/* * Unix SMB/Netbios implementation. * Version 1.9. * RPC Pipe client / server routines * Copyright (C) Andrew Tridgell 1992-1997, * Copyright (C) Luke Kenneth Casson Leighton 1996-1997, * Copyright (C) Paul Ashton 1997. * * This program 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 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "includes.h" extern int DEBUGLEVEL; extern pstring global_myname; /******************************************************************* Fill in a share info level 1 structure. ********************************************************************/ static void init_srv_share_info_1(SRV_SHARE_INFO_1 *sh1, int snum) { int len_net_name; pstring net_name; pstring remark; uint32 type; pstrcpy(net_name, lp_servicename(snum)); pstrcpy(remark, lp_comment(snum)); pstring_sub(remark,"%S",lp_servicename(snum)); len_net_name = strlen(net_name); /* work out the share type */ type = STYPE_DISKTREE; if (lp_print_ok(snum)) type = STYPE_PRINTQ; if (strequal("IPC$", net_name)) type = STYPE_IPC; if (net_name[len_net_name] == '$') type |= STYPE_HIDDEN; init_srv_share_info1(&sh1->info_1, net_name, type, remark); init_srv_share_info1_str(&sh1->info_1_str, net_name, remark); } /******************************************************************* Fill in a share info level 2 structure. ********************************************************************/ static void init_srv_share_info_2(SRV_SHARE_INFO_2 *sh2, int snum) { int len_net_name; pstring net_name; pstring remark; pstring path; pstring passwd; uint32 type; pstrcpy(net_name, lp_servicename(snum)); pstrcpy(remark, lp_comment(snum)); pstring_sub(remark,"%S",lp_servicename(snum)); pstrcpy(path, lp_pathname(snum)); pstrcpy(passwd, ""); len_net_name = strlen(net_name); /* work out the share type */ type = STYPE_DISKTREE; if (lp_print_ok(snum)) type = STYPE_PRINTQ; if (strequal("IPC$", net_name)) type = STYPE_IPC; if (net_name[len_net_name] == '$') type |= STYPE_HIDDEN; init_srv_share_info2(&sh2->info_2, net_name, type, remark, 0, 0xffffffff, 1, path, passwd); init_srv_share_info2_str(&sh2->info_2_str, net_name, remark, path, passwd); } /*************************************************************************** Fill in a share info level 1005 structure. ***************************************************************************/ static void init_srv_share_info_1005(SRV_SHARE_INFO_1005* sh1005, int snum) { sh1005->dfs_root_flag = 0; #ifdef MS_DFS if(lp_host_msdfs() && *lp_dfsmap(snum) && lp_dfsmap_loaded(snum)) sh1005->dfs_root_flag = 3; #endif } /******************************************************************* Fill in a share info structure. ********************************************************************/ static BOOL init_srv_share_info_ctr(SRV_SHARE_INFO_CTR *ctr, uint32 info_level, uint32 *resume_hnd, uint32 *total_entries) { int num_entries = 0; int num_services = lp_numservices(); int snum; DEBUG(5,("init_srv_share_info_ctr\n")); ZERO_STRUCTPN(ctr); ctr->info_level = ctr->switch_value = info_level; *resume_hnd = 0; /* Count the number of entries. */ for (snum = 0; snum < num_services; snum++) { if (lp_browseable(snum) && lp_snum_ok(snum)) num_entries++; } *total_entries = num_entries; ctr->num_entries2 = ctr->num_entries = num_entries; ctr->ptr_share_info = ctr->ptr_entries = 1; if (!num_entries) return True; switch (info_level) { case 1: { SRV_SHARE_INFO_1 *info1; int i = 0; info1 = malloc(num_entries * sizeof(SRV_SHARE_INFO_1)); for (snum = *resume_hnd; snum < num_services; snum++) { if (lp_browseable(snum) && lp_snum_ok(snum)) { init_srv_share_info_1(&info1[i++], snum); } } ctr->share.info1 = info1; break; } case 2: { SRV_SHARE_INFO_2 *info2; int i = 0; info2 = malloc(num_entries * sizeof(SRV_SHARE_INFO_2)); for (snum = *resume_hnd; snum < num_services; snum++) { if (lp_browseable(snum) && lp_snum_ok(snum)) { init_srv_share_info_2(&info2[i++], snum); } } ctr->share.info2 = info2; break; } default: DEBUG(5,("init_srv_share_info_ctr: unsupported switch value %d\n", info_level)); return False; } return True; } /******************************************************************* Inits a SRV_R_NET_SHARE_ENUM structure. ********************************************************************/ static void init_srv_r_net_share_enum(SRV_R_NET_SHARE_ENUM *r_n, uint32 info_level, uint32 resume_hnd) { DEBUG(5,("init_srv_r_net_share_enum: %d\n", __LINE__)); if (init_srv_share_info_ctr(&r_n->ctr, info_level, &resume_hnd, &r_n->total_entries)) { r_n->status = 0x0; } else { r_n->status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; } init_enum_hnd(&r_n->enum_hnd, resume_hnd); } /******************************************************************* Net share enum. ********************************************************************/ static BOOL srv_reply_net_share_enum(SRV_Q_NET_SHARE_ENUM *q_n, prs_struct *rdata) { SRV_R_NET_SHARE_ENUM r_n; BOOL ret; DEBUG(5,("srv_net_share_enum: %d\n", __LINE__)); /* Create the list of shares for the response. */ init_srv_r_net_share_enum(&r_n, q_n->ctr.info_level, get_enum_hnd(&q_n->enum_hnd)); /* store the response in the SMB stream */ ret = srv_io_r_net_share_enum("", &r_n, rdata, 0); /* Free the memory used by the response. */ free_srv_r_net_share_enum(&r_n); DEBUG(5,("srv_net_share_enum: %d\n", __LINE__)); return ret; } /******************************************************************* Inits a SRV_R_NET_SHARE_GET_INFO structure. ********************************************************************/ static void init_srv_r_net_share_get_info(SRV_R_NET_SHARE_GET_INFO *r_n, char *share_name, uint32 info_level) { uint32 status = 0x0; int snum; DEBUG(5,("init_srv_r_net_share_get_info: %d\n", __LINE__)); r_n->switch_value = info_level; snum = find_service(share_name); if (snum >= 0) { switch (info_level) { case 1: init_srv_share_info_1(&r_n->share.info1, snum); break; case 2: init_srv_share_info_2(&r_n->share.info2, snum); break; case 1005: init_srv_share_info_1005(&r_n->share.info1005, snum); break; default: DEBUG(5,("init_srv_net_share_get_info: unsupported switch value %d\n", info_level)); status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; break; } } else { status = 0xC0000000 | NT_STATUS_BAD_NETWORK_NAME; } r_n->ptr_share_ctr = (status == 0x0) ? 1 : 0; r_n->status = status; } /******************************************************************* Net share get info. ********************************************************************/ static BOOL srv_reply_net_share_get_info(SRV_Q_NET_SHARE_GET_INFO *q_n, prs_struct *rdata) { SRV_R_NET_SHARE_GET_INFO r_n; char *share_name; BOOL ret; DEBUG(5,("srv_net_share_get_info: %d\n", __LINE__)); /* Create the list of shares for the response. */ share_name = dos_unistr2_to_str(&q_n->uni_share_name); init_srv_r_net_share_get_info(&r_n, share_name, q_n->info_level); /* store the response in the SMB stream */ ret = srv_io_r_net_share_get_info("", &r_n, rdata, 0); /* Free the memory used by the response. */ free_srv_r_net_share_get_info(&r_n); DEBUG(5,("srv_net_share_get_info: %d\n", __LINE__)); return ret; } /******************************************************************* fill in a sess info level 1 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_sess_0_info(SESS_INFO_0 *se0, SESS_INFO_0_STR *str0, char *name) { init_srv_sess_info0 (se0 , name); init_srv_sess_info0_str(str0, name); } /******************************************************************* fill in a sess info level 0 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_sess_info_0(SRV_SESS_INFO_0 *ss0, uint32 *snum, uint32 *stot) { uint32 num_entries = 0; (*stot) = 1; if (ss0 == NULL) { (*snum) = 0; return; } DEBUG(5,("init_srv_sess_0_ss0\n")); if (snum) { for (; (*snum) < (*stot) && num_entries < MAX_SESS_ENTRIES; (*snum)++) { init_srv_sess_0_info(&(ss0->info_0 [num_entries]), &(ss0->info_0_str[num_entries]), "MACHINE"); /* move on to creating next session */ /* move on to creating next sess */ num_entries++; } ss0->num_entries_read = num_entries; ss0->ptr_sess_info = num_entries > 0 ? 1 : 0; ss0->num_entries_read2 = num_entries; if ((*snum) >= (*stot)) { (*snum) = 0; } } else { ss0->num_entries_read = 0; ss0->ptr_sess_info = 0; ss0->num_entries_read2 = 0; } } /******************************************************************* fill in a sess info level 1 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_sess_1_info(SESS_INFO_1 *se1, SESS_INFO_1_STR *str1, char *name, char *user, uint32 num_opens, uint32 open_time, uint32 idle_time, uint32 usr_flgs) { init_srv_sess_info1 (se1 , name, user, num_opens, open_time, idle_time, usr_flgs); init_srv_sess_info1_str(str1, name, user); } /******************************************************************* fill in a sess info level 1 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_sess_info_1(SRV_SESS_INFO_1 *ss1, uint32 *snum, uint32 *stot) { uint32 num_entries = 0; (*stot) = 1; if (ss1 == NULL) { (*snum) = 0; return; } DEBUG(5,("init_srv_sess_1_ss1\n")); if (snum) { for (; (*snum) < (*stot) && num_entries < MAX_SESS_ENTRIES; (*snum)++) { init_srv_sess_1_info(&(ss1->info_1 [num_entries]), &(ss1->info_1_str[num_entries]), "MACHINE", "dummy_user", 1, 10, 5, 0); /* move on to creating next session */ /* move on to creating next sess */ num_entries++; } ss1->num_entries_read = num_entries; ss1->ptr_sess_info = num_entries > 0 ? 1 : 0; ss1->num_entries_read2 = num_entries; if ((*snum) >= (*stot)) { (*snum) = 0; } } else { ss1->num_entries_read = 0; ss1->ptr_sess_info = 0; ss1->num_entries_read2 = 0; (*stot) = 0; } } /******************************************************************* makes a SRV_R_NET_SESS_ENUM structure. ********************************************************************/ static uint32 init_srv_sess_info_ctr(SRV_SESS_INFO_CTR *ctr, int switch_value, uint32 *resume_hnd, uint32 *total_entries) { uint32 status = 0x0; DEBUG(5,("init_srv_sess_info_ctr: %d\n", __LINE__)); ctr->switch_value = switch_value; switch (switch_value) { case 0: { init_srv_sess_info_0(&(ctr->sess.info0), resume_hnd, total_entries); ctr->ptr_sess_ctr = 1; break; } case 1: { init_srv_sess_info_1(&(ctr->sess.info1), resume_hnd, total_entries); ctr->ptr_sess_ctr = 1; break; } default: { DEBUG(5,("init_srv_sess_info_ctr: unsupported switch value %d\n", switch_value)); (*resume_hnd) = 0; (*total_entries) = 0; ctr->ptr_sess_ctr = 0; status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; break; } } return status; } /******************************************************************* makes a SRV_R_NET_SESS_ENUM structure. ********************************************************************/ static void init_srv_r_net_sess_enum(SRV_R_NET_SESS_ENUM *r_n, uint32 resume_hnd, int sess_level, int switch_value) { DEBUG(5,("init_srv_r_net_sess_enum: %d\n", __LINE__)); r_n->sess_level = sess_level; if (sess_level == -1) { r_n->status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; } else { r_n->status = init_srv_sess_info_ctr(r_n->ctr, switch_value, &resume_hnd, &r_n->total_entries); } if (r_n->status != 0x0) { resume_hnd = 0; } init_enum_hnd(&(r_n->enum_hnd), resume_hnd); } /******************************************************************* net sess enum ********************************************************************/ static void srv_reply_net_sess_enum(SRV_Q_NET_SESS_ENUM *q_n, prs_struct *rdata) { SRV_R_NET_SESS_ENUM r_n; SRV_SESS_INFO_CTR ctr; r_n.ctr = &ctr; DEBUG(5,("srv_net_sess_enum: %d\n", __LINE__)); /* set up the */ init_srv_r_net_sess_enum(&r_n, get_enum_hnd(&q_n->enum_hnd), q_n->sess_level, q_n->ctr->switch_value); /* store the response in the SMB stream */ srv_io_r_net_sess_enum("", &r_n, rdata, 0); DEBUG(5,("srv_net_sess_enum: %d\n", __LINE__)); } /******************************************************************* fill in a conn info level 0 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_conn_info_0(SRV_CONN_INFO_0 *ss0, uint32 *snum, uint32 *stot) { uint32 num_entries = 0; (*stot) = 1; if (ss0 == NULL) { (*snum) = 0; return; } DEBUG(5,("init_srv_conn_0_ss0\n")); if (snum) { for (; (*snum) < (*stot) && num_entries < MAX_CONN_ENTRIES; (*snum)++) { init_srv_conn_info0(&(ss0->info_0 [num_entries]), (*stot)); /* move on to creating next connection */ /* move on to creating next conn */ num_entries++; } ss0->num_entries_read = num_entries; ss0->ptr_conn_info = num_entries > 0 ? 1 : 0; ss0->num_entries_read2 = num_entries; if ((*snum) >= (*stot)) { (*snum) = 0; } } else { ss0->num_entries_read = 0; ss0->ptr_conn_info = 0; ss0->num_entries_read2 = 0; (*stot) = 0; } } /******************************************************************* fill in a conn info level 1 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_conn_1_info(CONN_INFO_1 *se1, CONN_INFO_1_STR *str1, uint32 id, uint32 type, uint32 num_opens, uint32 num_users, uint32 open_time, char *usr_name, char *net_name) { init_srv_conn_info1 (se1 , id, type, num_opens, num_users, open_time, usr_name, net_name); init_srv_conn_info1_str(str1, usr_name, net_name); } /******************************************************************* fill in a conn info level 1 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_conn_info_1(SRV_CONN_INFO_1 *ss1, uint32 *snum, uint32 *stot) { uint32 num_entries = 0; (*stot) = 1; if (ss1 == NULL) { (*snum) = 0; return; } DEBUG(5,("init_srv_conn_1_ss1\n")); if (snum) { for (; (*snum) < (*stot) && num_entries < MAX_CONN_ENTRIES; (*snum)++) { init_srv_conn_1_info(&(ss1->info_1 [num_entries]), &(ss1->info_1_str[num_entries]), (*stot), 0x3, 1, 1, 3,"dummy_user", "IPC$"); /* move on to creating next connection */ /* move on to creating next conn */ num_entries++; } ss1->num_entries_read = num_entries; ss1->ptr_conn_info = num_entries > 0 ? 1 : 0; ss1->num_entries_read2 = num_entries; if ((*snum) >= (*stot)) { (*snum) = 0; } } else { ss1->num_entries_read = 0; ss1->ptr_conn_info = 0; ss1->num_entries_read2 = 0; (*stot) = 0; } } /******************************************************************* makes a SRV_R_NET_CONN_ENUM structure. ********************************************************************/ static uint32 init_srv_conn_info_ctr(SRV_CONN_INFO_CTR *ctr, int switch_value, uint32 *resume_hnd, uint32 *total_entries) { uint32 status = 0x0; DEBUG(5,("init_srv_conn_info_ctr: %d\n", __LINE__)); ctr->switch_value = switch_value; switch (switch_value) { case 0: { init_srv_conn_info_0(&(ctr->conn.info0), resume_hnd, total_entries); ctr->ptr_conn_ctr = 1; break; } case 1: { init_srv_conn_info_1(&(ctr->conn.info1), resume_hnd, total_entries); ctr->ptr_conn_ctr = 1; break; } default: { DEBUG(5,("init_srv_conn_info_ctr: unsupported switch value %d\n", switch_value)); (*resume_hnd = 0); (*total_entries) = 0; ctr->ptr_conn_ctr = 0; status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; break; } } return status; } /******************************************************************* makes a SRV_R_NET_CONN_ENUM structure. ********************************************************************/ static void init_srv_r_net_conn_enum(SRV_R_NET_CONN_ENUM *r_n, uint32 resume_hnd, int conn_level, int switch_value) { DEBUG(5,("init_srv_r_net_conn_enum: %d\n", __LINE__)); r_n->conn_level = conn_level; if (conn_level == -1) { r_n->status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; } else { r_n->status = init_srv_conn_info_ctr(r_n->ctr, switch_value, &resume_hnd, &r_n->total_entries); } if (r_n->status != 0x0) { resume_hnd = 0; } init_enum_hnd(&(r_n->enum_hnd), resume_hnd); } /******************************************************************* net conn enum ********************************************************************/ static void srv_reply_net_conn_enum(SRV_Q_NET_CONN_ENUM *q_n, prs_struct *rdata) { SRV_R_NET_CONN_ENUM r_n; SRV_CONN_INFO_CTR ctr; r_n.ctr = &ctr; DEBUG(5,("srv_net_conn_enum: %d\n", __LINE__)); /* set up the */ init_srv_r_net_conn_enum(&r_n, get_enum_hnd(&q_n->enum_hnd), q_n->conn_level, q_n->ctr->switch_value); /* store the response in the SMB stream */ srv_io_r_net_conn_enum("", &r_n, rdata, 0); DEBUG(5,("srv_net_conn_enum: %d\n", __LINE__)); } /******************************************************************* fill in a file info level 3 structure. ********************************************************************/ static void init_srv_file_3_info(FILE_INFO_3 *fl3, FILE_INFO_3_STR *str3, uint32 fnum, uint32 perms, uint32 num_locks, char *path_name, char *user_name) { init_srv_file_info3 (fl3 , fnum, perms, num_locks, path_name, user_name); init_srv_file_info3_str(str3, path_name, user_name); } /******************************************************************* fill in a file info level 3 structure. this function breaks the rule that i'd like to be in place, namely it doesn't receive its data as arguments: it has to call lp_xxxx() functions itself. yuck. ********************************************************************/ static void init_srv_file_info_3(SRV_FILE_INFO_3 *fl3, uint32 *fnum, uint32 *ftot) { uint32 num_entries = 0; (*ftot) = 1; if (fl3 == NULL) { (*fnum) = 0; return; } DEBUG(5,("init_srv_file_3_fl3\n")); for (; (*fnum) < (*ftot) && num_entries < MAX_FILE_ENTRIES; (*fnum)++) { init_srv_file_3_info(&(fl3->info_3 [num_entries]), &(fl3->info_3_str[num_entries]), (*fnum), 0x35, 0, "\\PIPE\\samr", "dummy user"); /* move on to creating next file */ num_entries++; } fl3->num_entries_read = num_entries; fl3->ptr_file_info = num_entries > 0 ? 1 : 0; fl3->num_entries_read2 = num_entries; if ((*fnum) >= (*ftot)) { (*fnum) = 0; } } /******************************************************************* makes a SRV_R_NET_FILE_ENUM structure. ********************************************************************/ static uint32 init_srv_file_info_ctr(SRV_FILE_INFO_CTR *ctr, int switch_value, uint32 *resume_hnd, uint32 *total_entries) { uint32 status = 0x0; DEBUG(5,("init_srv_file_info_ctr: %d\n", __LINE__)); ctr->switch_value = switch_value; switch (switch_value) { case 3: { init_srv_file_info_3(&(ctr->file.info3), resume_hnd, total_entries); ctr->ptr_file_ctr = 1; break; } default: { DEBUG(5,("init_srv_file_info_ctr: unsupported switch value %d\n", switch_value)); (*resume_hnd = 0); (*total_entries) = 0; ctr->ptr_file_ctr = 0; status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; break; } } return status; } /******************************************************************* makes a SRV_R_NET_FILE_ENUM structure. ********************************************************************/ static void init_srv_r_net_file_enum(SRV_R_NET_FILE_ENUM *r_n, uint32 resume_hnd, int file_level, int switch_value) { DEBUG(5,("init_srv_r_net_file_enum: %d\n", __LINE__)); r_n->file_level = file_level; if (file_level == 0) { r_n->status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; } else { r_n->status = init_srv_file_info_ctr(r_n->ctr, switch_value, &resume_hnd, &(r_n->total_entries)); } if (r_n->status != 0x0) { resume_hnd = 0; } init_enum_hnd(&(r_n->enum_hnd), resume_hnd); } /******************************************************************* net file enum ********************************************************************/ static void srv_reply_net_file_enum(SRV_Q_NET_FILE_ENUM *q_n, prs_struct *rdata) { SRV_R_NET_FILE_ENUM r_n; SRV_FILE_INFO_CTR ctr; r_n.ctr = &ctr; DEBUG(5,("srv_net_file_enum: %d\n", __LINE__)); /* set up the */ init_srv_r_net_file_enum(&r_n, get_enum_hnd(&q_n->enum_hnd), q_n->file_level, q_n->ctr->switch_value); /* store the response in the SMB stream */ srv_io_r_net_file_enum("", &r_n, rdata, 0); DEBUG(5,("srv_net_file_enum: %d\n", __LINE__)); } /******************************************************************* net server get info ********************************************************************/ static void srv_reply_net_srv_get_info(SRV_Q_NET_SRV_GET_INFO *q_n, prs_struct *rdata) { SRV_R_NET_SRV_GET_INFO r_n; uint32 status = 0x0; SRV_INFO_CTR ctr; DEBUG(5,("srv_net_srv_get_info: %d\n", __LINE__)); switch (q_n->switch_value) { case 102: { init_srv_info_102(&ctr.srv.sv102, 500, global_myname, string_truncate(lp_serverstring(), MAX_SERVER_STRING_LENGTH), lp_major_announce_version(), lp_minor_announce_version(), lp_default_server_announce(), 0xffffffff, /* users */ 0xf, /* disc */ 0, /* hidden */ 240, /* announce */ 3000, /* announce delta */ 100000, /* licenses */ "c:\\"); /* user path */ break; } case 101: { init_srv_info_101(&ctr.srv.sv101, 500, global_myname, lp_major_announce_version(), lp_minor_announce_version(), lp_default_server_announce(), string_truncate(lp_serverstring(), MAX_SERVER_STRING_LENGTH)); break; } default: { status = 0xC0000000 | NT_STATUS_INVALID_INFO_CLASS; break; } } /* set up the net server get info structure */ init_srv_r_net_srv_get_info(&r_n, q_n->switch_value, &ctr, status); /* store the response in the SMB stream */ srv_io_r_net_srv_get_info("", &r_n, rdata, 0); DEBUG(5,("srv_net_srv_get_info: %d\n", __LINE__)); } /******************************************************************* ********************************************************************/ static BOOL api_srv_net_srv_get_info(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_SRV_GET_INFO q_n; /* grab the net server get info */ srv_io_q_net_srv_get_info("", &q_n, data, 0); /* construct reply. always indicate success */ srv_reply_net_srv_get_info(&q_n, rdata); return True; } /******************************************************************* ********************************************************************/ static BOOL api_srv_net_file_enum(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_FILE_ENUM q_n; SRV_FILE_INFO_CTR ctr; q_n.ctr = &ctr; /* grab the net file enum */ srv_io_q_net_file_enum("", &q_n, data, 0); /* construct reply. always indicate success */ srv_reply_net_file_enum(&q_n, rdata); return True; } /******************************************************************* ********************************************************************/ static BOOL api_srv_net_conn_enum(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_CONN_ENUM q_n; SRV_CONN_INFO_CTR ctr; q_n.ctr = &ctr; /* grab the net server get enum */ srv_io_q_net_conn_enum("", &q_n, data, 0); /* construct reply. always indicate success */ srv_reply_net_conn_enum(&q_n, rdata); return True; } /******************************************************************* ********************************************************************/ static BOOL api_srv_net_sess_enum(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_SESS_ENUM q_n; SRV_SESS_INFO_CTR ctr; q_n.ctr = &ctr; /* grab the net server get enum */ srv_io_q_net_sess_enum("", &q_n, data, 0); /* construct reply. always indicate success */ srv_reply_net_sess_enum(&q_n, rdata); return True; } /******************************************************************* RPC to enumerate shares. ********************************************************************/ static BOOL api_srv_net_share_enum(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_SHARE_ENUM q_n; BOOL ret; /* Unmarshall the net server get enum. */ if(!srv_io_q_net_share_enum("", &q_n, data, 0)) { DEBUG(0,("api_srv_net_share_enum: Failed to unmarshall SRV_Q_NET_SHARE_ENUM.\n")); return False; } ret = srv_reply_net_share_enum(&q_n, rdata); /* Free any data allocated in the unmarshalling. */ free_srv_q_net_share_enum(&q_n); return ret; } /******************************************************************* RPC to return share information. ********************************************************************/ static BOOL api_srv_net_share_get_info(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_SHARE_GET_INFO q_n; BOOL ret; /* Unmarshall the net server get info. */ if(!srv_io_q_net_share_get_info("", &q_n, data, 0)) { DEBUG(0,("api_srv_net_share_get_info: Failed to unmarshall SRV_Q_NET_SHARE_GET_INFO.\n")); return False; } ret = srv_reply_net_share_get_info(&q_n, rdata); /* Free any data allocated in the unmarshalling. */ free_srv_q_net_share_get_info(&q_n); return ret; } /******************************************************************* time of day ********************************************************************/ static BOOL srv_reply_net_remote_tod(SRV_Q_NET_REMOTE_TOD *q_n, prs_struct *rdata) { SRV_R_NET_REMOTE_TOD r_n; TIME_OF_DAY_INFO tod; struct tm *t; time_t unixdate = time(NULL); r_n.tod = &tod; r_n.ptr_srv_tod = 0x1; r_n.status = 0x0; DEBUG(5,("srv_reply_net_remote_tod: %d\n", __LINE__)); t = gmtime(&unixdate); /* set up the */ init_time_of_day_info(&tod, unixdate, 0, t->tm_hour, t->tm_min, t->tm_sec, 0, TimeDiff(unixdate)/60, 10000, t->tm_mday, t->tm_mon + 1, 1900+t->tm_year, t->tm_wday); /* store the response in the SMB stream */ srv_io_r_net_remote_tod("", &r_n, rdata, 0); DEBUG(5,("srv_reply_net_remote_tod: %d\n", __LINE__)); return True; } /******************************************************************* ********************************************************************/ static BOOL api_srv_net_remote_tod(prs_struct *data, prs_struct *rdata ) { SRV_Q_NET_REMOTE_TOD q_n; /* grab the net server get enum */ srv_io_q_net_remote_tod("", &q_n, data, 0); /* construct reply. always indicate success */ srv_reply_net_remote_tod(&q_n, rdata); return True; } /******************************************************************* \PIPE\srvsvc commands ********************************************************************/ struct api_struct api_srv_cmds[] = { { "SRV_NETCONNENUM" , SRV_NETCONNENUM , api_srv_net_conn_enum }, { "SRV_NETSESSENUM" , SRV_NETSESSENUM , api_srv_net_sess_enum }, { "SRV_NETSHAREENUM" , SRV_NETSHAREENUM , api_srv_net_share_enum }, { "SRV_NET_SHARE_GET_INFO", SRV_NET_SHARE_GET_INFO, api_srv_net_share_get_info }, { "SRV_NETFILEENUM" , SRV_NETFILEENUM , api_srv_net_file_enum }, { "SRV_NET_SRV_GET_INFO" , SRV_NET_SRV_GET_INFO , api_srv_net_srv_get_info }, { "SRV_NET_REMOTE_TOD" , SRV_NET_REMOTE_TOD , api_srv_net_remote_tod }, { NULL , 0 , NULL } }; /******************************************************************* receives a srvsvc pipe and responds. ********************************************************************/ BOOL api_srvsvc_rpc(pipes_struct *p, prs_struct *data) { return api_rpcTNP(p, "api_srvsvc_rpc", api_srv_cmds, data); }