#ifndef SFRT_MODULE_H #define SFRT_MODULE_H #include #include "types.h" struct module { char name[MOD_NAME_MAX]; char path[MOD_PATH_MAX]; void * dl_handle; mod_main_fn_t entry_fn; mod_glb_fn_t glb_init_fn; mod_mem_fn_t mem_init_fn; mod_tbl_fn_t tbl_init_fn; mod_libc_fn_t libc_init_fn; struct indirect_table_entry indirect_table[INDIRECT_TABLE_SIZE]; i32 nargs; u32 stack_size; // a specification? u64 max_memory; // perhaps a specification of the module. (max 4GB) u32 timeout; // again part of the module specification. u32 refcnt; // ref count how many instances exist here. struct sockaddr_in srvaddr; int srvsock, srvport; // unfortunately, using UV for accepting connections is not great! // on_connection, to create a new accepted connection, will have to // init a tcp handle, which requires a uvloop. cannot use main as // rest of the connection is handled in sandboxing threads, with per-core(per-thread) tls data-structures. // so, using direct epoll for accepting connections. // uv_handle_t srvuv; unsigned long max_req_sz, max_resp_sz, max_rr_sz; // req/resp from http, (resp size including headers!).. int nreqhdrs, nresphdrs; char reqhdrs[HTTP_HEADERS_MAX][HTTP_HEADER_MAXSZ]; char rqctype[HTTP_HEADERVAL_MAXSZ]; char rspctype[HTTP_HEADERVAL_MAXSZ]; char resphdrs[HTTP_HEADERS_MAX][HTTP_HEADER_MAXSZ]; }; struct module *module_alloc(char *mod_name, char *mod_path, i32 nargs, u32 stack_sz, u32 max_heap, u32 timeout, int port, int req_sz, int resp_sz); // frees only if refcnt == 0 void module_free(struct module *mod); struct module *module_find_by_name(char *name); struct module *module_find_by_sock(int sock); static inline void module_http_info(struct module *m, int nrq, char *rqs, char rqtype[], int nrs, char *rs, char rsptype[]) { assert(m); m->nreqhdrs = nrq; m->nresphdrs = nrs; memcpy(m->reqhdrs, rqs, HTTP_HEADER_MAXSZ * HTTP_HEADERS_MAX); memcpy(m->resphdrs, rs, HTTP_HEADER_MAXSZ * HTTP_HEADERS_MAX); strcpy(m->rqctype, rqtype); strcpy(m->rspctype, rsptype); } static inline int module_is_valid(struct module *mod) { if (mod && mod->dl_handle && mod->entry_fn) return 1; return 0; } static inline void module_globals_init(struct module *mod) { // called in a sandbox. mod->glb_init_fn(); } static inline void module_table_init(struct module *mod) { // called at module creation time (once only per module). mod->tbl_init_fn(); } static inline void module_libc_init(struct module *mod, i32 env, i32 args) { // called in a sandbox. mod->libc_init_fn(env, args); } static inline void module_memory_init(struct module *mod) { // called in a sandbox. mod->mem_init_fn(); } static inline i32 module_entry(struct module *mod, i32 argc, i32 argv) { return mod->entry_fn(argc, argv); } // instantiate this module. static inline void module_acquire(struct module *mod) { // FIXME: atomic. mod->refcnt++; } static inline void module_release(struct module *mod) { // FIXME: atomic. mod->refcnt--; } static inline i32 module_nargs(struct module *mod) { return mod->nargs; } #endif /* SFRT_MODULE_H */