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sledge/runtime/include/module.h

185 lines
5.1 KiB

#ifndef SFRT_MODULE_H
#define SFRT_MODULE_H
#include <uv.h>
#include "types.h"
struct module {
char name[MOD_NAME_MAX];
char path[MOD_PATH_MAX];
void *dynamic_library_handle; // Handle to the *.so of the serverless function
i32 argument_count;
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 reference_count; // ref count how many instances exist here.
struct indirect_table_entry indirect_table[INDIRECT_TABLE_SIZE];
struct sockaddr_in socket_address;
int socket_descriptor;
int port;
// 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_request_size;
char request_headers[HTTP_HEADERS_MAX][HTTP_HEADER_MAXSZ];
int request_header_count;
char request_content_type[HTTP_HEADERVAL_MAXSZ];
// resp size including headers!
unsigned long max_response_size;
int response_header_count;
char response_content_type[HTTP_HEADERVAL_MAXSZ];
char response_headers[HTTP_HEADERS_MAX][HTTP_HEADER_MAXSZ];
// Equals the largest of either max_request_size or max_response_size
unsigned long max_request_or_response_size;
// Functions to initialize aspects of sandbox
mod_glb_fn_t initialize_globals;
mod_mem_fn_t initialize_memory;
mod_tbl_fn_t initialize_tables;
mod_libc_fn_t initialize_libc;
// Entry Function to invoke serverless function
mod_main_fn_t main;
};
/***************************************
* Module "Methods"
***************************************/
struct module *module__new(char *mod_name, char *mod_path, i32 argument_count, u32 stack_sz, u32 max_heap, u32 timeout, int port, int req_sz, int resp_sz);
void module__free(struct module *module);
/**
* Sets the HTTP Request and Response Headers and Content type on a module
* @param module
* @param request_count
* @param request_headers
* @param request_content_type
* @param response_count
* @param response_headers
* @param response_content_type
**/
static inline void
module__set_http_info(struct module *module, int request_count, char *request_headers, char request_content_type[],
int response_count, char *response_headers, char response_content_type[])
{
assert(module);
module->request_header_count = request_count;
memcpy(module->request_headers, request_headers, HTTP_HEADER_MAXSZ * HTTP_HEADERS_MAX);
strcpy(module->request_content_type, request_content_type);
module->response_header_count = response_count;
memcpy(module->response_headers, response_headers, HTTP_HEADER_MAXSZ * HTTP_HEADERS_MAX);
strcpy(module->response_content_type, response_content_type);
}
/**
* Validate module, defined as having a non-NULL dynamical library handle and entry function pointer
* @param module
* @return 1 if valid. 0 if invalid
**/
static inline int
module__is_valid(struct module *module)
{
if (module && module->dynamic_library_handle && module->main) return 1;
return 0;
}
// TODO: What is the point of these wrapper functions. They seem exceptionally silly
// We have the module, so why not just invoke the function pointer directly?
/**
* Invoke a module's initialize_globals
* @param module
**/
static inline void
module__initialize_globals(struct module *module)
{
// called in a sandbox.
module->initialize_globals();
}
/**
* Invoke a module's initialize_tables
* @param module
**/
static inline void
module__initialize_table(struct module *module)
{
// called at module creation time (once only per module).
module->initialize_tables();
}
/**
* Invoke a module's initialize_libc
* @param module
**/
static inline void
module__initialize_libc(struct module *module, i32 env, i32 arguments)
{
// called in a sandbox.
module->initialize_libc(env, arguments);
}
/**
* Invoke a module's initialize_memory
* @param module
**/
static inline void
module__initialize_memory(struct module *module)
{
// called in a sandbox.
module->initialize_memory();
}
/**
* Invoke a module's entry function, forwarding on argc and argv
* @param module
* @param argc standard UNIX count of arguments
* @param argv standard UNIX vector of arguments
**/
static inline i32
module__main(struct module *module, i32 argc, i32 argv)
{
return module->main(argc, argv);
}
/**
* Increment a modules reference count
* @param module
**/
static inline void
module__acquire(struct module *module)
{
module->reference_count++;
}
/**
* Decrement a modules reference count
* @param module
**/
static inline void
module__release(struct module *module)
{
module->reference_count--;
}
/**
* Get a module's argument count
* @param module
* @returns the number of arguments
**/
static inline i32
module__get_argument_count(struct module *module)
{
return module->argument_count;
}
#endif /* SFRT_MODULE_H */