int ncRunInstanceStub (ncStub *st, ncMetadata *meta, char *uuid, char *instanceId, char *reservationId, virtualMachine *params, char *imageId, char *imageURL, char *kernelId, char *kernelURL, char *ramdiskId, char *ramdiskURL, char *ownerId, char *accountId, char *keyName, netConfig *netparams, char *userData, char *launchIndex, char *platform, int expiryTime, char **groupNames, int groupNamesSize, ncInstance **outInstPtr) { ncInstance *instance; int i, j, foundidx=-1; logprintfl(EUCADEBUG, "fakeNC: runInstance(): params: uuid=%s instanceId=%s reservationId=%s ownerId=%s accountId=%s platform=%s\n", SP(uuid), SP(instanceId), SP(reservationId), SP(ownerId), SP(accountId), SP(platform)); if (!uuid || !instanceId || !reservationId || !ownerId || !accountId || !platform || !meta || !netparams) { logprintfl(EUCAERROR, "fakeNC: runInstance(): bad input params\n"); return(0); } loadNcStuff(); instance = allocate_instance (uuid, instanceId, reservationId, params, instance_state_names[PENDING], PENDING, meta->userId, ownerId, accountId, netparams, keyName, userData, launchIndex, platform, expiryTime, groupNames, groupNamesSize); if (instance) { instance->launchTime = time (NULL); foundidx=-1; for (i=0; i<MAX_FAKE_INSTANCES && (foundidx < 0); i++) { if (!strlen(myconfig->global_instances[i].instanceId)) { foundidx = i; } } memcpy( &(myconfig->global_instances[foundidx]),instance, sizeof(ncInstance)); logprintfl(EUCADEBUG, "fakeNC: runInstance(): decrementing resource by %d/%d/%d\n", params->cores, params->mem, params->disk); myconfig->res.memorySizeAvailable -= params->mem; myconfig->res.numberOfCoresAvailable -= params->cores; myconfig->res.diskSizeAvailable -= params->disk; *outInstPtr = instance; logprintfl(EUCADEBUG, "fakeNC: runInstance(): allocated and stored instance\n"); } else { logprintfl(EUCAERROR, "fakeNC: runInstance(): failed to allocate instance\n"); } saveNcStuff(); return(0); }
int main (int argc, char **argv) { printf ("=====> testing misc.c\n"); test_command("date"); test_command("ls / -l | sort"); test_command("/foo"); { char c = 0; long l = 0; int i = 0; long long ll = 0; sscanf_lines ("a1\na\na2\n", "a%d", &i); assert (i==1); sscanf_lines ("a\nab3\na 4\na5", "a %d", &i); assert (i==4); sscanf_lines ("", "%d", &i); sscanf_lines ("\n\n\n", "%d", &i); sscanf_lines ("abcdefg6", "g%d", &i); assert (i!=6); sscanf_lines ("abcdefg", "ab%cdefg", &c); assert (c=='c'); sscanf_lines ("a\na 7\na\n", "a %ld", &l); assert (l==7L); sscanf_lines ("a\n8a\na9\n", "a %lld", &ll); assert (ll==9L); } printf ("=====> testing data.c\n"); { #define INSTS 50 bunchOfInstances * bag = NULL; ncInstance * inst = NULL; ncInstance * Insts[INSTS]; int i, n; printf ("========> testing instance struct management\n"); free_instance (NULL); free_instance (&inst); inst = allocate_instance ("the-uuid", "i1", NULL, NULL, NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0); assert(inst!=NULL); free_instance (&inst); assert(inst==NULL); n = total_instances (&bag); assert(n==0); bag=NULL; inst = find_instance(&bag, "foo"); assert(inst==NULL); bag=NULL; n = remove_instance(&bag, NULL); assert(n!=0); bag=NULL; for (i=0; i<INSTS; i++) { char id[10]; sprintf(id, "i-%d", i); inst = Insts[i] = allocate_instance ("the-uuid", id, NULL, NULL, NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0); assert (inst!=NULL); n = add_instance(&bag, inst); assert (n==0); } n = total_instances (&bag); assert (n==INSTS); n = remove_instance(&bag, Insts[0]); assert (n==0); n = remove_instance(&bag, Insts[INSTS-1]); assert (n==0); n = total_instances (&bag); assert (n==INSTS-2); printf ("========> testing volume struct management\n"); ncVolume * v; inst = allocate_instance ("the-uuid", "i2", NULL, NULL, NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0); assert(inst!=NULL); for (i=0; i<EUCA_MAX_VOLUMES; i++) { char id[10]; sprintf (id, "v-%d", i); v = save_volume (inst, id, "rd", "ld", "ldr", VOL_STATE_ATTACHED); assert (v!=NULL); } assert (is_volume_used (v)); assert (save_volume (inst, "too-much", "rd", "ld", "ldr", VOL_STATE_ATTACHED)==NULL); assert (save_volume (inst, v->volumeId, NULL, NULL, NULL, NULL)!=NULL); assert (save_volume (inst, v->volumeId, "RD", NULL, NULL, NULL)!=NULL); assert (save_volume (inst, v->volumeId, NULL, "LD", NULL, NULL)!=NULL); assert (save_volume (inst, v->volumeId, NULL, NULL, "LDR", NULL)!=NULL); assert (save_volume (inst, v->volumeId, NULL, NULL, NULL, VOL_STATE_DETACHED)!=NULL); assert (strcmp (v->remoteDev, "RD") == 0); assert (save_volume (inst, "v-x1", NULL, NULL, NULL, VOL_STATE_ATTACHING)!=NULL); assert (save_volume (inst, "v-x2", NULL, NULL, NULL, VOL_STATE_ATTACHING)==NULL); assert (save_volume (inst, "v-x1", NULL, NULL, NULL, VOL_STATE_DETACHING)!=NULL); assert (save_volume (inst, "v-x2", NULL, NULL, NULL, VOL_STATE_ATTACHING)==NULL); assert (save_volume (inst, "v-x1", NULL, NULL, NULL, VOL_STATE_DETACHING_FAILED)!=NULL); assert (save_volume (inst, "v-x2", NULL, NULL, NULL, VOL_STATE_ATTACHING)==NULL); assert (free_volume (inst, "v-x1")!=NULL); for (i=0; i<EUCA_MAX_VOLUMES-1; i++) { char id[10]; sprintf (id, "v-%d", i); v = free_volume (inst, id); assert (v!=NULL); } free_instance (&inst); assert(inst==NULL); } printf ("OK\n"); return 0; }
static ncInstance * copy_instance_from_adb (adb_instanceType_t * instance, axutil_env_t * env) { int i; adb_virtualMachineType_t * vm_type = adb_instanceType_get_instanceType(instance, env); virtualMachine params; copy_vm_type_from_adb (¶ms, vm_type, env); netConfig ncnet; bzero(&ncnet, sizeof(netConfig)); adb_netConfigType_t * netconf = adb_instanceType_get_netParams(instance, env); if (netconf != NULL) { ncnet.vlan = adb_netConfigType_get_vlan(netconf, env); ncnet.networkIndex = adb_netConfigType_get_networkIndex(netconf, env); strncpy(ncnet.privateMac, adb_netConfigType_get_privateMacAddress(netconf, env), 24); strncpy(ncnet.privateIp, adb_netConfigType_get_privateIp(netconf, env), 24); strncpy(ncnet.publicIp, adb_netConfigType_get_publicIp(netconf, env), 24); } int groupNamesSize = adb_instanceType_sizeof_groupNames (instance, env); char * groupNames [EUCA_MAX_GROUPS]; for (i = 0; i<EUCA_MAX_GROUPS && i<groupNamesSize; i++) { groupNames[i] = adb_instanceType_get_groupNames_at (instance, env, i); } ncInstance * outInst = allocate_instance( (char *)adb_instanceType_get_instanceId(instance, env), (char *)adb_instanceType_get_reservationId(instance, env), ¶ms, (char *)adb_instanceType_get_imageId(instance, env), NULL, // URL is NULL (char *)adb_instanceType_get_kernelId(instance, env), NULL, // URL is NULL (char *)adb_instanceType_get_ramdiskId(instance, env), NULL, // URL is NULL (char *)adb_instanceType_get_stateName(instance, env), 0, (char *)adb_instanceType_get_userId(instance, env), &ncnet, (char *)adb_instanceType_get_keyName(instance, env), (char *)adb_instanceType_get_userData(instance, env), (char *)adb_instanceType_get_launchIndex(instance, env), groupNames, groupNamesSize ); axutil_date_time_t * dt = adb_instanceType_get_launchTime(instance, env); if (dt!=NULL) { outInst->launchTime = datetime_to_unix (dt, env); axutil_date_time_free(dt, env); } outInst->volumesSize = adb_instanceType_sizeof_volumes (instance, env); if (outInst->volumesSize > 0) { for (i=0; i<EUCA_MAX_VOLUMES && i<outInst->volumesSize; i++) { adb_volumeType_t * volume = adb_instanceType_get_volumes_at (instance, env, i); strncpy (outInst->volumes[i].volumeId, adb_volumeType_get_volumeId (volume, env), CHAR_BUFFER_SIZE); strncpy (outInst->volumes[i].remoteDev, adb_volumeType_get_remoteDev (volume, env), CHAR_BUFFER_SIZE); strncpy (outInst->volumes[i].localDev, adb_volumeType_get_localDev (volume, env), CHAR_BUFFER_SIZE); strncpy (outInst->volumes[i].stateName, adb_volumeType_get_state (volume, env), CHAR_BUFFER_SIZE); } } return outInst; }
static int doRunInstance( struct nc_state_t *nc, ncMetadata *meta, char *instanceId, char *reservationId, virtualMachine *params, char *imageId, char *imageURL, char *kernelId, char *kernelURL, char *ramdiskId, char *ramdiskURL, char *keyName, // char *privMac, char *privIp, int vlan, netConfig *netparams, char *userData, char *launchIndex, char **groupNames, int groupNamesSize, ncInstance **outInst) { ncInstance * instance = NULL; * outInst = NULL; pid_t pid; netConfig ncnet; int error; memcpy(&ncnet, netparams, sizeof(netConfig)); /* check as much as possible before forking off and returning */ sem_p (inst_sem); instance = find_instance (&global_instances, instanceId); sem_v (inst_sem); if (instance) { logprintfl (EUCAFATAL, "Error: instance %s already running\n", instanceId); return 1; /* TODO: return meaningful error codes? */ } if (!(instance = allocate_instance (instanceId, reservationId, params, imageId, imageURL, kernelId, kernelURL, ramdiskId, ramdiskURL, instance_state_names[PENDING], PENDING, meta->userId, &ncnet, keyName, userData, launchIndex, groupNames, groupNamesSize))) { logprintfl (EUCAFATAL, "Error: could not allocate instance struct\n"); return 2; } change_state(instance, STAGING); sem_p (inst_sem); error = add_instance (&global_instances, instance); sem_v (inst_sem); if ( error ) { free_instance (&instance); logprintfl (EUCAFATAL, "Error: could not save instance struct\n"); return error; } instance->launchTime = time (NULL); /* instance->params.mem = params->mem; instance->params.cores = params->cores; instance->params.disk = params->disk; strcpy (instance->ncnet.privateIp, "0.0.0.0"); strcpy (instance->ncnet.publicIp, "0.0.0.0"); */ /* do the potentially long tasks in a thread */ pthread_attr_t* attr = (pthread_attr_t*) malloc(sizeof(pthread_attr_t)); if (!attr) { free_instance (&instance); logprintfl (EUCAFATAL, "Warning: out of memory\n"); return 1; } pthread_attr_init(attr); pthread_attr_setdetachstate(attr, PTHREAD_CREATE_DETACHED); if ( pthread_create (&(instance->tcb), attr, startup_thread, (void *)instance) ) { pthread_attr_destroy(attr); logprintfl (EUCAFATAL, "failed to spawn a VM startup thread\n"); sem_p (inst_sem); remove_instance (&global_instances, instance); sem_v (inst_sem); free_instance (&instance); if (attr) free(attr); return 1; } pthread_attr_destroy(attr); if (attr) free(attr); * outInst = instance; return 0; }
//! //! Main entry point of the application //! //! @param[in] argc the number of parameter passed on the command line //! @param[in] argv the list of arguments //! //! @return Always return 0 //! int main(int argc, char **argv) { printf("=====> testing misc.c\n"); test_command("date"); test_command("ls / -l | sort"); test_command("/foo"); { char c = 0; long l = 0; int i = 0; long long ll = 0; euca_lscanf("a1\na\na2\n", "a%d", &i); assert(i == 1); euca_lscanf("a\nab3\na 4\na5", "a %d", &i); assert(i == 4); euca_lscanf("", "%d", &i); euca_lscanf("\n\n\n", "%d", &i); euca_lscanf("abcdefg6", "g%d", &i); assert(i != 6); euca_lscanf("abcdefg", "ab%cdefg", &c); assert(c == 'c'); euca_lscanf("a\na 7\na\n", "a %ld", &l); assert(l == 7L); euca_lscanf("a\n8a\na9\n", "a %lld", &ll); assert(ll == 9L); } printf("=====> testing auth.c\n"); { //int decrypt_string_with_node_and_symmetric_key(char *in_buffer, char *key_buffer, char**out_buffer) euca_init_cert(); char *encrypted_symm_key = "YCvEugV7FynwQnyDbNX8hVFstseIpzhBCi6nxWZOUhVbivEf9Frkk7evxvQeSn9GUIvyNSE15Stts/CQmIGNsAKpAmjUoDzkkB/8EUCO9bgVi6IQl6SOzZCqX1hGCMZT1Ir32HXcwZcEbtDl0WpfLahjT9pZQAtDnnRT7H8+qysxUbEoL9Z2Yw5GneF5hRDWcA9Kce617oNbPFiZjLnnQr2iNsxyWb8LVj7KnBweJ8UJumgcWp26VsWoBUUCK/3adPAvOk/kalgrXZAk6fo/TqGUqdokjj1tz3rG7dcvTRuB0qwY1P8KfgRg3HABQcHjriKNvBYTVDhhEFDP2v0fiA=="; char *encrypted_string = "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"; char *decrypted = NULL; int out_len = -1; if (decrypt_string_with_node_and_symmetric_key(encrypted_string, encrypted_symm_key, &decrypted, &out_len) != EUCA_OK) { printf("failed to decrypt using symmetric key\n"); } else { printf("decrypted length: %d\n", out_len); } } printf("=====> testing data.c\n"); { #define INSTS 50 bunchOfInstances *bag = NULL; ncInstance *inst = NULL; ncInstance *Insts[INSTS]; int i, n; printf("========> testing instance struct management\n"); free_instance(NULL); free_instance(&inst); inst = allocate_instance("the-uuid", "i1", NULL, NULL, NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0); assert(inst != NULL); free_instance(&inst); assert(inst == NULL); n = total_instances(&bag); assert(n == 0); bag = NULL; inst = find_instance(&bag, "foo"); assert(inst == NULL); bag = NULL; n = remove_instance(&bag, NULL); assert(n != EUCA_OK); bag = NULL; for (i = 0; i < INSTS; i++) { char id[10]; sprintf(id, "i-%d", i); inst = Insts[i] = allocate_instance("the-uuid", id, NULL, NULL, NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0); assert(inst != NULL); n = add_instance(&bag, inst); assert(n == EUCA_OK); } n = total_instances(&bag); assert(n == INSTS); n = remove_instance(&bag, Insts[0]); assert(n == EUCA_OK); n = remove_instance(&bag, Insts[INSTS - 1]); assert(n == EUCA_OK); n = total_instances(&bag); assert(n == INSTS - 2); printf("========> testing volume struct management\n"); ncVolume *v; inst = allocate_instance("the-uuid", "i2", NULL, NULL, NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0); assert(inst != NULL); for (i = 0; i < EUCA_MAX_VOLUMES; i++) { char id[10]; sprintf(id, "v-%d", i); v = save_volume(inst, id, "tok", "rd", "ld", "ldr", VOL_STATE_ATTACHED); assert(v != NULL); } assert(is_volume_used(v)); assert(save_volume(inst, "too-much", "tok", "rd", "ld", "ldr", VOL_STATE_ATTACHED) == NULL); assert(save_volume(inst, v->volumeId, NULL, NULL, NULL, NULL, NULL) != NULL); assert(save_volume(inst, v->volumeId, NULL, "RD", NULL, NULL, NULL) != NULL); assert(save_volume(inst, v->volumeId, NULL, NULL, "LD", NULL, NULL) != NULL); assert(save_volume(inst, v->volumeId, NULL, NULL, NULL, "LDR", NULL) != NULL); assert(save_volume(inst, v->volumeId, NULL, NULL, NULL, NULL, VOL_STATE_DETACHED) != NULL); assert(strcmp(v->attachmentToken, "RD") == 0); assert(save_volume(inst, "v-x1", NULL, NULL, NULL, NULL, VOL_STATE_ATTACHING) != NULL); assert(save_volume(inst, "v-x2", NULL, NULL, NULL, NULL, VOL_STATE_ATTACHING) == NULL); assert(save_volume(inst, "v-x1", NULL, NULL, NULL, NULL, VOL_STATE_DETACHING) != NULL); assert(save_volume(inst, "v-x2", NULL, NULL, NULL, NULL, VOL_STATE_ATTACHING) == NULL); assert(save_volume(inst, "v-x1", NULL, NULL, NULL, NULL, VOL_STATE_DETACHING_FAILED) != NULL); assert(save_volume(inst, "v-x2", NULL, NULL, NULL, NULL, VOL_STATE_ATTACHING) == NULL); assert(free_volume(inst, "v-x1") != NULL); for (i = 0; i < EUCA_MAX_VOLUMES - 1; i++) { char id[10]; sprintf(id, "v-%d", i); v = free_volume(inst, id); assert(v != NULL); } free_instance(&inst); assert(inst == NULL); } printf("OK\n"); return 0; }