1LIBVMEM(7) VMEM Programmer's Manual LIBVMEM(7)
2
6 libvmem - volatile memory allocation library
7
9 #include <libvmem.h>
10 cc ... -lvmem
11 Managing overall library behavior:
13 const char *vmem_check_version(
14 unsigned major_required,
15 unsigned minor_required);
16 void vmem_set_funcs(
18 void *(*malloc_func)(size_t size),
19 void (*free_func)(void *ptr),
20 void *(*realloc_func)(void *ptr, size_t size),
21 char *(*strdup_func)(const char *s),
22 void (*print_func)(const char *s));
23 Error handling:
25 const char *vmem_errormsg(void);
26 Other library functions:
28 A description of other libvmem functions can be found on the following
29 manual pages:
30 · memory pool management: vmem_create(3)
32 · memory allocation related functions: vmem_malloc(3)
34
36 libvmem provides common malloc-like interfaces to memory pools built on
37 memory-mapped files. These interfaces are for traditional volatile
38 memory allocation but, unlike the functions described in malloc(3), the
39 memory managed by libvmem may have different attributes, depending on
40 the file system containing the memory-mapped files.
41 It is recommended that new code uses memkind(3) instead of libvmem, as
43 this library is no longer actively developed and lacks certain features
44 of memkind such as NUMA awareness. Nevertheless, it is mature, and is
45 expected to be maintained for foreseable future.
46 libvmem uses the mmap(2) system call to create a pool of volatile memo‐
48 ry. The library is most useful when used with Direct Access storage
49 (DAX), which is memory-addressable persistent storage that supports
50 load/store access without being paged via the system page cache. A
51 Persistent Memory-aware file system is typically used to provide this
52 type of access. Memory-mapping a file from a Persistent Memory-aware
53 file system provides the raw memory pools, and this library supplies
54 the more familiar malloc-like interfaces on top of those pools.
55 Under normal usage, libvmem will never print messages or intentionally
57 cause the process to exit. Exceptions to this are prints caused by
58 calls to vmem_stats_print(3), or by enabling debugging as described un‐
59 der DEBUGGING AND ERROR HANDLING below. The library uses pthreads to
60 be fully MT-safe, but never creates or destroys threads itself. The
61 library does not make use of any signals, networking, and never calls
62 select(2) or poll(2). The system memory allocation routines like mal‐
63 loc(3) and free(3) are used by libvmem for managing a small amount of
64 run-time state, but applications are allowed to override these calls if
65 necessary (see the description of vmem_set_funcs() below).
66 libvmem interfaces are grouped into three categories: those that manage
68 memory pools, those providing the basic memory allocation functions,
69 and those interfaces less commonly used for managing the overall li‐
70 brary behavior.
71
73 The vmem_check_version() function is used to see if the installed lib‐
74 vmem supports the version of the library API required by an applica‐
75 tion. The easiest way to do this is for the application to supply the
76 compile-time version information, supplied by defines in <libvmem.h>,
77 like this:
78 reason = vmem_check_version(VMEM_MAJOR_VERSION,
80 VMEM_MINOR_VERSION);
81 if (reason != NULL) {
82 /* version check failed, reason string tells you why */
83 }
84 Any mismatch in the major version number is considered a failure, but a
86 library with a newer minor version number will pass this check since
87 increasing minor versions imply backwards compatibility.
88 An application can also check specifically for the existence of an in‐
90 terface by checking for the version where that interface was intro‐
91 duced. These versions are documented in this man page as follows: un‐
92 less otherwise specified, all interfaces described here are available
93 in version 1.0 of the library. Interfaces added after version 1.0 will
94 contain the text introduced in version x.y in the section of this manu‐
95 al describing the feature.
96 When the version check is successful, vmem_check_version() returns
98 NULL. Otherwise, vmem_check_version() returns a static string describ‐
99 ing the reason for failing the version check. The returned string must
100 not be modified or freed.
101 The vmem_set_funcs() function allows an application to override some
103 interfaces used internally by libvmem. Passing NULL for any of the
104 handlers will cause the libvmem default function to be used. The only
105 functions in the malloc family used by the library are represented by
106 the first four arguments to vmem_set_funcs(). While the library does
107 not make heavy use of the system malloc functions, it does allocate ap‐
108 proximately 4-8 kilobytes for each memory pool in use. The print_func
109 function is called by libvmem when the vmem_stats_print() entry point
110 is used, or when additional tracing is enabled in the debug version of
111 the library as described in DEBUGGING AND ERROR HANDLING, below. The
112 default print_func used by the library prints to the file specified by
113 the VMEM_LOG_FILE environment variable, or to stderr if that variable
114 is not set.
115
117 libvmem relies on the library destructor being called from the main
118 thread. For this reason, all functions that might trigger destruction
119 (e.g. dlclose(3)) should be called in the main thread. Otherwise some
120 of the resources associated with that thread might not be cleaned up
121 properly.
122
124 If an error is detected during the call to a libvmem function, the ap‐
125 plication may retrieve an error message describing the reason for the
126 failure from vmem_errormsg(). This function returns a pointer to a
127 static buffer containing the last error message logged for the current
128 thread. If errno was set, the error message may include a description
129 of the corresponding error code as returned by strerror(3). The error
130 message buffer is thread-local; errors encountered in one thread do not
131 affect its value in other threads. The buffer is never cleared by any
132 library function; its content is significant only when the return value
133 of the immediately preceding call to a libvmem function indicated an
134 error, or if errno was set. The application must not modify or free
135 the error message string, but it may be modified by subsequent calls to
136 other library functions.
137 Two versions of libvmem are typically available on a development sys‐
139 tem. The normal version is optimized for performance. That version
140 skips checks that impact performance and never logs any trace informa‐
141 tion or performs any run-time assertions. A second version, accessed
142 when using libraries from /usr/lib/vmem_debug, contains run-time asser‐
143 tions and trace points. The typical way to access the debug version is
144 to set the LD_LIBRARY_PATH environment variable to /usr/lib/vmem_debug
145 or /usr/lib64/vmem_debug, as appropriate. Debugging output is con‐
146 trolled using the following environment variables. These variables
147 have no effect on the non-debug version of the library.
148 · VMEM_LOG_LEVEL
150 The value of VMEM_LOG_LEVEL enables trace points in the debug version
152 of the library, as follows:
153 · 0 - Tracing is disabled. This is the default level when
155 VMEM_LOG_LEVEL is not set. Only statistics are logged, and then only
156 in response to a call to vmem_stats_print().
157 · 1 - Additional details on any errors detected are logged, in addition
159 to returning the errno-based errors as usual.
160 · 2 - A trace of basic operations is logged.
162 · 3 - Enables a very verbose amount of function call tracing in the li‐
164 brary.
165 · 4 - Enables voluminous tracing information about all memory alloca‐
167 tions and deallocations.
168 Unless VMEM_LOG_FILE is set, debugging output is written to stderr.
170 · VMEM_LOG_FILE
172 Specifies the name of a file where all logging information should be
174 written. If the last character in the name is “-”, the PID of the cur‐
175 rent process will be appended to the file name when the log file is
176 created. If VMEM_LOG_FILE is not set, output is written to stderr.
177
179 The following example creates a memory pool, allocates some memory to
180 contain the string “hello, world”, and then frees that memory.
181 #include <stdio.h>
183 #include <stdlib.h>
184 #include <string.h>
185 #include <libvmem.h>
186 int
188 main(int argc, char *argv[])
189 {
190 VMEM *vmp;
191 char *ptr;
192 /* create minimum size pool of memory */
194 if ((vmp = vmem_create("/pmem-fs",
195 VMEM_MIN_POOL)) == NULL) {
196 perror("vmem_create");
197 exit(1);
198 }
199 if ((ptr = vmem_malloc(vmp, 100)) == NULL) {
201 perror("vmem_malloc");
202 exit(1);
203 }
204 strcpy(ptr, "hello, world");
206 /* give the memory back */
208 vmem_free(vmp, ptr);
209 /* ... */
211 vmem_delete(vmp);
213 }
214 See <http://pmem.io/vmem/libvmem> for more examples using the libvmem
216 API.
217
219 Unlike the normal malloc(3), which asks the system for additional memo‐
220 ry when it runs out, libvmem allocates the size it is told to and never
221 attempts to grow or shrink that memory pool.
222
224 libvmem depends on jemalloc, written by Jason Evans, to do the heavy
225 lifting of managing dynamic memory allocation. See: <http://www.canon‐
226 ware.com/jemalloc>
227 libvmem builds on the persistent memory programming model recommended
229 by the SNIA NVM Programming Technical Work Group:
230 <http://snia.org/nvmp>
231
233 mmap(2), dlclose(3), malloc(3), strerror(3), vmem_create(3), vmem_mal‐
234 loc(3), and <http://pmem.io>
235 On Linux:
237 jemalloc(3), pthreads(7)
239 On FreeBSD:
241 pthread(3)
243VMEM - vmem API version 1.1 2020-01-27 LIBVMEM(7)