not be called in the busy loops where Redis tries to release * memory expiring or swapping out objects. * * For this kind of "fast RSS reporting" usages use instead the * function RedisEstimateRSS() that is a much faster (and less precise) * version of the function. */ #if defined(HAVE_PROC_STAT) #include #include #include #endif /* Get the i'th field from "/proc/self/stats" note i is 1 based as appears in the 'proc' man page */ int get_proc_stat_ll(int i, long long *res) { #if defined(HAVE_PROC_STAT) char buf[4096]; int fd, l; char *p, *x; if ((fd = open("/proc/self/stat",O_RDONLY)) == -1) return 0; if ((l = read(fd,buf,sizeof(buf)-1)) <= 0) { close(fd); return 0; } close(fd); buf[l] = '\0'; if (buf[l-1] == '\n') buf[l-1] = '\0'; /* Skip pid and process name (surrounded with parentheses) */ p = strrchr(buf, ')'); if (!p) return 0; p++; while (*p == ' ') p++; if (*p == '\0') return 0; i -= 3; if (i < 0) return 0; while (p && i--) { p = strchr(p, ' '); if (p) p++; else return 0; } x = strchr(p,' '); if (x) *x = '\0'; *res = strtoll(p,&x,10); if (*x != '\0') return 0; return 1; #else UNUSED(i); UNUSED(res); return 0; #endif } #if defined(HAVE_PROC_STAT) size_t zmalloc_get_rss(void) { int page = sysconf(_SC_PAGESIZE); long long rss; /* RSS is the 24th field in /proc//stat */ if (!get_proc_stat_ll(24, &rss)) return 0; rss *= page; return rss; } #elif defined(HAVE_TASKINFO) #include #include #include #include size_t zmalloc_get_rss(void) { task_t task = MACH_PORT_NULL; struct task_basic_info t_info; mach_msg_type_number_t t_info_count = TASK_BASIC_INFO_COUNT; if (task_for_pid(current_task(), getpid(), &task) != KERN_SUCCESS) return 0; task_info(task, TASK_BASIC_INFO, (task_info_t)&t_info, &t_info_count); return t_info.resident_size; } #elif defined(__FreeBSD__) || defined(__DragonFly__) #include #include #include size_t zmalloc_get_rss(void) { struct kinfo_proc info; size_t infolen = sizeof(info); int mib[4]; mib[0] = CTL_KERN; mib[1] = KERN_PROC; mib[2] = KERN_PROC_PID; mib[3] = getpid(); if (sysctl(mib, 4, &info, &infolen, NULL, 0) == 0) #if defined(__FreeBSD__) return (size_t)info.ki_rssize * getpagesize(); #else return (size_t)info.kp_vm_rssize * getpagesize(); #endif return 0L; } #elif defined(__NetBSD__) || defined(__OpenBSD__) #include #include #if defined(__OpenBSD__) #define kinfo_proc2 kinfo_proc #define KERN_PROC2 KERN_PROC #define __arraycount(a) (sizeof(a) / sizeof(a[0])) #endif size_t zmalloc_get_rss(void) { struct kinfo_proc2 info; size_t infolen = sizeof(info); int mib[6]; mib[0] = CTL_KERN; mib[1] = KERN_PROC2; mib[2] = KERN_PROC_PID; mib[3] = getpid(); mib[4] = sizeof(info); mib[5] = 1; if (sysctl(mib, __arraycount(mib), &info, &infolen, NULL, 0) == 0) return (size_t)info.p_vm_rssize * getpagesize(); return 0L; } #elif defined(__HAIKU__) #include size_t zmalloc_get_rss(void) { area_info info; thread_info th; size_t rss = 0; ssize_t cookie = 0; if (get_thread_info(find_thread(0), &th) != B_OK) return 0; while (get_next_area_info(th.team, &cookie, &info) == B_OK) rss += info.ram_size; return rss; } #elif defined(HAVE_PSINFO) #include #include #include size_t zmalloc_get_rss(void) { struct prpsinfo info; char filename[256]; int fd; snprintf(filename,256,"/proc/%ld/psinfo",(long) getpid()); if ((fd = open(filename,O_RDONLY)) == -1) return 0; if (ioctl(fd, PIOCPSINFO, &info) == -1) { close(fd); return 0; } close(fd); return info.pr_rssize; } #else size_t zmalloc_get_rss(void) { /* If we can't get the RSS in an OS-specific way for this system just * return the memory usage we estimated in zmalloc().. * * Fragmentation will appear to be always 1 (no fragmentation) * of course... */ return zmalloc_used_memory(); } #endif #if defined(USE_JEMALLOC) int zmalloc_get_allocator_info(size_t *allocated, size_t *active, size_t *resident) { uint64_t epoch = 1; size_t sz; *allocated = *resident = *active = 0; /* Update the statistics cached by mallctl. */ sz = sizeof(epoch); je_mallctl("epoch", &epoch, &sz, &epoch, sz); sz = sizeof(size_t); /* Unlike RSS, this does not include RSS from shared libraries and other non * heap mappings. */ je_mallctl("stats.resident", resident, &sz, NULL, 0); /* Unlike resident, this doesn't not include the pages jemalloc reserves * for re-use (purge will clean that). */ je_mallctl("stats.active", active, &sz, NULL, 0); /* Unlike zmalloc_used_memory, this matches the stats.resident by taking * into account all allocations done by this process (not only zmalloc). */ je_mallctl("stats.allocated", allocated, &sz, NULL, 0); return 1; } void set_jemalloc_bg_thread(int enable) { /* let jemalloc do purging asynchronously, required when there's no traffic * after flushdb */ char val = !!enable; je_mallctl("background_thread", NULL, 0, &val, 1); } int jemalloc_purge() { /* return all unused (reserved) pages to the OS */ char tmp[32]; unsigned narenas = 0; size_t sz = sizeof(unsigned); if (!je_mallctl("arenas.narenas", &narenas, &sz, NULL, 0)) { sprintf(tmp, "arena.%d.purge", narenas); if (!je_mallctl(tmp, NULL, 0, NULL, 0)) return 0; } return -1; } #else int zmalloc_get_allocator_info(size_t *allocated, size_t *active, size_t *resident) { *allocated = *resident = *active = 0; return 1; } void set_jemalloc_bg_thread(int enable) { ((void)(enable)); } int jemalloc_purge() { return 0; } #endif #if defined(__APPLE__) /* For proc_pidinfo() used later in zmalloc_get_smap_bytes_by_field(). * Note that this file cannot be included in zmalloc.h because it includes * a Darwin queue.h file where there is a "LIST_HEAD" macro (!) defined * conficting with Redis user code. */ #include #endif /* Get the sum of the specified field (converted form kb to bytes) in * /proc/self/smaps. The field must be specified with trailing ":" as it * apperas in the smaps output. * * If a pid is specified, the information is extracted for such a pid, * otherwise if pid is -1 the information is reported is about the * current process. * * Example: zmalloc_get_smap_bytes_by_field("Rss:",-1); */ #if defined(HAVE_PROC_SMAPS) size_t zmalloc_get_smap_bytes_by_field(char *field, long pid) { char line[1024]; size_t bytes = 0; int flen = strlen(field); FILE *fp; if (pid == -1) { fp = fopen("/proc/self/smaps","r"); } else { char filename[128]; snprintf(filename,sizeof(filename),"/proc/%ld/smaps",pid); fp = fopen(filename,"r"); } if (!fp) return 0; while(fgets(line,sizeof(line),fp) != NULL) { if (strncmp(line,field,flen) == 0) { char *p = strchr(line,'k'); if (p) { *p = '\0'; bytes += strtol(line+flen,NULL,10) * 1024; } } } fclose(fp); return bytes; } #else /* Get sum of the specified field from libproc api call. * As there are per page value basis we need to convert * them accordingly. * * Note that AnonHugePages is a no-op as THP feature * is not supported in this platform */ size_t zmalloc_get_smap_bytes_by_field(char *field, long pid) { #if defined(__APPLE__) struct proc_regioninfo pri; if (pid == -1) pid = getpid(); if (proc_pidinfo(pid, PROC_PIDREGIONINFO, 0, &pri, PROC_PIDREGIONINFO_SIZE) == PROC_PIDREGIONINFO_SIZE) { int pagesize = getpagesize(); if (!strcmp(field, "Private_Dirty:")) { return (size_t)pri.pri_pages_dirtied * pagesize; } else if (!strcmp(field, "Rss:")) { return (size_t)pri.pri_pages_resident * pagesize; } else if (!strcmp(field, "AnonHugePages:")) { return 0; } } return 0; #endif ((void) field); ((void) pid); return 0; } #endif /* Return the total number bytes in pages marked as Private Dirty. * * Note: depending on the platform and memory footprint of the process, this * call can be slow, exceeding 1000ms! */ size_t zmalloc_get_private_dirty(long pid) { return zmalloc_get_smap_bytes_by_field("Private_Dirty:",pid); } /* Returns the size of physical memory (RAM) in bytes. * It looks ugly, but this is the cleanest way to achieve cross platform results. * Cleaned up from: * * http://nadeausoftware.com/articles/2012/09/c_c_tip_how_get_physical_memory_size_system * * Note that this function: * 1) Was released under the following CC attribution license: * http://creativecommons.org/licenses/by/3.0/deed.en_US. * 2) Was originally implemented by David Robert Nadeau. * 3) Was modified for Redis by Matt Stancliff. * 4) This note exists in order to comply with the original license. */ size_t zmalloc_get_memory_size(void) { #if defined(__unix__) || defined(__unix) || defined(unix) || \ (defined(__APPLE__) && defined(__MACH__)) #if defined(CTL_HW) && (defined(HW_MEMSIZE) || defined(HW_PHYSMEM64)) int mib[2]; mib[0] = CTL_HW; #if defined(HW_MEMSIZE) mib[1] = HW_MEMSIZE; /* OSX. --------------------- */ #elif defined(HW_PHYSMEM64) mib[1] = HW_PHYSMEM64; /* NetBSD, OpenBSD. --------- */ #endif int64_t size = 0; /* 64-bit */ size_t len = sizeof(size); if (sysctl( mib, 2, &size, &len, NULL, 0) == 0) return (size_t)size; return 0L; /* Failed? */ #elif defined(_SC_PHYS_PAGES) && defined(_SC_PAGESIZE) /* FreeBSD, Linux, OpenBSD, and Solaris. -------------------- */ return (size_t)sysconf(_SC_PHYS_PAGES) * (size_t)sysconf(_SC_PAGESIZE); #elif defined(CTL_HW) && (defined(HW_PHYSMEM) || defined(HW_REALMEM)) /* DragonFly BSD, FreeBSD, NetBSD, OpenBSD, and OSX. -------- */ int mib[2]; mib[0] = CTL_HW; #if defined(HW_REALMEM) mib[1] = HW_REALMEM; /* FreeBSD. ----------------- */ #elif defined(HW_PHYSMEM) mib[1] = HW_PHYSMEM; /* Others. ------------------ */ #endif unsigned int size = 0; /* 32-bit */ size_t len = sizeof(size); if (sysctl(mib, 2, &size, &len, NULL, 0) == 0) return (size_t)size; return 0L; /* Failed? */ #else return 0L; /* Unknown method to get the data. */ #endif #else return 0L; /* Unknown OS. */ #endif } #ifdef REDIS_TEST int zmalloc_test(int argc, char **argv, int flags) { void *ptr; UNUSED(argc); UNUSED(argv); UNUSED(flags); printf("Malloc prefix size: %d\n", (int) PREFIX_SIZE); printf("Initial used memory: %zu\n", zmalloc_used_memory()); ptr = zmalloc(123); printf("Allocated 123 bytes; used: %zu\n", zmalloc_used_memory()); ptr = zrealloc(ptr, 456); printf("Reallocated to 456 bytes; used: %zu\n", zmalloc_used_memory()); zfree(ptr); printf("Freed pointer; used: %zu\n", zmalloc_used_memory()); return 0; } #endif