/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2018 Nexenta Systems, Inc. All rights reserved. */ #include #include #include #include #include #include #include /* * count of bytes in server response packet * except parameters and data. Note that setup * word count is zero. */ #define RESP_HEADER_LEN 24 /* * We started by using common functions for transaction/transaction2 * and transaction_secondary/transaction2_secondary because they * are respectively so similar. However, it turned out to be a bad * idea because of quirky differences. Be sure if you modify one * of these four functions to check and see if the modification should * be applied to its peer. */ static int smb_trans_ready(smb_xa_t *); static smb_sdrc_t smb_trans_dispatch(smb_request_t *, smb_xa_t *); static smb_sdrc_t smb_trans2_dispatch(smb_request_t *, smb_xa_t *); smb_sdrc_t smb_pre_transaction(smb_request_t *sr) { DTRACE_SMB_START(op__Transaction, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_transaction(smb_request_t *sr) { DTRACE_SMB_DONE(op__Transaction, smb_request_t *, sr); } smb_sdrc_t smb_com_transaction(smb_request_t *sr) { int rc; unsigned char msrcnt, suwcnt; uint16_t tpscnt, tdscnt, mprcnt, mdrcnt, flags; uint16_t pscnt, psoff, dscnt, dsoff; uint32_t timeo; struct smb_xa *xa; char *stn; int ready; if (!STYPE_ISIPC(sr->tid_tree->t_res_type)) { smbsr_error(sr, 0, ERRDOS, ERRnoaccess); return (SDRC_ERROR); } rc = smbsr_decode_vwv(sr, SMB_TRANSHDR_ED_FMT, &tpscnt, &tdscnt, &mprcnt, &mdrcnt, &msrcnt, &flags, &timeo, &pscnt, &psoff, &dscnt, &dsoff, &suwcnt); if (rc != 0) return (SDRC_ERROR); xa = smb_xa_create(sr->session, sr, tpscnt, tdscnt, mprcnt, mdrcnt, msrcnt, suwcnt); if (xa == NULL) { smbsr_error(sr, 0, ERRSRV, ERRnoroom); return (SDRC_ERROR); } /* Should be some alignment stuff here in SMB? */ if (sr->smb_flg2 & SMB_FLAGS2_UNICODE) { rc = smbsr_decode_data(sr, "%.U", sr, &stn); } else { rc = smbsr_decode_data(sr, "%s", sr, &stn); } if (rc != 0) { smb_xa_rele(sr->session, xa); return (SDRC_ERROR); } xa->xa_pipe_name = smb_mem_strdup(stn); xa->smb_flags = flags; xa->smb_timeout = timeo; xa->req_disp_param = pscnt; xa->req_disp_data = dscnt; if (smb_mbc_copy(&xa->req_setup_mb, &sr->smb_vwv, sr->smb_vwv.chain_offset, suwcnt * 2)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_param_mb, &sr->command, psoff, pscnt)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_data_mb, &sr->command, dsoff, dscnt)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } ready = smb_trans_ready(xa); if (smb_xa_open(xa)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRSRV, ERRsrverror); return (SDRC_ERROR); } sr->r_xa = xa; if (!ready) { rc = smbsr_encode_empty_result(sr); return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); } if (!smb_xa_complete(xa)) { smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } return (smb_trans_dispatch(sr, xa)); } smb_sdrc_t smb_pre_transaction_secondary(smb_request_t *sr) { DTRACE_SMB_START(op__TransactionSecondary, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_transaction_secondary(smb_request_t *sr) { DTRACE_SMB_DONE(op__TransactionSecondary, smb_request_t *, sr); } smb_sdrc_t smb_com_transaction_secondary(smb_request_t *sr) { uint16_t tpscnt, tdscnt, pscnt, psdisp; uint16_t dscnt, dsoff, dsdisp, psoff; smb_xa_t *xa; int rc; if ((xa = smbsr_lookup_xa(sr)) == 0) { smbsr_error(sr, 0, ERRSRV, ERRsrverror); return (SDRC_ERROR); } if (sr->session->signing.flags & SMB_SIGNING_ENABLED) { if (smb_sign_check_secondary(sr, xa->reply_seqnum) != 0) { smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRDOS, ERRnoaccess); return (SDRC_ERROR); } } if (xa->smb_com != SMB_COM_TRANSACTION) { return (SDRC_DROP_VC); } rc = smbsr_decode_vwv(sr, SMB_TRANSSHDR_ED_FMT, &tpscnt, &tdscnt, &pscnt, &psoff, &psdisp, &dscnt, &dsoff, &dsdisp); if (rc != 0) return (SDRC_ERROR); mutex_enter(&xa->xa_mutex); if (xa->smb_tpscnt > tpscnt) xa->smb_tpscnt = tpscnt; if (xa->smb_tdscnt > tdscnt) xa->smb_tdscnt = tdscnt; xa->req_disp_param = psdisp + pscnt; xa->req_disp_data = dsdisp + dscnt; /* * The words psdisp, dsdisp, tell us what displacement * into the entire trans parameter and data buffers * where we should put the params & data that are * delivered by this request. [MS-CIFS] says all the * parameters and data SHOULD be sent sequentially, so * so we can normally reassemble by simply appending. * However, the components MAY come out of order, so * check and set the current offset. This is rare, * and we might like to know when this happens, so * fire some static dtrace probes when it does. */ if (xa->req_param_mb.chain_offset != psdisp) { DTRACE_PROBE2(trans_param_disp, smb_xa_t *, xa, uint16_t, psdisp); xa->req_param_mb.chain_offset = psdisp; } if (xa->req_data_mb.chain_offset != dsdisp) { DTRACE_PROBE2(trans_data_disp, smb_xa_t *, xa, uint16_t, dsdisp); xa->req_data_mb.chain_offset = dsdisp; } if (smb_mbc_copy(&xa->req_param_mb, &sr->command, psoff, pscnt)) { mutex_exit(&xa->xa_mutex); smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_data_mb, &sr->command, dsoff, dscnt)) { mutex_exit(&xa->xa_mutex); smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } mutex_exit(&xa->xa_mutex); if (!smb_trans_ready(xa)) return (SDRC_NO_REPLY); if (!smb_xa_complete(xa)) return (SDRC_NO_REPLY); return (smb_trans_dispatch(sr, xa)); } smb_sdrc_t smb_pre_ioctl(smb_request_t *sr) { DTRACE_SMB_START(op__Ioctl, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_ioctl(smb_request_t *sr) { DTRACE_SMB_DONE(op__Ioctl, smb_request_t *, sr); } smb_sdrc_t smb_com_ioctl(smb_request_t *sr) { uint16_t fid, category, function, tpscnt, tdscnt, mprcnt; uint16_t mdrcnt, pscnt, pdoff, dscnt, dsoff; uint32_t timeout; int rc; rc = smbsr_decode_vwv(sr, "wwwwwwwl2.wwww", &fid, &category, &function, &tpscnt, &tdscnt, &mprcnt, &mdrcnt, &timeout, &pscnt, &pdoff, &dscnt, &dsoff); if (rc != 0) return (SDRC_ERROR); return (SDRC_NOT_IMPLEMENTED); } smb_sdrc_t smb_pre_transaction2(smb_request_t *sr) { DTRACE_SMB_START(op__Transaction2, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_transaction2(smb_request_t *sr) { DTRACE_SMB_DONE(op__Transaction2, smb_request_t *, sr); } smb_sdrc_t smb_com_transaction2(struct smb_request *sr) { unsigned char msrcnt, suwcnt; uint16_t tpscnt, tdscnt, mprcnt, mdrcnt, flags; uint16_t pscnt, psoff, dscnt, dsoff; uint32_t timeo; smb_xa_t *xa; int ready; int rc; rc = smbsr_decode_vwv(sr, SMB_TRANSHDR_ED_FMT, &tpscnt, &tdscnt, &mprcnt, &mdrcnt, &msrcnt, &flags, &timeo, &pscnt, &psoff, &dscnt, &dsoff, &suwcnt); if (rc != 0) return (SDRC_ERROR); xa = smb_xa_create(sr->session, sr, tpscnt, tdscnt, mprcnt, mdrcnt, msrcnt, suwcnt); if (xa == 0) { smbsr_error(sr, 0, ERRSRV, ERRnoroom); return (SDRC_ERROR); } xa->smb_flags = flags; xa->smb_timeout = timeo; xa->req_disp_param = pscnt; xa->req_disp_data = dscnt; if (smb_mbc_copy(&xa->req_setup_mb, &sr->smb_vwv, sr->smb_vwv.chain_offset, suwcnt*2)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_param_mb, &sr->command, psoff, pscnt)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_data_mb, &sr->command, dsoff, dscnt)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } ready = smb_trans_ready(xa); if (smb_xa_open(xa)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRSRV, ERRsrverror); return (SDRC_ERROR); } sr->r_xa = xa; if (!ready) { rc = smbsr_encode_empty_result(sr); return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); } if (!smb_xa_complete(xa)) { smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } return (smb_trans2_dispatch(sr, xa)); } smb_sdrc_t smb_pre_transaction2_secondary(smb_request_t *sr) { DTRACE_SMB_START(op__Transaction2Secondary, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_transaction2_secondary(smb_request_t *sr) { DTRACE_SMB_DONE(op__Transaction2Secondary, smb_request_t *, sr); } smb_sdrc_t smb_com_transaction2_secondary(smb_request_t *sr) { uint16_t tpscnt, tdscnt, fid; uint16_t pscnt, psoff, psdisp, dscnt, dsoff, dsdisp; smb_xa_t *xa; int rc; if ((xa = smbsr_lookup_xa(sr)) == 0) { smbsr_error(sr, 0, ERRSRV, ERRsrverror); return (SDRC_ERROR); } if (sr->session->signing.flags & SMB_SIGNING_ENABLED) { if (smb_sign_check_secondary(sr, xa->reply_seqnum) != 0) { smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRDOS, ERRnoaccess); return (SDRC_ERROR); } } if (xa->smb_com != SMB_COM_TRANSACTION2) { return (SDRC_DROP_VC); } rc = smbsr_decode_vwv(sr, SMB_TRANS2SHDR_ED_FMT, &tpscnt, &tdscnt, &pscnt, &psoff, &psdisp, &dscnt, &dsoff, &dsdisp, &fid); if (rc != 0) return (SDRC_ERROR); mutex_enter(&xa->xa_mutex); if (xa->smb_tpscnt > tpscnt) xa->smb_tpscnt = tpscnt; if (xa->smb_tdscnt > tdscnt) xa->smb_tdscnt = tdscnt; if (fid != 0xFFFF) xa->xa_smb_fid = fid; xa->req_disp_param = psdisp + pscnt; xa->req_disp_data = dsdisp + dscnt; /* * See comment in smb_com_transaction_secondary */ if (xa->req_param_mb.chain_offset != psdisp) { DTRACE_PROBE2(trans_param_disp, smb_xa_t *, xa, uint16_t, psdisp); xa->req_param_mb.chain_offset = psdisp; } if (xa->req_data_mb.chain_offset != dsdisp) { DTRACE_PROBE2(trans_data_disp, smb_xa_t *, xa, uint16_t, dsdisp); xa->req_data_mb.chain_offset = dsdisp; } if (smb_mbc_copy(&xa->req_param_mb, &sr->command, psoff, pscnt)) { mutex_exit(&xa->xa_mutex); smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_data_mb, &sr->command, dsoff, dscnt)) { mutex_exit(&xa->xa_mutex); smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } mutex_exit(&xa->xa_mutex); if (!smb_trans_ready(xa)) return (SDRC_NO_REPLY); if (!smb_xa_complete(xa)) return (SDRC_NO_REPLY); return (smb_trans2_dispatch(sr, xa)); } static smb_sdrc_t smb_nt_trans_dispatch(struct smb_request *sr, struct smb_xa *xa) { int rc; int total_bytes, n_setup, n_param, n_data; int param_off, param_pad, data_off, data_pad; switch (xa->smb_func) { case NT_TRANSACT_CREATE: if ((rc = smb_pre_nt_transact_create(sr, xa)) == 0) rc = smb_nt_transact_create(sr, xa); smb_post_nt_transact_create(sr, xa); break; case NT_TRANSACT_NOTIFY_CHANGE: rc = smb_nt_transact_notify_change(sr, xa); break; case NT_TRANSACT_QUERY_SECURITY_DESC: rc = smb_nt_transact_query_security_info(sr, xa); break; case NT_TRANSACT_SET_SECURITY_DESC: rc = smb_nt_transact_set_security_info(sr, xa); break; case NT_TRANSACT_IOCTL: rc = smb_nt_transact_ioctl(sr, xa); break; case NT_TRANSACT_QUERY_QUOTA: rc = smb_nt_transact_query_quota(sr, xa); break; case NT_TRANSACT_SET_QUOTA: rc = smb_nt_transact_set_quota(sr, xa); break; case NT_TRANSACT_RENAME: rc = smb_nt_transact_rename(sr, xa); break; default: smbsr_error(sr, 0, ERRSRV, ERRsmbcmd); return (SDRC_ERROR); } switch (rc) { case SDRC_SUCCESS: break; case SDRC_DROP_VC: case SDRC_NO_REPLY: case SDRC_ERROR: case SDRC_SR_KEPT: return (rc); case SDRC_NOT_IMPLEMENTED: smbsr_error(sr, 0, ERRSRV, ERRsmbcmd); return (SDRC_ERROR); default: break; } n_setup = MBC_LENGTH(&xa->rep_setup_mb); n_param = MBC_LENGTH(&xa->rep_param_mb); n_data = MBC_LENGTH(&xa->rep_data_mb); if (xa->smb_msrcnt < n_setup || xa->smb_mprcnt < n_param || xa->smb_mdrcnt < n_data) { smbsr_error(sr, 0, ERRSRV, ERRsmbcmd); return (SDRC_ERROR); } /* neato, blast it over there */ n_setup = (n_setup + 1) / 2; /* Conver to setup words */ param_pad = 1; /* must be one */ param_off = param_pad + 32 + 37 + (n_setup << 1) + 2; data_pad = (4 - ((param_off + n_param) & 3)) % 4; /* Pad to 4 byte */ data_off = param_off + n_param + data_pad; /* Param off from hdr */ total_bytes = param_pad + n_param + data_pad + n_data; rc = smbsr_encode_result(sr, 18+n_setup, total_bytes, "b3.llllllllbCw#.C#.C", 18 + n_setup, /* wct */ n_param, /* Total Parameter Bytes */ n_data, /* Total Data Bytes */ n_param, /* Total Parameter Bytes this buffer */ param_off, /* Param offset from header start */ 0, /* Param displacement */ n_data, /* Total Data Bytes this buffer */ data_off, /* Data offset from header start */ 0, /* Data displacement */ n_setup, /* suwcnt */ &xa->rep_setup_mb, /* setup[] */ total_bytes, /* Total data bytes */ param_pad, &xa->rep_param_mb, data_pad, &xa->rep_data_mb); return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); } smb_sdrc_t smb_pre_nt_transact(smb_request_t *sr) { DTRACE_SMB_START(op__NtTransact, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_nt_transact(smb_request_t *sr) { DTRACE_SMB_DONE(op__NtTransact, smb_request_t *, sr); } smb_sdrc_t smb_com_nt_transact(struct smb_request *sr) { uint16_t Function; unsigned char MaxSetupCount, SetupCount; uint32_t TotalParameterCount, TotalDataCount; uint32_t MaxParameterCount, MaxDataCount, pscnt; uint32_t psoff, dscnt, dsoff; smb_xa_t *xa; int ready; int rc; rc = smbsr_decode_vwv(sr, SMB_NT_TRANSHDR_ED_FMT, &MaxSetupCount, &TotalParameterCount, &TotalDataCount, &MaxParameterCount, &MaxDataCount, &pscnt, &psoff, &dscnt, &dsoff, &SetupCount, &Function); if (rc != 0) return (SDRC_ERROR); xa = smb_xa_create(sr->session, sr, TotalParameterCount, TotalDataCount, MaxParameterCount, MaxDataCount, MaxSetupCount, SetupCount); if (xa == 0) { smbsr_error(sr, 0, ERRSRV, ERRnoroom); return (SDRC_ERROR); } xa->smb_flags = 0; xa->smb_timeout = 0; xa->smb_func = Function; xa->req_disp_param = pscnt; xa->req_disp_data = dscnt; if (smb_mbc_copy(&xa->req_setup_mb, &sr->smb_vwv, sr->smb_vwv.chain_offset, SetupCount * 2)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_param_mb, &sr->command, psoff, pscnt)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_data_mb, &sr->command, dsoff, dscnt)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } ready = smb_trans_ready(xa); if (smb_xa_open(xa)) { smb_xa_rele(sr->session, xa); smbsr_error(sr, 0, ERRSRV, ERRsrverror); return (SDRC_ERROR); } sr->r_xa = xa; if (!ready) { rc = smbsr_encode_empty_result(sr); return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); } if (!smb_xa_complete(xa)) { smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } return (smb_nt_trans_dispatch(sr, xa)); } smb_sdrc_t smb_pre_nt_transact_secondary(smb_request_t *sr) { DTRACE_SMB_START(op__NtTransactSecondary, smb_request_t *, sr); return (SDRC_SUCCESS); } void smb_post_nt_transact_secondary(smb_request_t *sr) { DTRACE_SMB_DONE(op__NtTransactSecondary, smb_request_t *, sr); } smb_sdrc_t smb_com_nt_transact_secondary(struct smb_request *sr) { uint16_t tpscnt, tdscnt, fid; uint16_t pscnt, psoff, psdisp, dscnt, dsoff, dsdisp; smb_xa_t *xa; int rc; if ((xa = smbsr_lookup_xa(sr)) == 0) { smbsr_error(sr, 0, ERRSRV, ERRsrverror); return (SDRC_ERROR); } if (sr->session->signing.flags & SMB_SIGNING_ENABLED) { if (smb_sign_check_secondary(sr, xa->reply_seqnum) != 0) { smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRDOS, ERRnoaccess); return (SDRC_ERROR); } } if (xa->smb_com != SMB_COM_TRANSACTION2) { return (SDRC_DROP_VC); } rc = smbsr_decode_vwv(sr, SMB_TRANS2SHDR_ED_FMT, &tpscnt, &tdscnt, &pscnt, &psoff, &psdisp, &dscnt, &dsoff, &dsdisp, &fid); if (rc != 0) return (SDRC_ERROR); mutex_enter(&xa->xa_mutex); if (xa->smb_tpscnt > tpscnt) xa->smb_tpscnt = tpscnt; if (xa->smb_tdscnt > tdscnt) xa->smb_tdscnt = tdscnt; if (fid != 0xFFFF) xa->xa_smb_fid = fid; xa->req_disp_param = psdisp + pscnt; xa->req_disp_data = dsdisp + dscnt; /* * See comment in smb_com_transaction_secondary */ if (xa->req_param_mb.chain_offset != psdisp) { DTRACE_PROBE2(trans_param_disp, smb_xa_t *, xa, uint16_t, psdisp); xa->req_param_mb.chain_offset = psdisp; } if (xa->req_data_mb.chain_offset != dsdisp) { DTRACE_PROBE2(trans_data_disp, smb_xa_t *, xa, uint16_t, dsdisp); xa->req_data_mb.chain_offset = dsdisp; } if (smb_mbc_copy(&xa->req_param_mb, &sr->command, psoff, pscnt)) { mutex_exit(&xa->xa_mutex); smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } if (smb_mbc_copy(&xa->req_data_mb, &sr->command, dsoff, dscnt)) { mutex_exit(&xa->xa_mutex); smb_xa_close(xa); smbsr_error(sr, 0, ERRDOS, ERRbadformat); return (SDRC_ERROR); } mutex_exit(&xa->xa_mutex); if (!smb_trans_ready(xa)) return (SDRC_NO_REPLY); if (!smb_xa_complete(xa)) return (SDRC_NO_REPLY); return (smb_nt_trans_dispatch(sr, xa)); } static int smb_trans_ready(smb_xa_t *xa) { int rc; mutex_enter(&xa->xa_mutex); rc = xa->req_disp_data >= xa->smb_tdscnt && xa->req_disp_param >= xa->smb_tpscnt; mutex_exit(&xa->xa_mutex); return (rc); } static void smb_encode_SHARE_INFO_1(struct mbuf_chain *output, struct mbuf_chain *text, char *oem_name, uint16_t type, char *comment) { (void) smb_mbc_encodef(output, "13c.wl", oem_name, type, MBC_LENGTH(text)); (void) smb_mbc_encodef(text, "s", comment ? comment : ""); } static void smb_encode_SHARE_INFO_2(struct mbuf_chain *output, struct mbuf_chain *text, smb_request_t *sr, char *oem_name, uint16_t type, char *comment, uint16_t access, char *path, char *password) { unsigned char pword[9]; bzero(pword, sizeof (pword)); (void) strncpy((char *)pword, password, sizeof (pword)); smb_encode_SHARE_INFO_1(output, text, oem_name, type, comment); (void) smb_mbc_encodef(output, "wwwl9c.", access, sr->sr_cfg->skc_maxconnections, smb_server_get_session_count(sr->sr_server), MBC_LENGTH(text), pword); (void) smb_mbc_encodef(text, "s", path); } int smb_trans_net_share_enum(struct smb_request *sr, struct smb_xa *xa) { uint16_t pid_hi, pid_lo; /* * Number of data bytes that will * be sent in the current response */ uint16_t data_scnt; /* * Total number of data bytes that * are sent till now. This is only * used for calculating current data * displacement */ uint16_t tot_data_scnt; /* * Number of parameter bytes should * be sent for the current response. * It is 8 for the 1st response and * 0 for others */ uint16_t param_scnt; /* number of setup and parameter bytes */ uint16_t n_setup, n_param; /* data and parameter displacement */ uint16_t data_disp, param_disp; /* parameter and data offset and pad */ int param_off, param_pad, data_off, data_pad; /* * total bytes of parameters and data * in the packet, plus the pad bytes. */ int tot_packet_bytes; boolean_t first_resp; char fmt[16]; struct mbuf_chain reply; uint16_t level; uint16_t pkt_bufsize; smb_enumshare_info_t esi; char *sent_buf; ASSERT(sr->uid_user); if (smb_mbc_decodef(&xa->req_param_mb, "ww", &level, &esi.es_bufsize) != 0) return (SDRC_NOT_IMPLEMENTED); if (level != 1) { /* * Only level 1 is valid for NetShareEnum * None of the error codes in the spec are meaningful * here. This error code is returned by Windows. */ (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", ERROR_INVALID_LEVEL, 0, 0, 0); return (SDRC_SUCCESS); } esi.es_buf = smb_srm_zalloc(sr, esi.es_bufsize); esi.es_posix_uid = crgetuid(sr->uid_user->u_cred); smb_kshare_enum(sr->sr_server, &esi); /* client buffer size is not big enough to hold any shares */ if (esi.es_nsent == 0) { (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", ERROR_MORE_DATA, 0, esi.es_nsent, esi.es_ntotal); return (SDRC_SUCCESS); } /* * Initialize the reply mbuf chain. Note that we re-initialize * this on each pass through the loop below. */ MBC_SETUP(&reply, smb_maxbufsize); /* * The rep_setup_mb is already initialized in smb_trans_dispatch(). * Calling MBC_INIT() will initialized the structure and so the * pointer to the mbuf chains will be lost. Therefore, we need * to free the resources before calling MBC_INIT() again. */ n_setup = 0; /* Setup count for NetShareEnum SMB is 0 */ MBC_FLUSH(&xa->rep_setup_mb); n_param = 8; pkt_bufsize = sr->session->smb_msg_size - (SMB_HEADER_ED_LEN + RESP_HEADER_LEN + n_param); tot_data_scnt = 0; sent_buf = esi.es_buf; first_resp = B_TRUE; while (tot_data_scnt < esi.es_datasize) { data_scnt = esi.es_datasize - tot_data_scnt; if (data_scnt > pkt_bufsize) data_scnt = pkt_bufsize; MBC_FLUSH(&xa->rep_data_mb); (void) sprintf(fmt, "%dc", data_scnt); (void) smb_mbc_encodef(&xa->rep_data_mb, fmt, sent_buf); sent_buf += data_scnt; tot_data_scnt += data_scnt; /* Only the 1st response packet contains parameters */ param_scnt = (first_resp) ? n_param : 0; param_pad = 1; /* always one */ param_off = SMB_HEADER_ED_LEN + RESP_HEADER_LEN; param_disp = (first_resp) ? 0 : n_param; MBC_FLUSH(&xa->rep_param_mb); if (first_resp) { first_resp = B_FALSE; (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", (esi.es_ntotal > esi.es_nsent) ? ERROR_MORE_DATA : 0, 0, esi.es_nsent, esi.es_ntotal); } data_pad = (param_off + n_param) & 1; /* Pad to short */ /* data off from hdr start */ data_off = param_off + param_scnt + data_pad; data_disp = tot_data_scnt - data_scnt; tot_packet_bytes = param_pad + param_scnt + data_pad + data_scnt; pid_hi = sr->smb_pid >> 16; pid_lo = (uint16_t)sr->smb_pid; MBC_FLUSH(&reply); (void) smb_mbc_encodef(&reply, SMB_HEADER_ED_FMT, sr->first_smb_com, sr->smb_rcls, sr->smb_reh, sr->smb_err, sr->smb_flg | SMB_FLAGS_REPLY, sr->smb_flg2, pid_hi, sr->smb_sig, sr->smb_tid, pid_lo, sr->smb_uid, sr->smb_mid); (void) smb_mbc_encodef(&reply, "bww2.wwwwwwb.Cw#.C#.C", 10 + n_setup, /* wct */ n_param, /* Total Parameter Bytes */ esi.es_datasize, /* Total Data Bytes */ param_scnt, /* Total Parameter Bytes this buffer */ param_off, /* Param offset from header start */ param_disp, /* Param displacement */ data_scnt, /* Total Data Bytes this buffer */ data_off, /* Data offset from header start */ data_disp, /* Data displacement */ n_setup, /* suwcnt */ &xa->rep_setup_mb, /* setup[] */ tot_packet_bytes, /* Total data bytes */ param_pad, &xa->rep_param_mb, data_pad, &xa->rep_data_mb); if (sr->session->signing.flags & SMB_SIGNING_ENABLED) smb_sign_reply(sr, &reply); (void) smb_session_send(sr->session, 0, &reply); } m_freem(reply.chain); return (SDRC_NO_REPLY); } int smb_trans_net_share_getinfo(smb_request_t *sr, struct smb_xa *xa) { uint16_t level, max_bytes, access; struct mbuf_chain str_mb; char *share; char *password; smb_kshare_t *si; if (smb_mbc_decodef(&xa->req_param_mb, "%sww", sr, &share, &level, &max_bytes) != 0) return (SDRC_NOT_IMPLEMENTED); si = smb_kshare_lookup(sr->sr_server, share); if ((si == NULL) || (si->shr_oemname == NULL)) { (void) smb_mbc_encodef(&xa->rep_param_mb, "www", NERR_NetNameNotFound, 0, 0); if (si) smb_kshare_release(sr->sr_server, si); return (SDRC_SUCCESS); } access = SHARE_ACCESS_ALL; password = ""; MBC_INIT(&str_mb, max_bytes); switch (level) { case 0 : (void) smb_mbc_encodef(&xa->rep_data_mb, "13c", si->shr_oemname); break; case 1 : smb_encode_SHARE_INFO_1(&xa->rep_data_mb, &str_mb, si->shr_oemname, si->shr_type, si->shr_cmnt); break; case 2 : smb_encode_SHARE_INFO_2(&xa->rep_data_mb, &str_mb, sr, si->shr_oemname, si->shr_type, si->shr_cmnt, access, si->shr_path, password); break; default: smb_kshare_release(sr->sr_server, si); (void) smb_mbc_encodef(&xa->rep_param_mb, "www", ERROR_INVALID_LEVEL, 0, 0); m_freem(str_mb.chain); return (SDRC_NOT_IMPLEMENTED); } smb_kshare_release(sr->sr_server, si); (void) smb_mbc_encodef(&xa->rep_param_mb, "www", NERR_Success, -MBC_LENGTH(&xa->rep_data_mb), MBC_LENGTH(&xa->rep_data_mb) + MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&xa->rep_data_mb, "C", &str_mb); m_freem(str_mb.chain); return (SDRC_SUCCESS); } int smb_trans_net_workstation_getinfo(struct smb_request *sr, struct smb_xa *xa) { uint16_t level, max_bytes; struct mbuf_chain str_mb; char *domain; char *hostname; if ((smb_mbc_decodef(&xa->req_param_mb, "ww", &level, &max_bytes) != 0) || (level != 10)) { (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", NERR_BadTransactConfig, 0, 0, 0); return (SDRC_SUCCESS); } domain = sr->sr_cfg->skc_nbdomain; hostname = sr->sr_cfg->skc_hostname; MBC_INIT(&str_mb, max_bytes); (void) smb_mbc_encodef(&str_mb, "."); /* Prevent NULL pointers */ (void) smb_mbc_encodef(&xa->rep_data_mb, "l", MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&str_mb, "s", hostname); (void) smb_mbc_encodef(&xa->rep_data_mb, "l", MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&str_mb, "s", "nobody"); (void) smb_mbc_encodef(&xa->rep_data_mb, "l", MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&str_mb, "s", domain); (void) smb_mbc_encodef(&xa->rep_data_mb, "bbl", (uint8_t)sr->sr_cfg->skc_version.sv_major, (uint8_t)sr->sr_cfg->skc_version.sv_minor, MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&str_mb, "s", domain); (void) smb_mbc_encodef(&xa->rep_data_mb, "l", MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&str_mb, "s", domain); (void) smb_mbc_encodef(&xa->rep_param_mb, "www", 0, -MBC_LENGTH(&xa->rep_data_mb), MBC_LENGTH(&xa->rep_data_mb) + MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&xa->rep_data_mb, "C", &str_mb); m_freem(str_mb.chain); return (SDRC_SUCCESS); } int smb_trans_net_user_getinfo(struct smb_request *sr, struct smb_xa *xa) { uint16_t level, max_bytes; unsigned char *user; int rc; rc = smb_mbc_decodef(&xa->req_param_mb, "%sww", sr, &user, &level, &max_bytes); if (rc != 0) return (SDRC_NOT_IMPLEMENTED); (void) smb_mbc_encodef(&xa->rep_param_mb, "www", NERR_UserNotFound, 0, 0); return (SDRC_SUCCESS); } smb_sdrc_t smb_trans_net_server_getinfo(struct smb_request *sr, struct smb_xa *xa) { uint16_t level, buf_size; uint16_t avail_data, max_data; char server_name[16]; struct mbuf_chain str_mb; if (smb_mbc_decodef(&xa->req_param_mb, "ww", &level, &buf_size) != 0) return (SDRC_ERROR); max_data = MBC_MAXBYTES(&xa->rep_data_mb); MBC_INIT(&str_mb, buf_size); bzero(server_name, sizeof (server_name)); (void) strncpy(server_name, sr->sr_cfg->skc_hostname, sizeof (server_name)); /* valid levels are 0 and 1 */ switch (level) { case 0: (void) smb_mbc_encodef(&xa->rep_data_mb, "16c", server_name); break; case 1: (void) smb_mbc_encodef(&str_mb, "s", sr->sr_cfg->skc_system_comment); (void) smb_mbc_encodef(&xa->rep_data_mb, "16cbbll", server_name, (uint8_t)sr->sr_cfg->skc_version.sv_major, (uint8_t)sr->sr_cfg->skc_version.sv_minor, MY_SERVER_TYPE, max_data - MBC_LENGTH(&str_mb)); break; default: (void) smb_mbc_encodef(&xa->rep_param_mb, "www", ERROR_INVALID_LEVEL, 0, 0); m_freem(str_mb.chain); return (SDRC_SUCCESS); } avail_data = MBC_LENGTH(&xa->rep_data_mb) + MBC_LENGTH(&str_mb); (void) smb_mbc_encodef(&xa->rep_param_mb, "www", NERR_Success, max_data - avail_data, avail_data); (void) smb_mbc_encodef(&xa->rep_data_mb, "C", &str_mb); m_freem(str_mb.chain); return (SDRC_SUCCESS); } /* * 6.4 The NetServerEnum2 RAP Service * * The NetServerEnum2 RAP service lists all computers of the specified type * or types that are visible in the specified domains. It may also * enumerate domains. * * The following definition uses the notation and terminology defined in * the CIFS Remote Administration Protocol specification, which is required * in order to make it well-defined. The definition is: * * uint16_t NetServerEnum2 ( * uint16_t sLevel, * RCVBUF pbBuffer, * RCVBUFLEN cbBuffer, * ENTCOUNT pcEntriesRead, * uint16_t *pcTotalAvail, * uint32_t fServerType, * char *pszDomain, * ); * * where: * * sLevel specifies the level of detail (0 or 1) requested. * * pbBuffer points to the buffer to receive the returned data. If the * function is successful, the buffer contains a sequence of * server_info_x structures, where x is 0 or 1, depending on the * level of detail requested. * * cbBuffer specifies the size, in bytes, of the buffer pointed to by * the pbBuffer parameter. * * pcEntriesRead points to a 16 bit variable that receives a count of * the number of servers enumerated in the buffer. This count is * valid only if NetServerEnum2 returns the NERR_Success or * ERROR_MORE_DATA values. * * pcTotal Avail points to a 16 bit variable that receives a count of * the total number of available entries. This count is valid only if * NetServerEnum2 returns the NERR_Success or ERROR_MORE_DATA values. * * fServerType specifies the type or types of computers to enumerate. * Computers that match at least one of the specified types are * returned in the buffer. Possible values are defined in the request * parameters section. * * pszDomain points to a null-terminated string that contains the * name of the workgroup in which to enumerate computers of the * specified type or types. If the pszDomain parameter is a null * string or a null pointer, servers are enumerated for the current * domain of the computer. * * 6.4.1 Transaction Request Parameters section * * The Transaction request parameters section in this instance contains: * . The 16 bit function number for NetServerEnum2 which is 104. * . The parameter descriptor string which is "WrLehDz". * . The data descriptor string for the (returned) data which is "B16" for * level detail 0 or "B16BBDz" for level detail 1. * . The actual parameters as described by the parameter descriptor * string. * * The parameters are: * . A 16 bit integer with a value of 0 or 1 (corresponding to the "W" in * the parameter descriptor string. This represents the level of detail * the server is expected to return * . A 16 bit integer that contains the size of the receive buffer. * . A 32 bit integer that represents the type of servers the function * should enumerate. The possible values may be any of the following or * a combination of the following: * * SV_TYPE_WORKSTATION 0x00000001 All workstations * SV_TYPE_SERVER 0x00000002 All servers * SV_TYPE_SQLSERVER 0x00000004 Any server running with SQL * server * SV_TYPE_DOMAIN_CTRL 0x00000008 Primary domain controller * SV_TYPE_DOMAIN_BAKCTRL 0x00000010 Backup domain controller * SV_TYPE_TIME_SOURCE 0x00000020 Server running the timesource * service * SV_TYPE_AFP 0x00000040 Apple File Protocol servers * SV_TYPE_NOVELL 0x00000080 Novell servers * SV_TYPE_DOMAIN_MEMBER 0x00000100 Domain Member * SV_TYPE_PRINTQ_SERVER 0x00000200 Server sharing print queue * SV_TYPE_DIALIN_SERVER 0x00000400 Server running dialin service. * SV_TYPE_XENIX_SERVER 0x00000800 Xenix server * SV_TYPE_NT 0x00001000 NT server * SV_TYPE_WFW 0x00002000 Server running Windows for * Workgroups * SV_TYPE_SERVER_NT 0x00008000 Windows NT non DC server * SV_TYPE_POTENTIAL_BROWSER 0x00010000 Server that can run the browser * service * SV_TYPE_BACKUP_BROWSER 0x00020000 Backup browser server * SV_TYPE_MASTER_BROWSER 0x00040000 Master browser server * SV_TYPE_DOMAIN_MASTER 0x00080000 Domain Master Browser server * SV_TYPE_LOCAL_LIST_ONLY 0x40000000 Enumerate only entries marked * "local" * SV_TYPE_DOMAIN_ENUM 0x80000000 Enumerate Domains. The pszDomain * parameter must be NULL. * * . A null terminated ASCII string representing the pszDomain parameter * described above * * 6.4.2 Transaction Request Data section * * There is no data or auxiliary data to send as part of the request. * * 6.4.3 Transaction Response Parameters section * * The transaction response parameters section consists of: * . A 16 bit word indicating the return status. The possible values are: * * Code Value Description * NERR_Success 0 No errors encountered * ERROR_MORE_DATA 234 Additional data is available * NERR_ServerNotStarted 2114 The RAP service on the remote computer * is not running * NERR_BadTransactConfig 2141 The server is not configured for * transactions, IPC$ is not shared * * . A 16 bit "converter" word. * . A 16 bit number representing the number of entries returned. * . A 16 bit number representing the total number of available entries. * If the supplied buffer is large enough, this will equal the number of * entries returned. * * 6.4.4 Transaction Response Data section * * The return data section consists of a number of SERVER_INFO_1 structures. * The number of such structures present is determined by the third entry * (described above) in the return parameters section. * * At level detail 0, the Transaction response data section contains a * number of SERVER_INFO_0 data structure. The number of such structures is * equal to the 16 bit number returned by the server in the third parameter * in the Transaction response parameter section. The SERVER_INFO_0 data * structure is defined as: * * struct SERVER_INFO_0 { * char sv0_name[16]; * }; * * where: * * sv0_name is a null-terminated string that specifies the name of a * computer or domain . * * At level detail 1, the Transaction response data section contains a * number of SERVER_INFO_1 data structure. The number of such structures is * equal to the 16 bit number returned by the server in the third parameter * in the Transaction response parameter section. The SERVER_INFO_1 data * structure is defined as: * * struct SERVER_INFO_1 { * char sv1_name[16]; * char sv1_version_major; * char sv1_version_minor; * uint32_t sv1_type; * char *sv1_comment_or_master_browser; * }; * * sv1_name contains a null-terminated string that specifies the name * of a computer, or a domain name if SV_TYPE_DOMAIN_ENUM is set in * sv1_type. * * sv1_version_major whatever was specified in the HostAnnouncement * or DomainAnnouncement frame with which the entry was registered. * * sv1_version_minor whatever was specified in the HostAnnouncement * or DomainAnnouncement frame with which the entry was registered. * * sv1_type specifies the type of software the computer is running. * The member can be one or a combination of the values defined above * in the Transaction request parameters section for fServerType. * * * sv1_comment_or_master_browser points to a null-terminated string. If * the sv1_type indicates that the entry is for a domain, this * specifies the name of server running the domain master browser; * otherwise, it specifies a comment describing the server. The comment * can be a null string or the pointer may be a null pointer. * * In case there are multiple SERVER_INFO_1 data structures to * return, the server may put all these fixed length structures in * the return buffer, leave some space and then put all the variable * length data (the actual value of the sv1_comment strings) at the * end of the buffer. * * There is no auxiliary data to receive. */ int smb_trans_net_server_enum2(struct smb_request *sr, struct smb_xa *xa) { uint16_t opcode, level, max_bytes; uint32_t server_type; unsigned char *domain; struct mbuf_chain str_mb; char *hostname, *s; smb_kmod_cfg_t *si; if (smb_mbc_decodef(&xa->req_param_mb, "%wsswwls", sr, &opcode, &s, &s, &level, &max_bytes, &server_type, &domain) != 0) return (SDRC_NOT_IMPLEMENTED); si = sr->sr_cfg; if (smb_strcasecmp(si->skc_nbdomain, (char *)domain, 0) != 0) { (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", 0, 0, 0, 0); return (SDRC_SUCCESS); } if ((server_type & MY_SERVER_TYPE) == 0) { (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", 0, 0, 0, 0); return (SDRC_SUCCESS); } MBC_INIT(&str_mb, max_bytes); hostname = si->skc_hostname; (void) smb_mbc_encodef(&xa->rep_data_mb, "16c", hostname); if (level == 1) { (void) smb_mbc_encodef(&xa->rep_data_mb, "bbll", (uint8_t)sr->sr_cfg->skc_version.sv_major, (uint8_t)sr->sr_cfg->skc_version.sv_minor, MY_SERVER_TYPE, MBC_LENGTH(&str_mb)); (void) smb_mbc_encodef(&str_mb, "s", si->skc_system_comment); } (void) smb_mbc_encodef(&xa->rep_param_mb, "wwww", 0, -MBC_LENGTH(&xa->rep_data_mb), 1, 1); (void) smb_mbc_encodef(&xa->rep_data_mb, "m", str_mb.chain); return (SDRC_SUCCESS); } static boolean_t is_supported_mailslot(const char *mailslot) { static char *mailslots[] = { PIPE_LANMAN, MAILSLOT_LANMAN, MAILSLOT_BROWSE, MAILSLOT_MSBROWSE }; int i; for (i = 0; i < sizeof (mailslots)/sizeof (mailslots[0]); ++i) if (smb_strcasecmp(mailslot, mailslots[i], 0) == 0) return (B_TRUE); return (B_FALSE); } /* * smb_trans_nmpipe * * This is used for RPC bind and request transactions. * * If the data available from the pipe is larger than the maximum * data size requested by the client, return as much as requested. * The residual data remains in the pipe until the client comes back * with a read request or closes the pipe. * * When we read less than what's available, we MUST return the * status NT_STATUS_BUFFER_OVERFLOW (or ERRDOS/ERROR_MORE_DATA) */ static smb_sdrc_t smb_trans_nmpipe(smb_request_t *sr, smb_xa_t *xa) { smb_fsctl_t fsctl; uint32_t status; smbsr_lookup_file(sr); if (sr->fid_ofile == NULL) { smbsr_error(sr, NT_STATUS_INVALID_HANDLE, ERRDOS, ERRbadfid); return (SDRC_ERROR); } /* * A little confusing perhaps, but the fsctl "input" is what we * write to the pipe (from the transaction "send" data), and the * fsctl "output" is what we read from the pipe (and becomes the * transaction receive data). */ fsctl.CtlCode = FSCTL_PIPE_TRANSCEIVE; fsctl.InputCount = xa->smb_tdscnt; /* write count */ fsctl.OutputCount = 0; /* minimum to read from the pipe */ fsctl.MaxOutputResp = xa->smb_mdrcnt; /* max to read */ fsctl.in_mbc = &xa->req_data_mb; /* write from here */ fsctl.out_mbc = &xa->rep_data_mb; /* read into here */ status = smb_opipe_transceive(sr, &fsctl); if (status) { smbsr_status(sr, status, 0, 0); if (NT_SC_SEVERITY(status) == NT_STATUS_SEVERITY_ERROR) return (SDRC_ERROR); /* Warnings like NT_STATUS_BUFFER_OVERFLOW are OK */ } return (SDRC_SUCCESS); } static smb_sdrc_t smb_trans_dispatch(smb_request_t *sr, smb_xa_t *xa) { int rc, pos; int total_bytes, n_setup, n_param, n_data; int param_off, param_pad, data_off, data_pad; uint16_t opcode; uint16_t devstate; char *req_fmt; char *rep_fmt; if (xa->smb_suwcnt > 0) { rc = smb_mbc_decodef(&xa->req_setup_mb, "ww", &opcode, &sr->smb_fid); if (rc != 0) goto trans_err_not_supported; switch (opcode) { case TRANS_SET_NMPIPE_STATE: if ((rc = smb_mbc_decodef(&xa->req_param_mb, "w", &devstate)) != 0) goto trans_err_not_supported; rc = SDRC_SUCCESS; break; case TRANS_TRANSACT_NMPIPE: rc = smb_trans_nmpipe(sr, xa); break; case TRANS_WAIT_NMPIPE: delay(SEC_TO_TICK(1)); rc = SDRC_SUCCESS; break; default: goto trans_err_not_supported; } } else { if (!is_supported_mailslot(xa->xa_pipe_name)) goto trans_err_not_supported; if ((rc = smb_mbc_decodef(&xa->req_param_mb, "%wss", sr, &opcode, &req_fmt, &rep_fmt)) != 0) goto trans_err_not_supported; switch (opcode) { case API_WshareEnum: rc = smb_trans_net_share_enum(sr, xa); break; case API_WshareGetInfo: rc = smb_trans_net_share_getinfo(sr, xa); break; case API_WserverGetInfo: rc = smb_trans_net_server_getinfo(sr, xa); break; case API_WUserGetInfo: rc = smb_trans_net_user_getinfo(sr, xa); break; case API_WWkstaGetInfo: rc = smb_trans_net_workstation_getinfo(sr, xa); break; case API_NetServerEnum2: rc = smb_trans_net_server_enum2(sr, xa); break; default: goto trans_err_not_supported; } } switch (rc) { case SDRC_SUCCESS: break; case SDRC_DROP_VC: case SDRC_NO_REPLY: case SDRC_ERROR: return (rc); case SDRC_NOT_IMPLEMENTED: goto trans_err_not_supported; default: break; } n_setup = MBC_LENGTH(&xa->rep_setup_mb); n_param = MBC_LENGTH(&xa->rep_param_mb); n_data = MBC_LENGTH(&xa->rep_data_mb); if (xa->smb_msrcnt < n_setup || xa->smb_mprcnt < n_param || xa->smb_mdrcnt < n_data) { goto trans_err_too_small; } /* neato, blast it over there */ n_setup = (n_setup + 1) / 2; /* Convert to setup words */ param_pad = 1; /* always one */ param_off = param_pad + 32 + 21 + (n_setup << 1) + 2; data_pad = (param_off + n_param) & 1; /* Pad to short */ /* Param off from hdr start */ data_off = param_off + n_param + data_pad; total_bytes = param_pad + n_param + data_pad + n_data; rc = smbsr_encode_result(sr, 10+n_setup, total_bytes, "bww2.wwwwwwb.Cw#.C#.C", 10 + n_setup, /* wct */ n_param, /* Total Parameter Bytes */ n_data, /* Total Data Bytes */ n_param, /* Total Parameter Bytes this buffer */ param_off, /* Param offset from header start */ 0, /* Param displacement */ n_data, /* Total Data Bytes this buffer */ data_off, /* Data offset from header start */ 0, /* Data displacement */ n_setup, /* suwcnt */ &xa->rep_setup_mb, /* setup[] */ total_bytes, /* Total data bytes */ param_pad, &xa->rep_param_mb, data_pad, &xa->rep_data_mb); return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); trans_err_too_small: rc = NERR_BufTooSmall; goto trans_err; trans_err_not_supported: rc = ERROR_NOT_SUPPORTED; goto trans_err; trans_err: pos = MBC_LENGTH(&sr->reply) + 23; rc = smbsr_encode_result(sr, 10, 4, "bww2.wwwwwwb.www", 10, /* wct */ 4, 0, /* tpscnt tdscnt */ 4, pos, 0, /* pscnt psoff psdisp */ 0, 0, 0, /* dscnt dsoff dsdisp */ 0, /* suwcnt */ 4, /* bcc */ rc, 0); /* converter word? */ return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); } static smb_sdrc_t smb_trans2_dispatch(smb_request_t *sr, smb_xa_t *xa) { int rc, pos; int total_bytes, n_setup, n_param, n_data; int param_off, param_pad, data_off; uint16_t data_pad; uint16_t opcode; uint16_t nt_unknown_secret = 0x0100; char *fmt; n_data = xa->smb_mdrcnt; if (smb_mbc_decodef(&xa->req_setup_mb, "w", &opcode) != 0) goto trans_err_not_supported; /* * Save this for /proc to read later. */ xa->smb_func = opcode; /* for now, only respond to the */ switch (opcode) { case TRANS2_OPEN2: rc = smb_com_trans2_open2(sr, xa); break; case TRANS2_CREATE_DIRECTORY: rc = smb_com_trans2_create_directory(sr, xa); break; case TRANS2_FIND_FIRST2: /* * Should have enough room to send the response * data back to client. */ if (n_data == 0) { smbsr_error(sr, NT_STATUS_INFO_LENGTH_MISMATCH, ERRDOS, ERROR_BAD_LENGTH); return (SDRC_ERROR); } rc = smb_com_trans2_find_first2(sr, xa); break; case TRANS2_FIND_NEXT2: /* * Should have enough room to send the response * data back to client. */ if (n_data == 0) { smbsr_error(sr, NT_STATUS_INFO_LENGTH_MISMATCH, ERRDOS, ERROR_BAD_LENGTH); return (SDRC_ERROR); } rc = smb_com_trans2_find_next2(sr, xa); break; case TRANS2_QUERY_FS_INFORMATION: /* * Should have enough room to send the response * data back to client. */ if (n_data == 0) { smbsr_error(sr, NT_STATUS_INFO_LENGTH_MISMATCH, ERRDOS, ERROR_BAD_LENGTH); return (SDRC_ERROR); } rc = smb_com_trans2_query_fs_information(sr, xa); break; case TRANS2_SET_FS_INFORMATION: rc = smb_com_trans2_set_fs_information(sr, xa); break; case TRANS2_QUERY_PATH_INFORMATION: /* * Should have enough room to send the response * data back to client. */ if (n_data == 0) { smbsr_error(sr, NT_STATUS_INFO_LENGTH_MISMATCH, ERRDOS, ERROR_BAD_LENGTH); return (SDRC_ERROR); } rc = smb_com_trans2_query_path_information(sr, xa); break; case TRANS2_QUERY_FILE_INFORMATION: /* * Should have enough room to send the response * data back to client. */ if (n_data == 0) { smbsr_error(sr, NT_STATUS_INFO_LENGTH_MISMATCH, ERRDOS, ERROR_BAD_LENGTH); return (SDRC_ERROR); } rc = smb_com_trans2_query_file_information(sr, xa); break; case TRANS2_SET_PATH_INFORMATION: rc = smb_com_trans2_set_path_information(sr, xa); break; case TRANS2_SET_FILE_INFORMATION: rc = smb_com_trans2_set_file_information(sr, xa); break; case TRANS2_GET_DFS_REFERRAL: rc = smb_com_trans2_get_dfs_referral(sr, xa); break; default: (void) smb_mbc_encodef(&xa->rep_param_mb, "w", 0); goto trans_err_not_supported; } switch (rc) { case SDRC_SUCCESS: break; case SDRC_DROP_VC: case SDRC_NO_REPLY: case SDRC_ERROR: return (rc); case SDRC_NOT_IMPLEMENTED: goto trans_err_not_supported; default: break; } n_setup = MBC_LENGTH(&xa->rep_setup_mb); n_param = MBC_LENGTH(&xa->rep_param_mb); n_data = MBC_LENGTH(&xa->rep_data_mb); if (xa->smb_msrcnt < n_setup || xa->smb_mprcnt < n_param || xa->smb_mdrcnt < n_data) { goto trans_err_too_small; } /* neato, blast it over there */ n_setup = (n_setup + 1) / 2; /* Conver to setup words */ param_pad = 1; /* must be one */ param_off = param_pad + 32 + 21 + (n_setup << 1) + 2; /* * Including the nt_unknown_secret value persuades netmon to * display the correct data format for QueryPathInfo and * QueryFileInfo. */ if (opcode == TRANS2_QUERY_FILE_INFORMATION || opcode == TRANS2_QUERY_PATH_INFORMATION) { data_pad = sizeof (uint16_t); data_off = param_off + n_param + data_pad; fmt = "bww2.wwwwwwb.Cw#.CwC"; nt_unknown_secret = 0x0100; } else { data_pad = (param_off + n_param) & 1; /* Pad to short */ /* Param off from hdr start */ data_off = param_off + n_param + data_pad; fmt = "bww2.wwwwwwb.Cw#.C#.C"; nt_unknown_secret = data_pad; } total_bytes = param_pad + n_param + data_pad + n_data; rc = smbsr_encode_result(sr, 10+n_setup, total_bytes, fmt, 10 + n_setup, /* wct */ n_param, /* Total Parameter Bytes */ n_data /* + data_pad */, /* Total Data Bytes */ n_param, /* Total Parameter Bytes this buffer */ param_off, /* Param offset from header start */ 0, /* Param displacement */ n_data /* + data_pad */, /* Total Data Bytes this buffer */ data_off, /* Data offset from header start */ 0, /* Data displacement */ n_setup, /* suwcnt */ &xa->rep_setup_mb, /* setup[] */ total_bytes, /* Total data bytes */ param_pad, &xa->rep_param_mb, nt_unknown_secret, &xa->rep_data_mb); return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); trans_err_too_small: rc = NERR_BufTooSmall; goto trans_err; trans_err_not_supported: rc = ERROR_NOT_SUPPORTED; goto trans_err; trans_err: pos = MBC_LENGTH(&sr->reply) + 23; rc = smbsr_encode_result(sr, 10, 4, "bww2.wwwwwwb.www", 10, /* wct */ 4, 0, /* tpscnt tdscnt */ 4, pos, 0, /* pscnt psoff psdisp */ 0, 0, 0, /* dscnt dsoff dsdisp */ 0, /* suwcnt */ 4, /* bcc */ rc, 0); /* converter word? */ return ((rc == 0) ? SDRC_SUCCESS : SDRC_ERROR); } static uint32_t smb_xa_max_setup_count = 200; static uint32_t smb_xa_max_param_count = 32 * 1024; static uint32_t smb_xa_max_data_count = 64 * 1024; smb_xa_t * smb_xa_create( smb_session_t *session, smb_request_t *sr, uint32_t total_parameter_count, uint32_t total_data_count, uint32_t max_parameter_count, uint32_t max_data_count, uint32_t max_setup_count, uint32_t setup_word_count) { smb_xa_t *xa, *nxa; smb_llist_t *xlist; /* * Sanity check what the client says it will send. * Caller handles NULL return as ERRnoroom. */ if (setup_word_count > smb_xa_max_setup_count) return (NULL); if (total_parameter_count > smb_xa_max_param_count) return (NULL); if (total_data_count > smb_xa_max_data_count) return (NULL); /* * Limit what the client asks us to allocate for * returned setup, params, data. */ if (max_setup_count > smb_xa_max_setup_count) max_setup_count = smb_xa_max_setup_count; if (max_parameter_count > smb_xa_max_param_count) max_parameter_count = smb_xa_max_param_count; if (max_data_count > smb_xa_max_data_count) max_data_count = smb_xa_max_data_count; xa = kmem_zalloc(sizeof (smb_xa_t), KM_SLEEP); xa->xa_refcnt = 1; xa->smb_com = sr->smb_com; xa->smb_flg = sr->smb_flg; xa->smb_flg2 = sr->smb_flg2; xa->smb_tid = sr->smb_tid; xa->smb_pid = sr->smb_pid; xa->smb_uid = sr->smb_uid; xa->xa_smb_mid = sr->smb_mid; xa->xa_smb_fid = 0xFFFF; xa->reply_seqnum = sr->reply_seqnum; xa->smb_tpscnt = total_parameter_count; xa->smb_tdscnt = total_data_count; xa->smb_mprcnt = max_parameter_count; xa->smb_mdrcnt = max_data_count; xa->smb_msrcnt = max_setup_count; xa->smb_suwcnt = setup_word_count; xa->xa_session = session; xa->xa_magic = SMB_XA_MAGIC; /* request parts */ xa->req_setup_mb.max_bytes = setup_word_count * 2; xa->req_param_mb.max_bytes = total_parameter_count; xa->req_data_mb.max_bytes = total_data_count; /* reply parts */ xa->rep_setup_mb.max_bytes = max_setup_count * 2; xa->rep_param_mb.max_bytes = max_parameter_count; xa->rep_data_mb.max_bytes = max_data_count; /* * The new xa structure is checked against the current list to see * if it exists already. */ xlist = &session->s_xa_list; smb_llist_enter(xlist, RW_WRITER); nxa = smb_llist_head(xlist); while (nxa) { ASSERT(nxa->xa_magic == SMB_XA_MAGIC); if (nxa->xa_smb_mid == xa->xa_smb_mid && nxa->smb_pid == xa->smb_pid && !SMB_XA_CLOSED(nxa) && !(nxa->xa_flags & SMB_XA_FLAG_COMPLETE)) { smb_llist_exit(xlist); kmem_free(xa, sizeof (smb_xa_t)); return (NULL); } nxa = smb_llist_next(xlist, nxa); } smb_llist_insert_tail(xlist, xa); smb_llist_exit(xlist); return (xa); } void smb_xa_delete(smb_xa_t *xa) { ASSERT(xa->xa_refcnt == 0); ASSERT(SMB_XA_CLOSED(xa)); if (xa->xa_pipe_name) smb_mem_free(xa->xa_pipe_name); /* request parts */ if (xa->req_setup_mb.chain != NULL) m_freem(xa->req_setup_mb.chain); if (xa->req_param_mb.chain != NULL) m_freem(xa->req_param_mb.chain); if (xa->req_data_mb.chain != NULL) m_freem(xa->req_data_mb.chain); /* reply parts */ if (xa->rep_setup_mb.chain != NULL) m_freem(xa->rep_setup_mb.chain); if (xa->rep_param_mb.chain != NULL) m_freem(xa->rep_param_mb.chain); if (xa->rep_data_mb.chain != NULL) m_freem(xa->rep_data_mb.chain); xa->xa_magic = (uint32_t)~SMB_XA_MAGIC; kmem_free(xa, sizeof (smb_xa_t)); } smb_xa_t * smb_xa_hold(smb_xa_t *xa) { mutex_enter(&xa->xa_mutex); xa->xa_refcnt++; ASSERT(xa->xa_refcnt); mutex_exit(&xa->xa_mutex); return (xa); } void smb_xa_rele(smb_session_t *session, smb_xa_t *xa) { mutex_enter(&xa->xa_mutex); ASSERT(xa->xa_refcnt); xa->xa_refcnt--; if (SMB_XA_CLOSED(xa) && (xa->xa_refcnt == 0)) { mutex_exit(&xa->xa_mutex); smb_llist_enter(&session->s_xa_list, RW_WRITER); smb_llist_remove(&session->s_xa_list, xa); smb_llist_exit(&session->s_xa_list); smb_xa_delete(xa); return; } mutex_exit(&xa->xa_mutex); } int smb_xa_open(smb_xa_t *xa) { int rc; mutex_enter(&xa->xa_mutex); ASSERT((xa->xa_flags & SMB_XA_FLAG_OPEN) == 0); if ((xa->xa_flags & SMB_XA_FLAG_CLOSE) == 0) { xa->xa_flags |= SMB_XA_FLAG_OPEN; rc = 0; } else { rc = ERROR_INVALID_HANDLE; } mutex_exit(&xa->xa_mutex); return (rc); } void smb_xa_close(smb_xa_t *xa) { mutex_enter(&xa->xa_mutex); xa->xa_flags |= SMB_XA_FLAG_CLOSE; xa->xa_flags &= ~SMB_XA_FLAG_OPEN; if (xa->xa_refcnt == 0) { mutex_exit(&xa->xa_mutex); smb_llist_enter(&xa->xa_session->s_xa_list, RW_WRITER); smb_llist_remove(&xa->xa_session->s_xa_list, xa); smb_llist_exit(&xa->xa_session->s_xa_list); smb_xa_delete(xa); return; } mutex_exit(&xa->xa_mutex); } int smb_xa_complete(smb_xa_t *xa) { int rc; mutex_enter(&xa->xa_mutex); if (xa->xa_flags & (SMB_XA_FLAG_COMPLETE | SMB_XA_FLAG_CLOSE)) { rc = 0; /* error ("not complete") */ } else { rc = 1; /* Yes, "complete" */ xa->xa_flags |= SMB_XA_FLAG_COMPLETE; /* * During trans & trans-secondary processing, * we copied the request data into these. * Now we want to parse them, so we need to * move the "finger" back to the beginning. */ xa->req_setup_mb.chain_offset = 0; xa->req_param_mb.chain_offset = 0; xa->req_data_mb.chain_offset = 0; } mutex_exit(&xa->xa_mutex); return (rc); } smb_xa_t * smb_xa_find( smb_session_t *session, uint32_t pid, uint16_t mid) { smb_xa_t *xa; smb_llist_t *xlist; xlist = &session->s_xa_list; smb_llist_enter(xlist, RW_READER); xa = smb_llist_head(xlist); while (xa) { mutex_enter(&xa->xa_mutex); if (xa->xa_smb_mid == mid && xa->smb_pid == pid && !SMB_XA_CLOSED(xa) && !(xa->xa_flags & SMB_XA_FLAG_COMPLETE)) { xa->xa_refcnt++; ASSERT(xa->xa_refcnt); mutex_exit(&xa->xa_mutex); break; } mutex_exit(&xa->xa_mutex); xa = smb_llist_next(xlist, xa); } smb_llist_exit(xlist); return (xa); }