/* vim: tabstop=4 shiftwidth=4 noexpandtab * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2014 Kevin Lange */ #include #include #include #include #include #include #define MAX_PACKET_SIZE 1024 typedef struct packet_manager { /* uh, nothing, lol */ list_t * exchanges; spin_lock_t lock; } pex_t; typedef struct packet_exchange { char * name; char fresh; spin_lock_t lock; fs_node_t * server_pipe; list_t * clients; } pex_ex_t; typedef struct packet_client { pex_ex_t * parent; fs_node_t * pipe; } pex_client_t; typedef struct packet { pex_client_t * source; size_t size; uint8_t data[]; } packet_t; typedef struct server_write_header { pex_client_t * target; uint8_t data[]; } header_t; static void receive_packet(fs_node_t * socket, packet_t ** out) { packet_t tmp; read_fs(socket, 0, sizeof(struct packet), (uint8_t *)&tmp); *out = malloc(tmp.size + sizeof(struct packet)); memcpy(*out, &tmp, sizeof(struct packet)); if (tmp.size) { read_fs(socket, 0, tmp.size, (uint8_t *)(*out)->data); } } static void send_to_server(pex_ex_t * p, pex_client_t * c, size_t size, void * data) { size_t p_size = size + sizeof(struct packet); packet_t * packet = malloc(p_size); packet->source = c; packet->size = size; if (size) { memcpy(packet->data, data, size); } write_fs(p->server_pipe, 0, p_size, (uint8_t *)packet); free(packet); } static int send_to_client(pex_ex_t * p, pex_client_t * c, size_t size, void * data) { size_t p_size = size + sizeof(struct packet); /* Verify there is space on the client */ if (pipe_unsize(c->pipe) < (int)p_size) { return -1; } packet_t * packet = malloc(p_size); memcpy(packet->data, data, size); packet->source = NULL; packet->size = size; write_fs(c->pipe, 0, p_size, (uint8_t *)packet); free(packet); return size; } static pex_client_t * create_client(pex_ex_t * p) { pex_client_t * out = malloc(sizeof(pex_client_t)); out->parent = p; out->pipe = make_pipe(4096); return out; } static uint32_t read_server(fs_node_t * node, uint32_t offset, uint32_t size, uint8_t * buffer) { pex_ex_t * p = (pex_ex_t *)node->device; debug_print(INFO, "[pex] server read(...)"); packet_t * packet; receive_packet(p->server_pipe, &packet); debug_print(INFO, "Server recevied packet of size %d, was waiting for at most %d", packet->size, size); if (packet->size + sizeof(packet_t) > size) { return -1; } memcpy(buffer, packet, packet->size + sizeof(packet_t)); uint32_t out = packet->size + sizeof(packet_t); free(packet); return out; } static uint32_t write_server(fs_node_t * node, uint32_t offset, uint32_t size, uint8_t * buffer) { pex_ex_t * p = (pex_ex_t *)node->device; debug_print(INFO, "[pex] server write(...)"); header_t * head = (header_t *)buffer; if (size - sizeof(header_t) > MAX_PACKET_SIZE) { return -1; } if (head->target == NULL) { /* Brodcast packet */ spin_lock(p->lock); foreach(f, p->clients) { debug_print(INFO, "Sending to client 0x%x", f->value); send_to_client(p, (pex_client_t *)f->value, size - sizeof(header_t), head->data); } spin_unlock(p->lock); debug_print(INFO, "Done broadcasting to clients."); return size; } else if (head->target->parent != p) { debug_print(WARNING, "[pex] Invalid packet from server?"); return -1; } return send_to_client(p, head->target, size - sizeof(header_t), head->data); } static int ioctl_server(fs_node_t * node, int request, void * argp) { pex_ex_t * p = (pex_ex_t *)node->device; switch (request) { case IOCTL_PACKETFS_QUEUED: return pipe_size(p->server_pipe); default: return -1; } } static uint32_t read_client(fs_node_t * node, uint32_t offset, uint32_t size, uint8_t * buffer) { pex_client_t * c = (pex_client_t *)node->inode; if (c->parent != node->device) { debug_print(WARNING, "[pex] Invalid device endpoint on client read?"); return -1; } debug_print(INFO, "[pex] client read(...)"); packet_t * packet; receive_packet(c->pipe, &packet); if (packet->size > size) { debug_print(WARNING, "[pex] Client is not reading enough bytes to hold packet of size %d", packet->size); return -1; } memcpy(buffer, &packet->data, packet->size); uint32_t out = packet->size; debug_print(INFO, "[pex] Client received packet of size %d", packet->size); free(packet); return out; } static uint32_t write_client(fs_node_t * node, uint32_t offset, uint32_t size, uint8_t * buffer) { pex_client_t * c = (pex_client_t *)node->inode; if (c->parent != node->device) { debug_print(WARNING, "[pex] Invalid device endpoint on client write?"); return -1; } debug_print(INFO, "[pex] client write(...)"); if (size > MAX_PACKET_SIZE) { debug_print(WARNING, "Size of %d is too big.", size); return -1; } debug_print(INFO, "Sending packet of size %d to parent", size); send_to_server(c->parent, c, size, buffer); return size; } static int ioctl_client(fs_node_t * node, int request, void * argp) { pex_client_t * c = (pex_client_t *)node->inode; switch (request) { case IOCTL_PACKETFS_QUEUED: return pipe_size(c->pipe); default: return -1; } } static void close_client(fs_node_t * node) { pex_client_t * c = (pex_client_t *)node->inode; pex_ex_t * p = c->parent; debug_print(WARNING, "Closing packetfs client: 0x%x:0x%x", p, c); spin_lock(p->lock); node_t * n = list_find(p->clients, c); if (n && n->owner == p->clients) { list_delete(p->clients, n); free(n); } spin_unlock(p->lock); char tmp[1]; send_to_server(p, c, 0, tmp); free(c); } static void open_pex(fs_node_t * node, unsigned int flags) { pex_ex_t * t = (pex_ex_t *)(node->device); debug_print(NOTICE, "Opening packet exchange %s with flags 0x%x", t->name, flags); if (flags & O_CREAT && t->fresh) { t->fresh = 0; node->inode = 0; /* Set up the server side */ node->read = read_server; node->write = write_server; node->ioctl = ioctl_server; debug_print(INFO, "[pex] Server launched: %s", t->name); debug_print(INFO, "fs_node = 0x%x", node); } else if (!(flags & O_CREAT)) { pex_client_t * client = create_client(t); node->inode = (uintptr_t)client; node->read = read_client; node->write = write_client; node->ioctl = ioctl_client; node->close = close_client; list_insert(t->clients, client); /* XXX: Send plumbing message to server for new client connection */ debug_print(INFO, "[pex] Client connected: %s:0%x", t->name, node->inode); } else if (flags & O_CREAT && !t->fresh) { /* XXX: You dun goofed */ } return; } static struct dirent * readdir_packetfs(fs_node_t *node, uint32_t index) { pex_t * p = (pex_t *)node->device; unsigned int i = 0; debug_print(INFO, "[pex] readdir(%d)", index); if (index == 0) { struct dirent * out = malloc(sizeof(struct dirent)); memset(out, 0x00, sizeof(struct dirent)); out->ino = 0; strcpy(out->name, "."); return out; } if (index == 1) { struct dirent * out = malloc(sizeof(struct dirent)); memset(out, 0x00, sizeof(struct dirent)); out->ino = 0; strcpy(out->name, ".."); return out; } index -= 2; if (index >= p->exchanges->length) { return NULL; } spin_lock(p->lock); foreach(f, p->exchanges) { if (i == index) { spin_unlock(p->lock); pex_ex_t * t = (pex_ex_t *)f->value; struct dirent * out = malloc(sizeof(struct dirent)); memset(out, 0x00, sizeof(struct dirent)); out->ino = (uint32_t)t; strcpy(out->name, t->name); return out; } else { ++i; } } spin_unlock(p->lock); return NULL; } static fs_node_t * file_from_pex(pex_ex_t * pex) { fs_node_t * fnode = malloc(sizeof(fs_node_t)); memset(fnode, 0x00, sizeof(fs_node_t)); fnode->inode = 0; strcpy(fnode->name, pex->name); fnode->device = pex; fnode->flags = FS_CHARDEVICE; fnode->open = open_pex; fnode->read = read_server; fnode->write = write_server; return fnode; } static fs_node_t * finddir_packetfs(fs_node_t * node, char * name) { if (!name) return NULL; pex_t * p = (pex_t *)node->device; debug_print(INFO, "[pex] finddir(%s)", name); spin_lock(p->lock); foreach(f, p->exchanges) { pex_ex_t * t = (pex_ex_t *)f->value; if (!strcmp(name, t->name)) { spin_unlock(p->lock); return file_from_pex(t); } } spin_unlock(p->lock); return NULL; } static void create_packetfs(fs_node_t *parent, char *name, uint16_t permission) { if (!name) return; pex_t * p = (pex_t *)parent->device; debug_print(NOTICE, "[pex] create(%s)", name); spin_lock(p->lock); foreach(f, p->exchanges) { pex_ex_t * t = (pex_ex_t *)f->value; if (!strcmp(name, t->name)) { spin_unlock(p->lock); /* Already exists */ return; } } /* Make it */ pex_ex_t * new_exchange = malloc(sizeof(pex_ex_t)); new_exchange->name = strdup(name); new_exchange->fresh = 1; new_exchange->clients = list_create(); new_exchange->server_pipe = make_pipe(4096); spin_init(new_exchange->lock); /* XXX Create exchange server pipe */ list_insert(p->exchanges, new_exchange); spin_unlock(p->lock); } static void destroy_pex(pex_ex_t * p) { /* XXX */ } static void unlink_packetfs(fs_node_t *parent, char *name) { if (!name) return; pex_t * p = (pex_t *)parent->device; debug_print(NOTICE, "[pex] unlink(%s)", name); int i = -1, j = 0; spin_lock(p->lock); foreach(f, p->exchanges) { pex_ex_t * t = (pex_ex_t *)f->value; if (!strcmp(name, t->name)) { destroy_pex(t); i = j; break; } j++; } if (i >= 0) { list_remove(p->exchanges, i); } spin_unlock(p->lock); } static fs_node_t * packetfs_manager(void) { pex_t * pex = malloc(sizeof(pex_t)); pex->exchanges = list_create(); spin_init(pex->lock); fs_node_t * fnode = malloc(sizeof(fs_node_t)); memset(fnode, 0x00, sizeof(fs_node_t)); fnode->inode = 0; strcpy(fnode->name, "pex"); fnode->device = pex; fnode->flags = FS_DIRECTORY; fnode->readdir = readdir_packetfs; fnode->finddir = finddir_packetfs; fnode->create = create_packetfs; fnode->unlink = unlink_packetfs; return fnode; } static int init(void) { fs_node_t * packet_mgr = packetfs_manager(); vfs_mount("/dev/pex", packet_mgr); return 0; } static int fini(void) { return 0; } MODULE_DEF(packetfs, init, fini);