/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "fspr_arch_threadproc.h" #include "fspr_arch_file_io.h" #include "fspr_strings.h" #include "fspr_portable.h" #include fspr_status_t fspr_netware_proc_cleanup(void *theproc) { fspr_proc_t *proc = theproc; int exit_int; int waitpid_options = WUNTRACED | WNOHANG; if (proc->pid > 0) { waitpid(proc->pid, &exit_int, waitpid_options); } /* NXVmDestroy(proc->pid); */ return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_create(fspr_procattr_t **new,fspr_pool_t *pool) { (*new) = (fspr_procattr_t *)fspr_pcalloc(pool, sizeof(fspr_procattr_t)); if ((*new) == NULL) { return APR_ENOMEM; } (*new)->pool = pool; (*new)->cmdtype = APR_PROGRAM; /* Default to a current path since NetWare doesn't handle it very well */ fspr_filepath_get(&((*new)->currdir), APR_FILEPATH_NATIVE, pool); (*new)->detached = 1; return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_io_set(fspr_procattr_t *attr, fspr_int32_t in, fspr_int32_t out, fspr_int32_t err) { fspr_status_t status; if (in != 0) { if ((status = fspr_file_pipe_create(&attr->child_in, &attr->parent_in, attr->pool)) != APR_SUCCESS) { return status; } switch (in) { case APR_FULL_BLOCK: break; case APR_PARENT_BLOCK: fspr_file_pipe_timeout_set(attr->child_in, 0); break; case APR_CHILD_BLOCK: fspr_file_pipe_timeout_set(attr->parent_in, 0); break; default: fspr_file_pipe_timeout_set(attr->child_in, 0); fspr_file_pipe_timeout_set(attr->parent_in, 0); } } if (out) { if ((status = fspr_file_pipe_create(&attr->parent_out, &attr->child_out, attr->pool)) != APR_SUCCESS) { return status; } switch (out) { case APR_FULL_BLOCK: break; case APR_PARENT_BLOCK: fspr_file_pipe_timeout_set(attr->child_out, 0); break; case APR_CHILD_BLOCK: fspr_file_pipe_timeout_set(attr->parent_out, 0); break; default: fspr_file_pipe_timeout_set(attr->child_out, 0); fspr_file_pipe_timeout_set(attr->parent_out, 0); } } if (err) { if ((status = fspr_file_pipe_create(&attr->parent_err, &attr->child_err, attr->pool)) != APR_SUCCESS) { return status; } switch (err) { case APR_FULL_BLOCK: break; case APR_PARENT_BLOCK: fspr_file_pipe_timeout_set(attr->child_err, 0); break; case APR_CHILD_BLOCK: fspr_file_pipe_timeout_set(attr->parent_err, 0); break; default: fspr_file_pipe_timeout_set(attr->child_err, 0); fspr_file_pipe_timeout_set(attr->parent_err, 0); } } return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_child_in_set(fspr_procattr_t *attr, fspr_file_t *child_in, fspr_file_t *parent_in) { if (attr->child_in == NULL && attr->parent_in == NULL) fspr_file_pipe_create(&attr->child_in, &attr->parent_in, attr->pool); if (child_in != NULL) fspr_file_dup2(attr->child_in, child_in, attr->pool); if (parent_in != NULL) fspr_file_dup2(attr->parent_in, parent_in, attr->pool); return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_child_out_set(fspr_procattr_t *attr, fspr_file_t *child_out, fspr_file_t *parent_out) { if (attr->child_out == NULL && attr->parent_out == NULL) fspr_file_pipe_create(&attr->child_out, &attr->parent_out, attr->pool); if (child_out != NULL) fspr_file_dup2(attr->child_out, child_out, attr->pool); if (parent_out != NULL) fspr_file_dup2(attr->parent_out, parent_out, attr->pool); return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_child_err_set(fspr_procattr_t *attr, fspr_file_t *child_err, fspr_file_t *parent_err) { if (attr->child_err == NULL && attr->parent_err == NULL) fspr_file_pipe_create(&attr->child_err, &attr->parent_err, attr->pool); if (child_err != NULL) fspr_file_dup2(attr->child_err, child_err, attr->pool); if (parent_err != NULL) fspr_file_dup2(attr->parent_err, parent_err, attr->pool); return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_dir_set(fspr_procattr_t *attr, const char *dir) { return fspr_filepath_merge(&attr->currdir, NULL, dir, APR_FILEPATH_NATIVE, attr->pool); } APR_DECLARE(fspr_status_t) fspr_procattr_cmdtype_set(fspr_procattr_t *attr, fspr_cmdtype_e cmd) { /* won't ever be called on this platform, so don't save the function pointer */ return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_detach_set(fspr_procattr_t *attr, fspr_int32_t detach) { attr->detached = detach; return APR_SUCCESS; } #if APR_HAS_FORK APR_DECLARE(fspr_status_t) fspr_proc_fork(fspr_proc_t *proc, fspr_pool_t *pool) { int pid; if ((pid = fork()) < 0) { return errno; } else if (pid == 0) { proc->pid = pid; proc->in = NULL; proc->out = NULL; proc->err = NULL; return APR_INCHILD; } proc->pid = pid; proc->in = NULL; proc->out = NULL; proc->err = NULL; return APR_INPARENT; } #endif static fspr_status_t limit_proc(fspr_procattr_t *attr) { #if APR_HAVE_STRUCT_RLIMIT && APR_HAVE_SETRLIMIT #ifdef RLIMIT_CPU if (attr->limit_cpu != NULL) { if ((setrlimit(RLIMIT_CPU, attr->limit_cpu)) != 0) { return errno; } } #endif #ifdef RLIMIT_NPROC if (attr->limit_nproc != NULL) { if ((setrlimit(RLIMIT_NPROC, attr->limit_nproc)) != 0) { return errno; } } #endif #if defined(RLIMIT_AS) if (attr->limit_mem != NULL) { if ((setrlimit(RLIMIT_AS, attr->limit_mem)) != 0) { return errno; } } #elif defined(RLIMIT_DATA) if (attr->limit_mem != NULL) { if ((setrlimit(RLIMIT_DATA, attr->limit_mem)) != 0) { return errno; } } #elif defined(RLIMIT_VMEM) if (attr->limit_mem != NULL) { if ((setrlimit(RLIMIT_VMEM, attr->limit_mem)) != 0) { return errno; } } #endif #else /* * Maybe make a note in error_log that setrlimit isn't supported?? */ #endif return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_child_errfn_set(fspr_procattr_t *attr, fspr_child_errfn_t *errfn) { /* won't ever be called on this platform, so don't save the function pointer */ return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_error_check_set(fspr_procattr_t *attr, fspr_int32_t chk) { /* won't ever be used on this platform, so don't save the flag */ return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_addrspace_set(fspr_procattr_t *attr, fspr_int32_t addrspace) { attr->addrspace = addrspace; return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_proc_create(fspr_proc_t *newproc, const char *progname, const char * const *args, const char * const *env, fspr_procattr_t *attr, fspr_pool_t *pool) { wiring_t wire; int addr_space; wire.infd = attr->child_in ? attr->child_in->filedes : FD_UNUSED; wire.outfd = attr->child_out ? attr->child_out->filedes : FD_UNUSED; wire.errfd = attr->child_err ? attr->child_err->filedes : FD_UNUSED; newproc->in = attr->parent_in; newproc->out = attr->parent_out; newproc->err = attr->parent_err; /* attr->detached and PROC_DETACHED do not mean the same thing. attr->detached means * start the NLM in a separate address space. PROC_DETACHED means don't wait for the * NLM to unload by calling wait() or waitpid(), just clean up */ addr_space = PROC_LOAD_SILENT | (attr->addrspace ? 0 : PROC_CURRENT_SPACE); addr_space |= (attr->detached ? PROC_DETACHED : 0); if (attr->currdir) { char *fullpath = NULL; fspr_status_t rv; if ((rv = fspr_filepath_merge(&fullpath, attr->currdir, progname, APR_FILEPATH_NATIVE, pool)) != APR_SUCCESS) { return rv; } progname = fullpath; } if ((newproc->pid = procve(progname, addr_space, (const char**)env, &wire, NULL, NULL, 0, NULL, (const char **)args)) == -1) { return errno; } if (attr->child_in) { fspr_pool_cleanup_kill(fspr_file_pool_get(attr->child_in), attr->child_in, fspr_unix_file_cleanup); fspr_file_close(attr->child_in); } if (attr->child_out) { fspr_pool_cleanup_kill(fspr_file_pool_get(attr->child_out), attr->child_out, fspr_unix_file_cleanup); fspr_file_close(attr->child_out); } if (attr->child_err) { fspr_pool_cleanup_kill(fspr_file_pool_get(attr->child_err), attr->child_err, fspr_unix_file_cleanup); fspr_file_close(attr->child_err); } fspr_pool_cleanup_register(pool, (void *)newproc, fspr_netware_proc_cleanup, fspr_pool_cleanup_null); return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_proc_wait_all_procs(fspr_proc_t *proc, int *exitcode, fspr_exit_why_e *exitwhy, fspr_wait_how_e waithow, fspr_pool_t *p) { proc->pid = -1; return fspr_proc_wait(proc, exitcode, exitwhy, waithow); } APR_DECLARE(fspr_status_t) fspr_proc_wait(fspr_proc_t *proc, int *exitcode, fspr_exit_why_e *exitwhy, fspr_wait_how_e waithow) { pid_t pstatus; int waitpid_options = WUNTRACED; int exit_int; int ignore; fspr_exit_why_e ignorewhy; if (exitcode == NULL) { exitcode = &ignore; } if (exitwhy == NULL) { exitwhy = &ignorewhy; } if (waithow != APR_WAIT) { waitpid_options |= WNOHANG; } /* If the pid is 0 then the process was started detached. There is no need to wait since there is nothing to wait for on a detached process. Starting a process as non-detached and then calling wait or waitpid could cause the thread to hang. The reason for this is because NetWare does not have a way to kill or even signal a process to be killed. Starting all processes as detached avoids the possibility of a thread hanging. */ if (proc->pid == 0) { *exitwhy = APR_PROC_EXIT; *exitcode = 0; return APR_CHILD_DONE; } if ((pstatus = waitpid(proc->pid, &exit_int, waitpid_options)) > 0) { proc->pid = pstatus; if (WIFEXITED(exit_int)) { *exitwhy = APR_PROC_EXIT; *exitcode = WEXITSTATUS(exit_int); } else if (WIFSIGNALED(exit_int)) { *exitwhy = APR_PROC_SIGNAL; *exitcode = WIFTERMSIG(exit_int); } else { /* unexpected condition */ return APR_EGENERAL; } return APR_CHILD_DONE; } else if (pstatus == 0) { return APR_CHILD_NOTDONE; } return errno; } APR_DECLARE(fspr_status_t) fspr_procattr_limit_set(fspr_procattr_t *attr, fspr_int32_t what, struct rlimit *limit) { switch(what) { case APR_LIMIT_CPU: #ifdef RLIMIT_CPU attr->limit_cpu = limit; break; #else return APR_ENOTIMPL; #endif case APR_LIMIT_MEM: #if defined (RLIMIT_DATA) || defined (RLIMIT_VMEM) || defined(RLIMIT_AS) attr->limit_mem = limit; break; #else return APR_ENOTIMPL; #endif case APR_LIMIT_NPROC: #ifdef RLIMIT_NPROC attr->limit_nproc = limit; break; #else return APR_ENOTIMPL; #endif } return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_user_set(fspr_procattr_t *attr, const char *username, const char *password) { /* Always return SUCCESS because NetWare threads don't run as a user */ return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_procattr_group_set(fspr_procattr_t *attr, const char *groupname) { /* Always return SUCCESS because NetWare threads don't run within a group */ return APR_SUCCESS; }