/* * Automatically generated from ../test/regress.rpc * by event_rpcgen.py/0.1. DO NOT EDIT THIS FILE. */ #include #include #include #include #include #include #include #if defined(EVENT__HAVE___func__) # ifndef __func__ # define __func__ __func__ # endif #elif defined(EVENT__HAVE___FUNCTION__) # define __func__ __FUNCTION__ #else # define __func__ __FILE__ #endif #include "regress.gen.h" void event_warn(const char *fmt, ...); void event_warnx(const char *fmt, ...); /* * Implementation of msg */ static struct msg_access_ msg_base__ = { msg_from_name_assign, msg_from_name_get, msg_to_name_assign, msg_to_name_get, msg_attack_assign, msg_attack_get, msg_run_assign, msg_run_get, msg_run_add, }; struct msg * msg_new(void) { return msg_new_with_arg(NULL); } struct msg * msg_new_with_arg(void *unused) { struct msg *tmp; if ((tmp = malloc(sizeof(struct msg))) == NULL) { event_warn("%s: malloc", __func__); return (NULL); } tmp->base = &msg_base__; tmp->from_name_data = NULL; tmp->from_name_set = 0; tmp->to_name_data = NULL; tmp->to_name_set = 0; tmp->attack_data = NULL; tmp->attack_set = 0; tmp->run_data = NULL; tmp->run_length = 0; tmp->run_num_allocated = 0; tmp->run_set = 0; return (tmp); } static int msg_run_expand_to_hold_more(struct msg *msg) { int tobe_allocated = msg->run_num_allocated; struct run** new_data = NULL; tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; new_data = (struct run**) realloc(msg->run_data, tobe_allocated * sizeof(struct run*)); if (new_data == NULL) return -1; msg->run_data = new_data; msg->run_num_allocated = tobe_allocated; return 0; } struct run* msg_run_add(struct msg *msg) { if (++msg->run_length >= msg->run_num_allocated) { if (msg_run_expand_to_hold_more(msg)<0) goto error; } msg->run_data[msg->run_length - 1] = run_new(); if (msg->run_data[msg->run_length - 1] == NULL) goto error; msg->run_set = 1; return (msg->run_data[msg->run_length - 1]); error: --msg->run_length; return (NULL); } int msg_from_name_assign(struct msg *msg, const char * value) { if (msg->from_name_data != NULL) free(msg->from_name_data); if ((msg->from_name_data = strdup(value)) == NULL) return (-1); msg->from_name_set = 1; return (0); } int msg_to_name_assign(struct msg *msg, const char * value) { if (msg->to_name_data != NULL) free(msg->to_name_data); if ((msg->to_name_data = strdup(value)) == NULL) return (-1); msg->to_name_set = 1; return (0); } int msg_attack_assign(struct msg *msg, const struct kill* value) { struct evbuffer *tmp = NULL; if (msg->attack_set) { kill_clear(msg->attack_data); msg->attack_set = 0; } else { msg->attack_data = kill_new(); if (msg->attack_data == NULL) { event_warn("%s: kill_new()", __func__); goto error; } } if ((tmp = evbuffer_new()) == NULL) { event_warn("%s: evbuffer_new()", __func__); goto error; } kill_marshal(tmp, value); if (kill_unmarshal(msg->attack_data, tmp) == -1) { event_warnx("%s: kill_unmarshal", __func__); goto error; } msg->attack_set = 1; evbuffer_free(tmp); return (0); error: if (tmp != NULL) evbuffer_free(tmp); if (msg->attack_data != NULL) { kill_free(msg->attack_data); msg->attack_data = NULL; } return (-1); } int msg_run_assign(struct msg *msg, int off, const struct run* value) { if (!msg->run_set || off < 0 || off >= msg->run_length) return (-1); { int had_error = 0; struct evbuffer *tmp = NULL; run_clear(msg->run_data[off]); if ((tmp = evbuffer_new()) == NULL) { event_warn("%s: evbuffer_new()", __func__); had_error = 1; goto done; } run_marshal(tmp, value); if (run_unmarshal(msg->run_data[off], tmp) == -1) { event_warnx("%s: run_unmarshal", __func__); had_error = 1; goto done; } done: if (tmp != NULL) evbuffer_free(tmp); if (had_error) { run_clear(msg->run_data[off]); return (-1); } } return (0); } int msg_from_name_get(struct msg *msg, char * *value) { if (msg->from_name_set != 1) return (-1); *value = msg->from_name_data; return (0); } int msg_to_name_get(struct msg *msg, char * *value) { if (msg->to_name_set != 1) return (-1); *value = msg->to_name_data; return (0); } int msg_attack_get(struct msg *msg, struct kill* *value) { if (msg->attack_set != 1) { msg->attack_data = kill_new(); if (msg->attack_data == NULL) return (-1); msg->attack_set = 1; } *value = msg->attack_data; return (0); } int msg_run_get(struct msg *msg, int offset, struct run* *value) { if (!msg->run_set || offset < 0 || offset >= msg->run_length) return (-1); *value = msg->run_data[offset]; return (0); } void msg_clear(struct msg *tmp) { if (tmp->from_name_set == 1) { free(tmp->from_name_data); tmp->from_name_data = NULL; tmp->from_name_set = 0; } if (tmp->to_name_set == 1) { free(tmp->to_name_data); tmp->to_name_data = NULL; tmp->to_name_set = 0; } if (tmp->attack_set == 1) { kill_free(tmp->attack_data); tmp->attack_data = NULL; tmp->attack_set = 0; } if (tmp->run_set == 1) { int i; for (i = 0; i < tmp->run_length; ++i) { run_free(tmp->run_data[i]); } free(tmp->run_data); tmp->run_data = NULL; tmp->run_set = 0; tmp->run_length = 0; tmp->run_num_allocated = 0; } } void msg_free(struct msg *tmp) { if (tmp->from_name_data != NULL) free (tmp->from_name_data); if (tmp->to_name_data != NULL) free (tmp->to_name_data); if (tmp->attack_data != NULL) kill_free(tmp->attack_data); if (tmp->run_set == 1) { int i; for (i = 0; i < tmp->run_length; ++i) { run_free(tmp->run_data[i]); } free(tmp->run_data); tmp->run_data = NULL; tmp->run_set = 0; tmp->run_length = 0; tmp->run_num_allocated = 0; } free(tmp->run_data); free(tmp); } void msg_marshal(struct evbuffer *evbuf, const struct msg *tmp) { evtag_marshal_string(evbuf, MSG_FROM_NAME, tmp->from_name_data); evtag_marshal_string(evbuf, MSG_TO_NAME, tmp->to_name_data); if (tmp->attack_set) { evtag_marshal_kill(evbuf, MSG_ATTACK, tmp->attack_data); } if (tmp->run_set) { { int i; for (i = 0; i < tmp->run_length; ++i) { evtag_marshal_run(evbuf, MSG_RUN, tmp->run_data[i]); } } } } int msg_unmarshal(struct msg *tmp, struct evbuffer *evbuf) { ev_uint32_t tag; while (evbuffer_get_length(evbuf) > 0) { if (evtag_peek(evbuf, &tag) == -1) return (-1); switch (tag) { case MSG_FROM_NAME: if (tmp->from_name_set) return (-1); if (evtag_unmarshal_string(evbuf, MSG_FROM_NAME, &tmp->from_name_data) == -1) { event_warnx("%s: failed to unmarshal from_name", __func__); return (-1); } tmp->from_name_set = 1; break; case MSG_TO_NAME: if (tmp->to_name_set) return (-1); if (evtag_unmarshal_string(evbuf, MSG_TO_NAME, &tmp->to_name_data) == -1) { event_warnx("%s: failed to unmarshal to_name", __func__); return (-1); } tmp->to_name_set = 1; break; case MSG_ATTACK: if (tmp->attack_set) return (-1); tmp->attack_data = kill_new(); if (tmp->attack_data == NULL) return (-1); if (evtag_unmarshal_kill(evbuf, MSG_ATTACK, tmp->attack_data) == -1) { event_warnx("%s: failed to unmarshal attack", __func__); return (-1); } tmp->attack_set = 1; break; case MSG_RUN: if (tmp->run_length >= tmp->run_num_allocated && msg_run_expand_to_hold_more(tmp) < 0) { puts("HEY NOW"); return (-1); } tmp->run_data[tmp->run_length] = run_new(); if (tmp->run_data[tmp->run_length] == NULL) return (-1); if (evtag_unmarshal_run(evbuf, MSG_RUN, tmp->run_data[tmp->run_length]) == -1) { event_warnx("%s: failed to unmarshal run", __func__); return (-1); } ++tmp->run_length; tmp->run_set = 1; break; default: return -1; } } if (msg_complete(tmp) == -1) return (-1); return (0); } int msg_complete(struct msg *msg) { if (!msg->from_name_set) return (-1); if (!msg->to_name_set) return (-1); if (msg->attack_set && kill_complete(msg->attack_data) == -1) return (-1); { int i; for (i = 0; i < msg->run_length; ++i) { if (msg->run_set && run_complete(msg->run_data[i]) == -1) return (-1); } } return (0); } int evtag_unmarshal_msg(struct evbuffer *evbuf, ev_uint32_t need_tag, struct msg *msg) { ev_uint32_t tag; int res = -1; struct evbuffer *tmp = evbuffer_new(); if (evtag_unmarshal(evbuf, &tag, tmp) == -1 || tag != need_tag) goto error; if (msg_unmarshal(msg, tmp) == -1) goto error; res = 0; error: evbuffer_free(tmp); return (res); } void evtag_marshal_msg(struct evbuffer *evbuf, ev_uint32_t tag, const struct msg *msg) { struct evbuffer *buf_ = evbuffer_new(); assert(buf_ != NULL); msg_marshal(buf_, msg); evtag_marshal_buffer(evbuf, tag, buf_); evbuffer_free(buf_); } /* * Implementation of kill */ static struct kill_access_ kill_base__ = { kill_weapon_assign, kill_weapon_get, kill_action_assign, kill_action_get, kill_how_often_assign, kill_how_often_get, kill_how_often_add, }; struct kill * kill_new(void) { return kill_new_with_arg(NULL); } struct kill * kill_new_with_arg(void *unused) { struct kill *tmp; if ((tmp = malloc(sizeof(struct kill))) == NULL) { event_warn("%s: malloc", __func__); return (NULL); } tmp->base = &kill_base__; tmp->weapon_data = NULL; tmp->weapon_set = 0; tmp->action_data = NULL; tmp->action_set = 0; tmp->how_often_data = NULL; tmp->how_often_length = 0; tmp->how_often_num_allocated = 0; tmp->how_often_set = 0; return (tmp); } static int kill_how_often_expand_to_hold_more(struct kill *msg) { int tobe_allocated = msg->how_often_num_allocated; ev_uint32_t* new_data = NULL; tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; new_data = (ev_uint32_t*) realloc(msg->how_often_data, tobe_allocated * sizeof(ev_uint32_t)); if (new_data == NULL) return -1; msg->how_often_data = new_data; msg->how_often_num_allocated = tobe_allocated; return 0; } ev_uint32_t * kill_how_often_add(struct kill *msg, const ev_uint32_t value) { if (++msg->how_often_length >= msg->how_often_num_allocated) { if (kill_how_often_expand_to_hold_more(msg)<0) goto error; } msg->how_often_data[msg->how_often_length - 1] = value; msg->how_often_set = 1; return &(msg->how_often_data[msg->how_often_length - 1]); error: --msg->how_often_length; return (NULL); } int kill_weapon_assign(struct kill *msg, const char * value) { if (msg->weapon_data != NULL) free(msg->weapon_data); if ((msg->weapon_data = strdup(value)) == NULL) return (-1); msg->weapon_set = 1; return (0); } int kill_action_assign(struct kill *msg, const char * value) { if (msg->action_data != NULL) free(msg->action_data); if ((msg->action_data = strdup(value)) == NULL) return (-1); msg->action_set = 1; return (0); } int kill_how_often_assign(struct kill *msg, int off, const ev_uint32_t value) { if (!msg->how_often_set || off < 0 || off >= msg->how_often_length) return (-1); { msg->how_often_data[off] = value; } return (0); } int kill_weapon_get(struct kill *msg, char * *value) { if (msg->weapon_set != 1) return (-1); *value = msg->weapon_data; return (0); } int kill_action_get(struct kill *msg, char * *value) { if (msg->action_set != 1) return (-1); *value = msg->action_data; return (0); } int kill_how_often_get(struct kill *msg, int offset, ev_uint32_t *value) { if (!msg->how_often_set || offset < 0 || offset >= msg->how_often_length) return (-1); *value = msg->how_often_data[offset]; return (0); } void kill_clear(struct kill *tmp) { if (tmp->weapon_set == 1) { free(tmp->weapon_data); tmp->weapon_data = NULL; tmp->weapon_set = 0; } if (tmp->action_set == 1) { free(tmp->action_data); tmp->action_data = NULL; tmp->action_set = 0; } if (tmp->how_often_set == 1) { free(tmp->how_often_data); tmp->how_often_data = NULL; tmp->how_often_set = 0; tmp->how_often_length = 0; tmp->how_often_num_allocated = 0; } } void kill_free(struct kill *tmp) { if (tmp->weapon_data != NULL) free (tmp->weapon_data); if (tmp->action_data != NULL) free (tmp->action_data); if (tmp->how_often_set == 1) { free(tmp->how_often_data); tmp->how_often_data = NULL; tmp->how_often_set = 0; tmp->how_often_length = 0; tmp->how_often_num_allocated = 0; } free(tmp->how_often_data); free(tmp); } void kill_marshal(struct evbuffer *evbuf, const struct kill *tmp) { evtag_marshal_string(evbuf, KILL_WEAPON, tmp->weapon_data); evtag_marshal_string(evbuf, KILL_ACTION, tmp->action_data); if (tmp->how_often_set) { { int i; for (i = 0; i < tmp->how_often_length; ++i) { evtag_marshal_int(evbuf, KILL_HOW_OFTEN, tmp->how_often_data[i]); } } } } int kill_unmarshal(struct kill *tmp, struct evbuffer *evbuf) { ev_uint32_t tag; while (evbuffer_get_length(evbuf) > 0) { if (evtag_peek(evbuf, &tag) == -1) return (-1); switch (tag) { case KILL_WEAPON: if (tmp->weapon_set) return (-1); if (evtag_unmarshal_string(evbuf, KILL_WEAPON, &tmp->weapon_data) == -1) { event_warnx("%s: failed to unmarshal weapon", __func__); return (-1); } tmp->weapon_set = 1; break; case KILL_ACTION: if (tmp->action_set) return (-1); if (evtag_unmarshal_string(evbuf, KILL_ACTION, &tmp->action_data) == -1) { event_warnx("%s: failed to unmarshal action", __func__); return (-1); } tmp->action_set = 1; break; case KILL_HOW_OFTEN: if (tmp->how_often_length >= tmp->how_often_num_allocated && kill_how_often_expand_to_hold_more(tmp) < 0) { puts("HEY NOW"); return (-1); } if (evtag_unmarshal_int(evbuf, KILL_HOW_OFTEN, &tmp->how_often_data[tmp->how_often_length]) == -1) { event_warnx("%s: failed to unmarshal how_often", __func__); return (-1); } ++tmp->how_often_length; tmp->how_often_set = 1; break; default: return -1; } } if (kill_complete(tmp) == -1) return (-1); return (0); } int kill_complete(struct kill *msg) { if (!msg->weapon_set) return (-1); if (!msg->action_set) return (-1); return (0); } int evtag_unmarshal_kill(struct evbuffer *evbuf, ev_uint32_t need_tag, struct kill *msg) { ev_uint32_t tag; int res = -1; struct evbuffer *tmp = evbuffer_new(); if (evtag_unmarshal(evbuf, &tag, tmp) == -1 || tag != need_tag) goto error; if (kill_unmarshal(msg, tmp) == -1) goto error; res = 0; error: evbuffer_free(tmp); return (res); } void evtag_marshal_kill(struct evbuffer *evbuf, ev_uint32_t tag, const struct kill *msg) { struct evbuffer *buf_ = evbuffer_new(); assert(buf_ != NULL); kill_marshal(buf_, msg); evtag_marshal_buffer(evbuf, tag, buf_); evbuffer_free(buf_); } /* * Implementation of run */ static struct run_access_ run_base__ = { run_how_assign, run_how_get, run_some_bytes_assign, run_some_bytes_get, run_fixed_bytes_assign, run_fixed_bytes_get, run_notes_assign, run_notes_get, run_notes_add, run_large_number_assign, run_large_number_get, run_other_numbers_assign, run_other_numbers_get, run_other_numbers_add, }; struct run * run_new(void) { return run_new_with_arg(NULL); } struct run * run_new_with_arg(void *unused) { struct run *tmp; if ((tmp = malloc(sizeof(struct run))) == NULL) { event_warn("%s: malloc", __func__); return (NULL); } tmp->base = &run_base__; tmp->how_data = NULL; tmp->how_set = 0; tmp->some_bytes_data = NULL; tmp->some_bytes_length = 0; tmp->some_bytes_set = 0; memset(tmp->fixed_bytes_data, 0, sizeof(tmp->fixed_bytes_data)); tmp->fixed_bytes_set = 0; tmp->notes_data = NULL; tmp->notes_length = 0; tmp->notes_num_allocated = 0; tmp->notes_set = 0; tmp->large_number_data = 0; tmp->large_number_set = 0; tmp->other_numbers_data = NULL; tmp->other_numbers_length = 0; tmp->other_numbers_num_allocated = 0; tmp->other_numbers_set = 0; return (tmp); } static int run_notes_expand_to_hold_more(struct run *msg) { int tobe_allocated = msg->notes_num_allocated; char ** new_data = NULL; tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; new_data = (char **) realloc(msg->notes_data, tobe_allocated * sizeof(char *)); if (new_data == NULL) return -1; msg->notes_data = new_data; msg->notes_num_allocated = tobe_allocated; return 0; } char * * run_notes_add(struct run *msg, const char * value) { if (++msg->notes_length >= msg->notes_num_allocated) { if (run_notes_expand_to_hold_more(msg)<0) goto error; } if (value != NULL) { msg->notes_data[msg->notes_length - 1] = strdup(value); if (msg->notes_data[msg->notes_length - 1] == NULL) { goto error; } } else { msg->notes_data[msg->notes_length - 1] = NULL; } msg->notes_set = 1; return &(msg->notes_data[msg->notes_length - 1]); error: --msg->notes_length; return (NULL); } static int run_other_numbers_expand_to_hold_more(struct run *msg) { int tobe_allocated = msg->other_numbers_num_allocated; ev_uint32_t* new_data = NULL; tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; new_data = (ev_uint32_t*) realloc(msg->other_numbers_data, tobe_allocated * sizeof(ev_uint32_t)); if (new_data == NULL) return -1; msg->other_numbers_data = new_data; msg->other_numbers_num_allocated = tobe_allocated; return 0; } ev_uint32_t * run_other_numbers_add(struct run *msg, const ev_uint32_t value) { if (++msg->other_numbers_length >= msg->other_numbers_num_allocated) { if (run_other_numbers_expand_to_hold_more(msg)<0) goto error; } msg->other_numbers_data[msg->other_numbers_length - 1] = value; msg->other_numbers_set = 1; return &(msg->other_numbers_data[msg->other_numbers_length - 1]); error: --msg->other_numbers_length; return (NULL); } int run_how_assign(struct run *msg, const char * value) { if (msg->how_data != NULL) free(msg->how_data); if ((msg->how_data = strdup(value)) == NULL) return (-1); msg->how_set = 1; return (0); } int run_some_bytes_assign(struct run *msg, const ev_uint8_t * value, ev_uint32_t len) { if (msg->some_bytes_data != NULL) free (msg->some_bytes_data); msg->some_bytes_data = malloc(len); if (msg->some_bytes_data == NULL) return (-1); msg->some_bytes_set = 1; msg->some_bytes_length = len; memcpy(msg->some_bytes_data, value, len); return (0); } int run_fixed_bytes_assign(struct run *msg, const ev_uint8_t *value) { msg->fixed_bytes_set = 1; memcpy(msg->fixed_bytes_data, value, 24); return (0); } int run_notes_assign(struct run *msg, int off, const char * value) { if (!msg->notes_set || off < 0 || off >= msg->notes_length) return (-1); { if (msg->notes_data[off] != NULL) free(msg->notes_data[off]); msg->notes_data[off] = strdup(value); if (msg->notes_data[off] == NULL) { event_warnx("%s: strdup", __func__); return (-1); } } return (0); } int run_large_number_assign(struct run *msg, const ev_uint64_t value) { msg->large_number_set = 1; msg->large_number_data = value; return (0); } int run_other_numbers_assign(struct run *msg, int off, const ev_uint32_t value) { if (!msg->other_numbers_set || off < 0 || off >= msg->other_numbers_length) return (-1); { msg->other_numbers_data[off] = value; } return (0); } int run_how_get(struct run *msg, char * *value) { if (msg->how_set != 1) return (-1); *value = msg->how_data; return (0); } int run_some_bytes_get(struct run *msg, ev_uint8_t * *value, ev_uint32_t *plen) { if (msg->some_bytes_set != 1) return (-1); *value = msg->some_bytes_data; *plen = msg->some_bytes_length; return (0); } int run_fixed_bytes_get(struct run *msg, ev_uint8_t **value) { if (msg->fixed_bytes_set != 1) return (-1); *value = msg->fixed_bytes_data; return (0); } int run_notes_get(struct run *msg, int offset, char * *value) { if (!msg->notes_set || offset < 0 || offset >= msg->notes_length) return (-1); *value = msg->notes_data[offset]; return (0); } int run_large_number_get(struct run *msg, ev_uint64_t *value) { if (msg->large_number_set != 1) return (-1); *value = msg->large_number_data; return (0); } int run_other_numbers_get(struct run *msg, int offset, ev_uint32_t *value) { if (!msg->other_numbers_set || offset < 0 || offset >= msg->other_numbers_length) return (-1); *value = msg->other_numbers_data[offset]; return (0); } void run_clear(struct run *tmp) { if (tmp->how_set == 1) { free(tmp->how_data); tmp->how_data = NULL; tmp->how_set = 0; } if (tmp->some_bytes_set == 1) { free (tmp->some_bytes_data); tmp->some_bytes_data = NULL; tmp->some_bytes_length = 0; tmp->some_bytes_set = 0; } tmp->fixed_bytes_set = 0; memset(tmp->fixed_bytes_data, 0, sizeof(tmp->fixed_bytes_data)); if (tmp->notes_set == 1) { int i; for (i = 0; i < tmp->notes_length; ++i) { if (tmp->notes_data[i] != NULL) free(tmp->notes_data[i]); } free(tmp->notes_data); tmp->notes_data = NULL; tmp->notes_set = 0; tmp->notes_length = 0; tmp->notes_num_allocated = 0; } tmp->large_number_set = 0; if (tmp->other_numbers_set == 1) { free(tmp->other_numbers_data); tmp->other_numbers_data = NULL; tmp->other_numbers_set = 0; tmp->other_numbers_length = 0; tmp->other_numbers_num_allocated = 0; } } void run_free(struct run *tmp) { if (tmp->how_data != NULL) free (tmp->how_data); if (tmp->some_bytes_data != NULL) free(tmp->some_bytes_data); if (tmp->notes_set == 1) { int i; for (i = 0; i < tmp->notes_length; ++i) { if (tmp->notes_data[i] != NULL) free(tmp->notes_data[i]); } free(tmp->notes_data); tmp->notes_data = NULL; tmp->notes_set = 0; tmp->notes_length = 0; tmp->notes_num_allocated = 0; } free(tmp->notes_data); if (tmp->other_numbers_set == 1) { free(tmp->other_numbers_data); tmp->other_numbers_data = NULL; tmp->other_numbers_set = 0; tmp->other_numbers_length = 0; tmp->other_numbers_num_allocated = 0; } free(tmp->other_numbers_data); free(tmp); } void run_marshal(struct evbuffer *evbuf, const struct run *tmp) { evtag_marshal_string(evbuf, RUN_HOW, tmp->how_data); if (tmp->some_bytes_set) { evtag_marshal(evbuf, RUN_SOME_BYTES, tmp->some_bytes_data, tmp->some_bytes_length); } evtag_marshal(evbuf, RUN_FIXED_BYTES, tmp->fixed_bytes_data, (24)); if (tmp->notes_set) { { int i; for (i = 0; i < tmp->notes_length; ++i) { evtag_marshal_string(evbuf, RUN_NOTES, tmp->notes_data[i]); } } } if (tmp->large_number_set) { evtag_marshal_int64(evbuf, RUN_LARGE_NUMBER, tmp->large_number_data); } if (tmp->other_numbers_set) { { int i; for (i = 0; i < tmp->other_numbers_length; ++i) { evtag_marshal_int(evbuf, RUN_OTHER_NUMBERS, tmp->other_numbers_data[i]); } } } } int run_unmarshal(struct run *tmp, struct evbuffer *evbuf) { ev_uint32_t tag; while (evbuffer_get_length(evbuf) > 0) { if (evtag_peek(evbuf, &tag) == -1) return (-1); switch (tag) { case RUN_HOW: if (tmp->how_set) return (-1); if (evtag_unmarshal_string(evbuf, RUN_HOW, &tmp->how_data) == -1) { event_warnx("%s: failed to unmarshal how", __func__); return (-1); } tmp->how_set = 1; break; case RUN_SOME_BYTES: if (tmp->some_bytes_set) return (-1); if (evtag_payload_length(evbuf, &tmp->some_bytes_length) == -1) return (-1); if (tmp->some_bytes_length > evbuffer_get_length(evbuf)) return (-1); if ((tmp->some_bytes_data = malloc(tmp->some_bytes_length)) == NULL) return (-1); if (evtag_unmarshal_fixed(evbuf, RUN_SOME_BYTES, tmp->some_bytes_data, tmp->some_bytes_length) == -1) { event_warnx("%s: failed to unmarshal some_bytes", __func__); return (-1); } tmp->some_bytes_set = 1; break; case RUN_FIXED_BYTES: if (tmp->fixed_bytes_set) return (-1); if (evtag_unmarshal_fixed(evbuf, RUN_FIXED_BYTES, tmp->fixed_bytes_data, (24)) == -1) { event_warnx("%s: failed to unmarshal fixed_bytes", __func__); return (-1); } tmp->fixed_bytes_set = 1; break; case RUN_NOTES: if (tmp->notes_length >= tmp->notes_num_allocated && run_notes_expand_to_hold_more(tmp) < 0) { puts("HEY NOW"); return (-1); } if (evtag_unmarshal_string(evbuf, RUN_NOTES, &tmp->notes_data[tmp->notes_length]) == -1) { event_warnx("%s: failed to unmarshal notes", __func__); return (-1); } ++tmp->notes_length; tmp->notes_set = 1; break; case RUN_LARGE_NUMBER: if (tmp->large_number_set) return (-1); if (evtag_unmarshal_int64(evbuf, RUN_LARGE_NUMBER, &tmp->large_number_data) == -1) { event_warnx("%s: failed to unmarshal large_number", __func__); return (-1); } tmp->large_number_set = 1; break; case RUN_OTHER_NUMBERS: if (tmp->other_numbers_length >= tmp->other_numbers_num_allocated && run_other_numbers_expand_to_hold_more(tmp) < 0) { puts("HEY NOW"); return (-1); } if (evtag_unmarshal_int(evbuf, RUN_OTHER_NUMBERS, &tmp->other_numbers_data[tmp->other_numbers_length]) == -1) { event_warnx("%s: failed to unmarshal other_numbers", __func__); return (-1); } ++tmp->other_numbers_length; tmp->other_numbers_set = 1; break; default: return -1; } } if (run_complete(tmp) == -1) return (-1); return (0); } int run_complete(struct run *msg) { if (!msg->how_set) return (-1); if (!msg->fixed_bytes_set) return (-1); return (0); } int evtag_unmarshal_run(struct evbuffer *evbuf, ev_uint32_t need_tag, struct run *msg) { ev_uint32_t tag; int res = -1; struct evbuffer *tmp = evbuffer_new(); if (evtag_unmarshal(evbuf, &tag, tmp) == -1 || tag != need_tag) goto error; if (run_unmarshal(msg, tmp) == -1) goto error; res = 0; error: evbuffer_free(tmp); return (res); } void evtag_marshal_run(struct evbuffer *evbuf, ev_uint32_t tag, const struct run *msg) { struct evbuffer *buf_ = evbuffer_new(); assert(buf_ != NULL); run_marshal(buf_, msg); evtag_marshal_buffer(evbuf, tag, buf_); evbuffer_free(buf_); }