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//========================================================================== // // lib/tftp_server.c // // TFTP server support // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): gthomas // Contributors: gthomas, hmt, andrew.lunn@ascom.ch (Andrew Lunn) // Date: 2000-04-06 // Purpose: // Description: // // //####DESCRIPTIONEND#### // //========================================================================== // TFTP server support #include <network.h> // Basic networking support #include <arpa/tftp.h> // TFTP protocol definitions #include <tftp_support.h> // TFTPD structures #include <cyg/kernel/kapi.h> #include <stdlib.h> // For malloc #define nCYGOPT_NET_TFTP_SERVER_INSTRUMENT #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT struct subinfo { int rx; int rx_repeat; int rx_skip; int send; int resend; }; struct info { struct subinfo ack, data; int err_send; int total_transactions; }; static struct info tftp_server_instrument = { { 0,0,0,0,0 }, { 0,0,0,0,0 }, 0, 0, }; #endif // CYGOPT_NET_TFTP_SERVER_INSTRUMENT #define STACK_SIZE (((CYGNUM_HAL_STACK_SIZE_TYPICAL+(3*(SEGSIZE+sizeof(struct tftphdr)))) + CYGARC_ALIGNMENT-1) & ~(CYGARC_ALIGNMENT-1)) static char *TFTP_tag = "TFTPD"; struct tftp_server { char *tag; char stack[STACK_SIZE]; cyg_thread thread_data; cyg_handle_t thread_handle; int port; struct tftpd_fileops *ops; }; static char * errmsg[] = { "Undefined error code", // 0 nothing defined "File not found", // 1 TFTP_ENOTFOUND "Access violation", // 2 TFTP_EACCESS "Disk full or allocation exceeded", // 3 TFTP_ENOSPACE "Illegal TFTP operation", // 4 TFTP_EBADOP "Unknown transfer ID", // 5 TFTP_EBADID "File already exists", // 6 TFTP_EEXISTS "No such user", // 7 TFTP_ENOUSER }; /* Send an error packet to the client */ static void tftpd_send_error(int s, struct tftphdr * reply, int err, struct sockaddr_in *from_addr, int from_len) { CYG_ASSERT( 0 <= err, "err underflow" ); CYG_ASSERT( sizeof(errmsg)/sizeof(errmsg[0]) > err, "err overflow" ); reply->th_opcode = htons(ERROR); reply->th_code = htons(err); if ( (0 > err) || (sizeof(errmsg)/sizeof(errmsg[0]) <= err) ) err = 0; // Do not copy a random string from hyperspace strcpy(reply->th_msg, errmsg[err]); sendto(s, reply, 4+strlen(reply->th_msg)+1, 0, (struct sockaddr *)from_addr, from_len); } // // Receive a file from the client // static void tftpd_write_file(struct tftp_server *server, struct tftphdr *hdr, struct sockaddr_in *from_addr, int from_len) { char data_out[SEGSIZE+sizeof(struct tftphdr)]; char data_in[SEGSIZE+sizeof(struct tftphdr)]; struct tftphdr *reply = (struct tftphdr *)data_out; struct tftphdr *response = (struct tftphdr *)data_in; int fd, len, ok, tries, closed, data_len, s; unsigned short block; struct timeval timeout; fd_set fds; int total_timeouts = 0; struct sockaddr_in client_addr, local_addr; int client_len; s = socket(AF_INET, SOCK_DGRAM, 0); if (s < 0) { diag_printf("TFTPD: can't open socket for 'write_file'\n"); return; } memset((char *)&local_addr, 0, sizeof(local_addr)); local_addr.sin_family = AF_INET; local_addr.sin_len = sizeof(local_addr); local_addr.sin_addr.s_addr = htonl(INADDR_ANY); local_addr.sin_port = htons(INADDR_ANY); if (bind(s, (struct sockaddr *)&local_addr, sizeof(local_addr)) < 0) { // Problem setting up my end diag_printf("TFTPD: can't bind to reply port for 'write_file'\n"); close(s); return; } if ((fd = (server->ops->open)(hdr->th_stuff, O_WRONLY)) < 0) { tftpd_send_error(s,reply,TFTP_ENOTFOUND,from_addr, from_len); close(s); return; } ok = true; closed = false; block = 0; while (ok) { // Send ACK telling client he can send data reply->th_opcode = htons(ACK); reply->th_block = htons(block++); // postincrement for (tries = 0; tries < TFTP_RETRIES_MAX; tries++) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.ack.send++; #endif sendto(s, reply, 4, 0, (struct sockaddr *)from_addr, from_len); repeat_select: timeout.tv_sec = TFTP_TIMEOUT_PERIOD; timeout.tv_usec = 0; FD_ZERO(&fds); FD_SET(s, &fds); if (select(s+1, &fds, 0, 0, &timeout) <= 0) { if (++total_timeouts > TFTP_TIMEOUT_MAX) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.err_send++; #endif tftpd_send_error(s,reply,TFTP_EBADOP,from_addr, from_len); ok = false; break; } #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.ack.resend++; #endif continue; // retry the send, using up one retry. } // Some data has arrived data_len = sizeof(data_in); client_len = sizeof(client_addr); if ((data_len = recvfrom(s, data_in, data_len, 0, (struct sockaddr *)&client_addr, &client_len)) < 0) { // What happened? No data here! #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.ack.resend++; #endif continue; // retry the send, using up one retry. } if (ntohs(response->th_opcode) == DATA && ntohs(response->th_block) < block) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.data.rx_repeat++; #endif // Then it is repeat DATA with an old block; listen again, // but do not repeat sending the current ack, and do not // use up a retry count. (we do re-send the ack if // subsequently we time out) goto repeat_select; } if (ntohs(response->th_opcode) == DATA && ntohs(response->th_block) == block) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.data.rx++; #endif // Good data - write to file len = (server->ops->write)(fd, response->th_data, data_len-4); if (len < (data_len-4)) { // File is "full" tftpd_send_error(s,reply,TFTP_ENOSPACE, from_addr, from_len); ok = false; // Give up break; // out of the retries loop } if (data_len < (SEGSIZE+4)) { // End of file closed = true; ok = false; if ((server->ops->close)(fd) == -1) { tftpd_send_error(s,reply,TFTP_EACCESS, from_addr, from_len); break; // out of the retries loop } // Exception to the loop structure: we must ACK the last // packet, the one that implied EOF: #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.ack.send++; #endif reply->th_opcode = htons(ACK); reply->th_block = htons(block++); // postincrement sendto(s, reply, 4, 0, (struct sockaddr *)from_addr, from_len); break; // out of the retries loop } // Happy! Break out of the retries loop. break; } // Otherwise, we got something we do not understand! So repeat // sending the current ACK, and use up a retry count. #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT if ( (ntohs(response->th_opcode) == DATA) ) tftp_server_instrument.data.rx_skip++; tftp_server_instrument.ack.resend++; #endif } // End of the retries loop. if (TFTP_RETRIES_MAX <= tries) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.err_send++; #endif tftpd_send_error(s,reply,TFTP_EBADOP,from_addr, from_len); ok = false; } } close(s); if (!closed) { (server->ops->close)(fd); } } // // Send a file to the client // static void tftpd_read_file(struct tftp_server *server, struct tftphdr *hdr, struct sockaddr_in *from_addr, int from_len) { char data_out[SEGSIZE+sizeof(struct tftphdr)]; char data_in[SEGSIZE+sizeof(struct tftphdr)]; struct tftphdr *reply = (struct tftphdr *)data_out; struct tftphdr *response = (struct tftphdr *)data_in; int fd, len, tries, ok, data_len, s; unsigned short block; struct timeval timeout; fd_set fds; int total_timeouts = 0; struct sockaddr_in client_addr, local_addr; int client_len; s = socket(AF_INET, SOCK_DGRAM, 0); if (s < 0) { diag_printf("TFTPD: can't open socket for 'read_file'\n"); return; } memset((char *)&local_addr, 0, sizeof(local_addr)); local_addr.sin_family = AF_INET; local_addr.sin_len = sizeof(local_addr); local_addr.sin_addr.s_addr = htonl(INADDR_ANY); local_addr.sin_port = htons(INADDR_ANY); if (bind(s, (struct sockaddr *)&local_addr, sizeof(local_addr)) < 0) { // Problem setting up my end diag_printf("TFTPD: can't bind to reply port for 'read_file'\n"); close(s); return; } if ((fd = (server->ops->open)(hdr->th_stuff, O_RDONLY)) < 0) { tftpd_send_error(s,reply,TFTP_ENOTFOUND,from_addr, from_len); close(s); return; } block = 0; ok = true; while (ok) { // Read next chunk of file len = (server->ops->read)(fd, reply->th_data, SEGSIZE); reply->th_block = htons(++block); // preincrement reply->th_opcode = htons(DATA); for (tries = 0; tries < TFTP_RETRIES_MAX; tries++) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.data.send++; #endif if (sendto(s, reply, 4+len, 0, (struct sockaddr *)from_addr, from_len) < 0) { // Something went wrong with the network! ok = false; break; } repeat_select: timeout.tv_sec = TFTP_TIMEOUT_PERIOD; timeout.tv_usec = 0; FD_ZERO(&fds); FD_SET(s, &fds); if (select(s+1, &fds, 0, 0, &timeout) <= 0) { if (++total_timeouts > TFTP_TIMEOUT_MAX) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.err_send++; #endif tftpd_send_error(s,reply,TFTP_EBADOP,from_addr, from_len); ok = false; break; } #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.data.resend++; #endif continue; // retry the send, using up one retry. } data_len = sizeof(data_in); client_len = sizeof(client_addr); if ((data_len = recvfrom(s, data_in, data_len, 0, (struct sockaddr *)&client_addr, &client_len)) < 0) { // What happened? Maybe someone lied to us... #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.data.resend++; #endif continue; // retry the send, using up one retry. } if ((ntohs(response->th_opcode) == ACK) && (ntohs(response->th_block) < block)) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.ack.rx_repeat++; #endif // Then it is a repeat ACK for an old block; listen again, // but do not repeat sending the current block, and do not // use up a retry count. (we do re-send the data if // subsequently we time out) goto repeat_select; } if ((ntohs(response->th_opcode) == ACK) && (ntohs(response->th_block) == block)) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.ack.rx++; #endif // Happy! Break out of the retries loop. break; } // Otherwise, we got something we do not understand! So repeat // sending the current block, and use up a retry count. #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT if ( (ntohs(response->th_opcode) == ACK) ) tftp_server_instrument.ack.rx_skip++; tftp_server_instrument.data.resend++; #endif } // End of the retries loop. if (TFTP_RETRIES_MAX <= tries) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.err_send++; #endif tftpd_send_error(s,reply,TFTP_EBADOP,from_addr, from_len); ok = false; } if (len < SEGSIZE) { break; // That's end of file then. } } close(s); (server->ops->close)(fd); } // // Actual TFTP server // #define CYGSEM_TFTP_SERVER_MULTITHREADED #ifdef CYGSEM_TFTP_SERVER_MULTITHREADED static cyg_sem_t tftp_server_sem; #endif static void tftpd_server(cyg_addrword_t p) { struct tftp_server *server = (struct tftp_server *)p; int s; int data_len, recv_len, from_len; struct sockaddr_in local_addr, from_addr; struct servent *server_info; char data[SEGSIZE+sizeof(struct tftphdr)]; struct tftphdr *hdr = (struct tftphdr *)data; #ifndef CYGPKG_NET_TESTS_USE_RT_TEST_HARNESS // Otherwise routine printfs fail the test - interrupts disabled too long. diag_printf("TFTPD [%x]: port %d\n", p, server->port); #endif // Set up port if (server->port == 0) { server_info = getservbyname("tftp", "udp"); if (server_info == (struct servent *)0) { diag_printf("TFTPD: can't get TFTP service information\n"); return; } // Network order in info; host order in server: server->port = ntohs( server_info->s_port ); } while (true) { #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT struct info o = tftp_server_instrument; #endif // Create socket s = socket(AF_INET, SOCK_DGRAM, 0); if (s < 0) { diag_printf("TFTPD [%x]: can't open socket\n", p); return; } memset((char *)&local_addr, 0, sizeof(local_addr)); local_addr.sin_family = AF_INET; local_addr.sin_len = sizeof(local_addr); local_addr.sin_addr.s_addr = htonl(INADDR_ANY); local_addr.sin_port = htons(server->port); if (bind(s, (struct sockaddr *)&local_addr, sizeof(local_addr)) < 0) { // Problem setting up my end close(s); #ifdef CYGSEM_TFTP_SERVER_MULTITHREADED #ifndef CYGPKG_NET_TESTS_USE_RT_TEST_HARNESS diag_printf("TFTPD [%x]: waiting to bind to service port\n", p); #endif // Wait until the socket is free... cyg_semaphore_wait( &tftp_server_sem ); continue; // try re-opening and rebinding the socket. #else diag_printf("TFTPD [%x]: can't bind to service port\n", p); return; #endif } recv_len = sizeof(data); from_len = sizeof(from_addr); data_len = recvfrom(s, hdr, recv_len, 0, (struct sockaddr *)&from_addr, &from_len); close(s); // so that other servers can bind to the TFTP socket #ifdef CYGSEM_TFTP_SERVER_MULTITHREADED // The socket is free... cyg_semaphore_post( &tftp_server_sem ); #endif if ( data_len < 0) { diag_printf("TFTPD [%x]: can't read request\n", p); } else { #ifndef CYGPKG_NET_TESTS_USE_RT_TEST_HARNESS diag_printf("TFTPD [%x]: received %x from %s:%d\n", p, ntohs(hdr->th_opcode), inet_ntoa(from_addr.sin_addr), from_addr.sin_port); #endif switch (ntohs(hdr->th_opcode)) { case WRQ: tftpd_write_file(server, hdr, &from_addr, from_len); break; case RRQ: tftpd_read_file(server, hdr, &from_addr, from_len); break; case ACK: case DATA: case ERROR: // Ignore break; default: diag_printf("TFTPD [%x]: bogus request %x from %s:%d\n", p, ntohs(hdr->th_opcode), inet_ntoa(from_addr.sin_addr), from_addr.sin_port ); tftpd_send_error(s,hdr,TFTP_EBADOP,&from_addr,from_len); } } #ifdef CYGOPT_NET_TFTP_SERVER_INSTRUMENT tftp_server_instrument.total_transactions++; o.data.rx -= tftp_server_instrument.data.rx ; o.data.rx_repeat -= tftp_server_instrument.data.rx_repeat; o.data.rx_skip -= tftp_server_instrument.data.rx_skip ; o.data.send -= tftp_server_instrument.data.send ; o.data.resend -= tftp_server_instrument.data.resend ; o.ack.rx -= tftp_server_instrument.ack.rx ; o.ack.rx_repeat -= tftp_server_instrument.ack.rx_repeat ; o.ack.rx_skip -= tftp_server_instrument.ack.rx_skip ; o.ack.send -= tftp_server_instrument.ack.send ; o.ack.resend -= tftp_server_instrument.ack.resend ; o.err_send -= tftp_server_instrument.err_send ; #ifndef CYGPKG_NET_TESTS_USE_RT_TEST_HARNESS if ( o.data.rx ) diag_printf( "data rx %4d\n", -o.data.rx ); if ( o.data.rx_repeat ) diag_printf( "data rx_repeat%4d\n", -o.data.rx_repeat ); if ( o.data.rx_skip ) diag_printf( "data rx_skip %4d\n", -o.data.rx_skip ); if ( o.data.send ) diag_printf( "data send %4d\n", -o.data.send ); if ( o.data.resend ) diag_printf( "data resend %4d\n", -o.data.resend ); if ( o.ack.rx ) diag_printf( " ack rx %4d\n", -o.ack.rx ); if ( o.ack.rx_repeat ) diag_printf( " ack rx_repeat%4d\n", -o.ack.rx_repeat ); if ( o.ack.rx_skip ) diag_printf( " ack rx_skip %4d\n", -o.ack.rx_skip ); if ( o.ack.send ) diag_printf( " ack send %4d\n", -o.ack.send ); if ( o.ack.resend ) diag_printf( " ack resend %4d\n", -o.ack.resend ); if ( o.err_send ) diag_printf( "*error sends %4d\n", -o.err_send ); #endif // CYGPKG_NET_TESTS_USE_RT_TEST_HARNESS #endif // CYGOPT_NET_TFTP_SERVER_INSTRUMENT } } // // This function is used to create a new server [thread] which supports // the TFTP protocol on the given port. A server 'id' will be returned // which can later be used to destroy the server. // // Note: all [memory] resources for the server thread will be allocated // dynamically. If there are insufficient resources, an error will be // returned. // int tftpd_start(int port, struct tftpd_fileops *ops) { struct tftp_server *server; #ifdef CYGSEM_TFTP_SERVER_MULTITHREADED static char init = 0; if ( 0 == init ) { init++; cyg_semaphore_init( &tftp_server_sem, 0 ); } #endif if ((server = malloc(sizeof(struct tftp_server)))) { server->tag = TFTP_tag; server->port = port; server->ops = ops; cyg_thread_create(CYGPKG_NET_TFTPD_THREAD_PRIORITY, // Priority tftpd_server, // entry (cyg_addrword_t)server, // entry parameter "TFTP server", // Name &server->stack[0], // Stack STACK_SIZE, // Size &server->thread_handle, // Handle &server->thread_data // Thread data structure ); cyg_thread_resume(server->thread_handle); // Start it } return (int)server; } // // Destroy a TFTP server, using a previously created server 'id'. // int tftpd_stop(int p) { struct tftp_server *server = (struct tftp_server *)p; // Simple sanity check if (server->tag == TFTP_tag) { cyg_thread_kill(server->thread_handle); cyg_thread_set_priority(server->thread_handle, 0); cyg_thread_delay(1); // Make sure it gets to die... if (cyg_thread_delete(server->thread_handle)) { // Success shutting down the thread free(server); // Give up memory return 1; } } return 0; } // EOF tftp_server.c
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