48c6bb79f4
SYSLIB CHANGES: - DS calls to publish / retrieve labels consider endpoints instead of u32_t. VFS CHANGES: - mapdriver() only adds an entry in the dmap table in VFS. - dev_up() is only executed upon reception of a driver up event. INET CHANGES: - INET no longer searches for existing drivers instances at startup. - A newtwork driver is (re)initialized upon reception of a driver up event. - Networking startup is now race-free by design. No need to waste 5 seconds at startup any more. DRIVER CHANGES: - Every driver publishes driver up events when starting for the first time or in case of restart when recovery actions must be taken in the upper layers. - Driver up events are published by drivers through DS. - For regular drivers, VFS is normally the only subscriber, but not necessarily. For instance, when the filter driver is in use, it must subscribe to driver up events to initiate recovery. - For network drivers, inet is the only subscriber for now. - Every VFS driver is statically linked with libdriver, every network driver is statically linked with libnetdriver. DRIVER LIBRARIES CHANGES: - Libdriver is extended to provide generic receive() and ds_publish() interfaces for VFS drivers. - driver_receive() is a wrapper for sef_receive() also used in driver_task() to discard spurious messages that were meant to be delivered to a previous version of the driver. - driver_receive_mq() is the same as driver_receive() but integrates support for queued messages. - driver_announce() publishes a driver up event for VFS drivers and marks the driver as initialized and expecting a DEV_OPEN message. - Libnetdriver is introduced to provide similar receive() and ds_publish() interfaces for network drivers (netdriver_announce() and netdriver_receive()). - Network drivers all support live update with no state transfer now. KERNEL CHANGES: - Added kernel call statectl for state management. Used by driver_announce() to unblock eventual callers sendrecing to the driver.
234 lines
6 KiB
C
234 lines
6 KiB
C
#include "inc.h"
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char *key_u32 = "test_u32";
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char *key_str = "test_str";
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char *key_mem = "test_mem";
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char *key_map = "test_map";
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char *key_label = "test_label";
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/*===========================================================================*
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* test_u32 *
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*===========================================================================*/
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void test_u32(void)
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{
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int r;
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unsigned long value;
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/* Publish and retrieve. */
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r = ds_publish_u32(key_u32, 1234, 0);
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assert(r == OK);
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r = ds_retrieve_u32(key_u32, &value);
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assert(r == OK && value == 1234);
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/* If dstest deletes 'test_u32' immediately after publishing it,
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* subs will catch the event, but it can't check it immediately.
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* So dstest will sleep 2 seconds to wait for subs to complete. */
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sleep(2);
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/* Publish again without DSF_OVERWRITE. */
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r = ds_publish_u32(key_u32, 4321, 0);
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assert(r == EEXIST);
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/* Publish again with DSF_OVERWRITE to overwrite it. */
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r = ds_publish_u32(key_u32, 4321, DSF_OVERWRITE);
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assert(r == OK);
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r = ds_retrieve_u32(key_u32, &value);
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assert(r == OK && value == 4321);
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/* Delete. */
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r = ds_delete_u32(key_u32);
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assert(r == OK);
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r = ds_retrieve_u32(key_u32, &value);
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assert(r == ESRCH);
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printf("DSTEST: U32 test successful!\n");
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}
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/*===========================================================================*
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* test_str *
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*===========================================================================*/
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void test_str(void)
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{
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int r;
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char *string = "little";
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char *longstring = "verylooooooongstring";
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char buf[17];
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r = ds_publish_str(key_str, string, 0);
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assert(r == OK);
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r = ds_retrieve_str(key_str, buf, sizeof(buf)-1);
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assert(r == OK && strcmp(string, buf) == 0);
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r = ds_delete_str(key_str);
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assert(r == OK);
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/* Publish a long string. */
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r = ds_publish_str(key_str, longstring, 0);
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assert(r == OK);
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r = ds_retrieve_str(key_str, buf, sizeof(buf)-1);
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assert(r == OK && strcmp(string, buf) != 0
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&& strncmp(longstring, buf, sizeof(buf)-1) == 0);
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r = ds_delete_str(key_str);
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assert(r == OK);
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printf("DSTEST: STRING test successful!\n");
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}
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/*===========================================================================*
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* test_mem *
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*===========================================================================*/
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void test_mem(void)
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{
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char *string1 = "ok, this is a string";
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char *string2 = "ok, this is a very looooong string";
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size_t len1 = strlen(string1) + 1;
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size_t len2 = strlen(string2) + 1;
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char buf[100];
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size_t get_len;
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int r;
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/* Publish and retrieve. */
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r = ds_publish_mem(key_mem, string1, len1, 0);
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assert(r == OK);
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get_len = 100;
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r = ds_retrieve_mem(key_mem, buf, &get_len);
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assert(r == OK && strcmp(string1, buf) == 0);
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assert(get_len == len1);
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/* Let get_len=8, which is less than strlen(string1). */
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get_len = 8;
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r = ds_retrieve_mem(key_mem, buf, &get_len);
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assert(r == OK && get_len == 8);
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/* Publish again to overwrite with a bigger memory range. */
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r = ds_publish_mem(key_mem, string2, len2, DSF_OVERWRITE);
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assert(r == OK);
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get_len = 100;
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r = ds_retrieve_mem(key_mem, buf, &get_len);
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assert(r == OK && strcmp(string2, buf) == 0);
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assert(get_len == len2);
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r = ds_delete_mem(key_mem);
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assert(r == OK);
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printf("DSTEST: MEM test successful!\n");
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}
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/*===========================================================================*
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* test_label *
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*===========================================================================*/
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void test_label(void)
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{
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int r;
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char label[DS_MAX_KEYLEN];
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endpoint_t endpoint;
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/* Retrieve own label and endpoint. */
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r = ds_retrieve_label_name(label, getprocnr());
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assert(r == OK);
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r = ds_retrieve_label_endpt(label, &endpoint);
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assert(r == OK && endpoint == getprocnr());
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/* Publish and delete. */
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r = ds_publish_label(label, endpoint, 0);
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assert(r == EPERM);
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r = ds_delete_label(label);
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assert(r == EPERM);
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printf("DSTEST: LABEL test successful!\n");
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}
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/*===========================================================================*
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* test_map *
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*===========================================================================*/
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void test_map(void)
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{
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char buf_buf[CLICK_SIZE * 2];
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char buf_buf2[CLICK_SIZE * 2];
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char *buf, *buf2;
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char get_buf[CLICK_SIZE];
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int *p;
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volatile int *p2;
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int *get_p;
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size_t get_len;
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int is;
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int r;
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buf = (char*) CLICK_CEIL(buf_buf);
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buf2 = (char*) CLICK_CEIL(buf_buf2);
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p = (int *)buf;
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p2 = (int *)buf2;
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get_p = (int *)get_buf;
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*p = 1;
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r = ds_publish_map(key_map, buf, CLICK_SIZE, 0);
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assert(r == OK);
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r = ds_snapshot_map(key_map, &is);
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assert(r == OK);
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/* Copy the mapped memory range.
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* Set *p=2, then the mapped memory range should change too
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* and *get_p should be 2.
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*/
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*p = 2;
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get_len = CLICK_SIZE;
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r = ds_retrieve_map(key_map, get_buf, &get_len, 0, DSMF_COPY_MAPPED);
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assert(r == OK && get_len == CLICK_SIZE && *get_p == 2);
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/* Copy snapshot, where *get_p should still be 1. */
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get_len = CLICK_SIZE;
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r = ds_retrieve_map(key_map, get_buf, &get_len, is, DSMF_COPY_SNAPSHOT);
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assert(r == OK && get_len == CLICK_SIZE && *get_p == 1);
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/* Map the mapped memory range to @buf2, then set *p=3, which
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* in turn should let *p2=3.
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*/
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get_len = CLICK_SIZE;
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r = ds_retrieve_map(key_map, buf2, &get_len, 0, DSMF_MAP_MAPPED);
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assert(r == OK && get_len == CLICK_SIZE);
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*p = 3;
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assert(*p2 == 3);
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r = ds_delete_map(key_map);
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assert(r == OK);
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printf("DSTEST: MAP test successful!\n");
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}
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/* SEF functions and variables. */
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FORWARD _PROTOTYPE( void sef_local_startup, (void) );
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/*===========================================================================*
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* main *
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*===========================================================================*/
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int main(void)
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{
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/* SEF local startup. */
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sef_local_startup();
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/* Run all the tests. */
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test_u32();
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test_str();
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test_mem();
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test_map();
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test_label();
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return 0;
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}
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/*===========================================================================*
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* sef_local_startup *
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*===========================================================================*/
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PRIVATE void sef_local_startup()
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{
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/* Let SEF perform startup. */
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sef_startup();
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}
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