From: Philip Homburg Date: Thu, 11 May 2006 14:58:33 +0000 (+0000) Subject: Special code for restarting disk drivers (-c flag in service). X-Git-Tag: v3.1.3~363 X-Git-Url: http://zhaoyanbai.com/repos/%22http:/www.isc.org/icons/doc/processing.js?a=commitdiff_plain;h=e4967b06bb24b150e9226ccc369c43f9c22bd74f;p=minix.git Special code for restarting disk drivers (-c flag in service). --- diff --git a/servers/rs/Makefile b/servers/rs/Makefile index b40408fb3..0ae24044d 100644 --- a/servers/rs/Makefile +++ b/servers/rs/Makefile @@ -17,7 +17,7 @@ UTIL_LIBS = -lsys LIBS = -lsys -lsysutil UTIL_OBJ = service.o -OBJ = main.o manager.o +OBJ = exec.o main.o manager.o # build local binary all build: $(SERVER) $(UTIL) @@ -25,7 +25,7 @@ $(UTIL): $(UTIL_OBJ) $(CC) -o $@ $(LDFLAGS) $(UTIL_OBJ) $(UTIL_LIBS) $(SERVER): $(OBJ) $(CC) -o $@ $(LDFLAGS) $(OBJ) $(LIBS) - install -S 16k $@ + install -S 48k $@ # install with other servers install: /bin/$(UTIL) /usr/sbin/$(SERVER) diff --git a/servers/rs/exec.c b/servers/rs/exec.c new file mode 100644 index 000000000..9f02d96ec --- /dev/null +++ b/servers/rs/exec.c @@ -0,0 +1,431 @@ +#include "inc.h" +#include + +#define BLOCK_SIZE 1024 + +static void do_exec(int proc_e, char *exec, size_t exec_len, char *progname, + char *frame, int frame_len); +FORWARD _PROTOTYPE( int read_header, (char *exec, size_t exec_len, int *sep_id, + vir_bytes *text_bytes, vir_bytes *data_bytes, + vir_bytes *bss_bytes, phys_bytes *tot_bytes, vir_bytes *pc, + int *hdrlenp) ); +FORWARD _PROTOTYPE( int exec_newmem, (int proc_e, vir_bytes text_bytes, + vir_bytes data_bytes, vir_bytes bss_bytes, vir_bytes tot_bytes, + vir_bytes frame_len, int sep_id, + Dev_t st_dev, ino_t st_ino, time_t st_ctime, char *progname, + int new_uid, int new_gid, + vir_bytes *stack_topp, int *load_textp, int *allow_setuidp) ); +FORWARD _PROTOTYPE( int exec_restart, (int proc_e, int result) ); +FORWARD _PROTOTYPE( void patch_ptr, (char stack[ARG_MAX], + vir_bytes base) ); +FORWARD _PROTOTYPE( int read_seg, (char *exec, size_t exec_len, off_t off, + int proc_e, int seg, phys_bytes seg_bytes) ); + +static int self_e= NONE; + +int dev_execve(int proc_e, char *exec, size_t exec_len, char **argv, + char **Xenvp) +{ + char * const *ap; + char * const *ep; + char *frame; + char **vp; + char *sp, *progname; + size_t argc; + size_t frame_size; + size_t string_off; + size_t n; + int ov; + message m; + + /* Assumptions: size_t and char *, it's all the same thing. */ + + /* Create a stack image that only needs to be patched up slightly + * by the kernel to be used for the process to be executed. + */ + + ov= 0; /* No overflow yet. */ + frame_size= 0; /* Size of the new initial stack. */ + string_off= 0; /* Offset to start of the strings. */ + argc= 0; /* Argument count. */ + + for (ap= argv; *ap != NULL; ap++) { + n = sizeof(*ap) + strlen(*ap) + 1; + frame_size+= n; + if (frame_size < n) ov= 1; + string_off+= sizeof(*ap); + argc++; + } + +#if 0 +printf("here: %s, %d\n", __FILE__, __LINE__); + for (ep= envp; *ep != NULL; ep++) { + n = sizeof(*ep) + strlen(*ep) + 1; + frame_size+= n; + if (frame_size < n) ov= 1; + string_off+= sizeof(*ap); + } +#endif + + /* Add an argument count and two terminating nulls. */ + frame_size+= sizeof(argc) + sizeof(*ap) + sizeof(*ep); + string_off+= sizeof(argc) + sizeof(*ap) + sizeof(*ep); + + /* Align. */ + frame_size= (frame_size + sizeof(char *) - 1) & ~(sizeof(char *) - 1); + + /* The party is off if there is an overflow. */ + if (ov || frame_size < 3 * sizeof(char *)) { + errno= E2BIG; + return -1; + } + + /* Allocate space for the stack frame. */ + if ((frame = (char *) sbrk(frame_size)) == (char *) -1) { + errno = E2BIG; + return -1; + } + + /* Set arg count, init pointers to vector and string tables. */ + * (size_t *) frame = argc; + vp = (char **) (frame + sizeof(argc)); + sp = frame + string_off; + + /* Load the argument vector and strings. */ + for (ap= argv; *ap != NULL; ap++) { + *vp++= (char *) (sp - frame); + n= strlen(*ap) + 1; + memcpy(sp, *ap, n); + sp+= n; + } + *vp++= NULL; + +#if 0 + /* Load the environment vector and strings. */ + for (ep= envp; *ep != NULL; ep++) { + *vp++= (char *) (sp - frame); + n= strlen(*ep) + 1; + memcpy(sp, *ep, n); + sp+= n; + } +#endif + *vp++= NULL; + + /* Padding. */ + while (sp < frame + frame_size) *sp++= 0; + + (progname=strrchr(argv[0], '/')) ? progname++ : (progname=argv[0]); + do_exec(proc_e, exec, exec_len, progname, frame, frame_size); + + /* Failure, return the memory used for the frame and exit. */ + (void) sbrk(-frame_size); + return -1; +} + +static void do_exec(int proc_e, char *exec, size_t exec_len, char *progname, + char *frame, int frame_len) +{ + int r; + int hdrlen, sep_id, load_text, allow_setuid; + int need_restart, error; + vir_bytes stack_top, vsp; + vir_bytes text_bytes, data_bytes, bss_bytes, pc; + phys_bytes tot_bytes; + off_t off; + uid_t new_uid; + gid_t new_gid; + + need_restart= 0; + error= 0; + + self_e = getnprocnr(getpid()); + + /* Read the file header and extract the segment sizes. */ + r = read_header(exec, exec_len, &sep_id, + &text_bytes, &data_bytes, &bss_bytes, + &tot_bytes, &pc, &hdrlen); + if (r != OK) + { + printf("do_exec: read_header failed\n"); + goto fail; + } + need_restart= 1; + + new_uid= getuid(); + new_gid= getgid(); + /* XXX what should we use to identify the executable? */ + r= exec_newmem(proc_e, text_bytes, data_bytes, bss_bytes, tot_bytes, + frame_len, sep_id, 0 /*dev*/, proc_e /*inum*/, 0 /*ctime*/, + progname, new_uid, new_gid, &stack_top, &load_text, + &allow_setuid); + if (r != OK) + { + printf("do_exec: exec_newmap failed: %d\n", r); + error= r; + goto fail; + } + + /* Patch up stack and copy it from FS to new core image. */ + vsp = stack_top; + vsp -= frame_len; + patch_ptr(frame, vsp); + r = sys_datacopy(SELF, (vir_bytes) frame, + proc_e, (vir_bytes) vsp, (phys_bytes)frame_len); + if (r != OK) panic(__FILE__,"pm_exec stack copy err on", proc_e); + + off = hdrlen; + + /* Read in text and data segments. */ + if (load_text) { + r= read_seg(exec, exec_len, off, proc_e, T, text_bytes); + if (r != OK) + { + printf("do_exec: read_seg failed: %d\n", r); + error= r; + goto fail; + } + } + else + printf("do_exec: not loading text segment\n"); + + off += text_bytes; + r= read_seg(exec, exec_len, off, proc_e, D, data_bytes); + if (r != OK) + { + printf("do_exec: read_seg failed: %d\n", r); + error= r; + goto fail; + } + + exec_restart(proc_e, OK); + + return; + +fail: + printf("do_exec(fail): error = %d\n", error); + if (need_restart) + exec_restart(proc_e, error); +} + +/*===========================================================================* + * exec_newmem * + *===========================================================================*/ +PRIVATE int exec_newmem(proc_e, text_bytes, data_bytes, bss_bytes, tot_bytes, + frame_len, sep_id, st_dev, st_ino, st_ctime, progname, + new_uid, new_gid, stack_topp, load_textp, allow_setuidp) +int proc_e; +vir_bytes text_bytes; +vir_bytes data_bytes; +vir_bytes bss_bytes; +vir_bytes tot_bytes; +vir_bytes frame_len; +int sep_id; +dev_t st_dev; +ino_t st_ino; +time_t st_ctime; +int new_uid; +int new_gid; +char *progname; +vir_bytes *stack_topp; +int *load_textp; +int *allow_setuidp; +{ + int r; + struct exec_newmem e; + message m; + + e.text_bytes= text_bytes; + e.data_bytes= data_bytes; + e.bss_bytes= bss_bytes; + e.tot_bytes= tot_bytes; + e.args_bytes= frame_len; + e.sep_id= sep_id; + e.st_dev= st_dev; + e.st_ino= st_ino; + e.st_ctime= st_ctime; + e.new_uid= new_uid; + e.new_gid= new_gid; + strncpy(e.progname, progname, sizeof(e.progname)-1); + e.progname[sizeof(e.progname)-1]= '\0'; + + m.m_type= EXEC_NEWMEM; + m.EXC_NM_PROC= proc_e; + m.EXC_NM_PTR= (char *)&e; + r= sendrec(PM_PROC_NR, &m); + if (r != OK) + return r; +#if 0 + printf("exec_newmem: r = %d, m_type = %d\n", r, m.m_type); +#endif + *stack_topp= m.m1_i1; + *load_textp= !!(m.m1_i2 & EXC_NM_RF_LOAD_TEXT); + *allow_setuidp= !!(m.m1_i2 & EXC_NM_RF_ALLOW_SETUID); +#if 0 + printf("exec_newmem: stack_top = 0x%x\n", *stack_topp); + printf("exec_newmem: load_text = %d\n", *load_textp); +#endif + return m.m_type; +} + + +/*===========================================================================* + * exec_restart * + *===========================================================================*/ +PRIVATE int exec_restart(proc_e, result) +int proc_e; +int result; +{ + int r; + message m; + + m.m_type= EXEC_RESTART; + m.EXC_RS_PROC= proc_e; + m.EXC_RS_RESULT= result; + r= sendrec(PM_PROC_NR, &m); + if (r != OK) + return r; + return m.m_type; +} + + +/*===========================================================================* + * read_header * + *===========================================================================*/ +PRIVATE int read_header(exec, exec_len, sep_id, text_bytes, data_bytes, + bss_bytes, tot_bytes, pc, hdrlenp) +char *exec; /* executable image */ +size_t exec_len; /* size of the image */ +int *sep_id; /* true iff sep I&D */ +vir_bytes *text_bytes; /* place to return text size */ +vir_bytes *data_bytes; /* place to return initialized data size */ +vir_bytes *bss_bytes; /* place to return bss size */ +phys_bytes *tot_bytes; /* place to return total size */ +vir_bytes *pc; /* program entry point (initial PC) */ +int *hdrlenp; +{ +/* Read the header and extract the text, data, bss and total sizes from it. */ + off_t pos; + block_t b; + struct exec hdr; /* a.out header is read in here */ + + /* Read the header and check the magic number. The standard MINIX header + * is defined in . It consists of 8 chars followed by 6 longs. + * Then come 4 more longs that are not used here. + * Byte 0: magic number 0x01 + * Byte 1: magic number 0x03 + * Byte 2: normal = 0x10 (not checked, 0 is OK), separate I/D = 0x20 + * Byte 3: CPU type, Intel 16 bit = 0x04, Intel 32 bit = 0x10, + * Motorola = 0x0B, Sun SPARC = 0x17 + * Byte 4: Header length = 0x20 + * Bytes 5-7 are not used. + * + * Now come the 6 longs + * Bytes 8-11: size of text segments in bytes + * Bytes 12-15: size of initialized data segment in bytes + * Bytes 16-19: size of bss in bytes + * Bytes 20-23: program entry point + * Bytes 24-27: total memory allocated to program (text, data + stack) + * Bytes 28-31: size of symbol table in bytes + * The longs are represented in a machine dependent order, + * little-endian on the 8088, big-endian on the 68000. + * The header is followed directly by the text and data segments, and the + * symbol table (if any). The sizes are given in the header. Only the + * text and data segments are copied into memory by exec. The header is + * used here only. The symbol table is for the benefit of a debugger and + * is ignored here. + */ + int r; + + pos= 0; /* Read from the start of the file */ + + if (exec_len < sizeof(hdr)) return(ENOEXEC); + + memcpy(&hdr, exec, sizeof(hdr)); + + /* Check magic number, cpu type, and flags. */ + if (BADMAG(hdr)) return(ENOEXEC); +#if (CHIP == INTEL && _WORD_SIZE == 2) + if (hdr.a_cpu != A_I8086) return(ENOEXEC); +#endif +#if (CHIP == INTEL && _WORD_SIZE == 4) + if (hdr.a_cpu != A_I80386) return(ENOEXEC); +#endif + if ((hdr.a_flags & ~(A_NSYM | A_EXEC | A_SEP)) != 0) return(ENOEXEC); + + *sep_id = !!(hdr.a_flags & A_SEP); /* separate I & D or not */ + + /* Get text and data sizes. */ + *text_bytes = (vir_bytes) hdr.a_text; /* text size in bytes */ + *data_bytes = (vir_bytes) hdr.a_data; /* data size in bytes */ + *bss_bytes = (vir_bytes) hdr.a_bss; /* bss size in bytes */ + *tot_bytes = hdr.a_total; /* total bytes to allocate for prog */ + if (*tot_bytes == 0) return(ENOEXEC); + + if (!*sep_id) { + /* If I & D space is not separated, it is all considered data. Text=0*/ + *data_bytes += *text_bytes; + *text_bytes = 0; + } + *pc = hdr.a_entry; /* initial address to start execution */ + *hdrlenp = hdr.a_hdrlen & BYTE; /* header length */ + + return(OK); +} + +/*===========================================================================* + * patch_ptr * + *===========================================================================*/ +PRIVATE void patch_ptr(stack, base) +char stack[ARG_MAX]; /* pointer to stack image within PM */ +vir_bytes base; /* virtual address of stack base inside user */ +{ +/* When doing an exec(name, argv, envp) call, the user builds up a stack + * image with arg and env pointers relative to the start of the stack. Now + * these pointers must be relocated, since the stack is not positioned at + * address 0 in the user's address space. + */ + + char **ap, flag; + vir_bytes v; + + flag = 0; /* counts number of 0-pointers seen */ + ap = (char **) stack; /* points initially to 'nargs' */ + ap++; /* now points to argv[0] */ + while (flag < 2) { + if (ap >= (char **) &stack[ARG_MAX]) return; /* too bad */ + if (*ap != NULL) { + v = (vir_bytes) *ap; /* v is relative pointer */ + v += base; /* relocate it */ + *ap = (char *) v; /* put it back */ + } else { + flag++; + } + ap++; + } +} + +/*===========================================================================* + * read_seg * + *===========================================================================*/ +PRIVATE int read_seg(exec, exec_len, off, proc_e, seg, seg_bytes) +char *exec; /* executable image */ +size_t exec_len; /* size of the image */ +off_t off; /* offset in file */ +int proc_e; /* process number (endpoint) */ +int seg; /* T, D, or S */ +phys_bytes seg_bytes; /* how much is to be transferred? */ +{ +/* + * The byte count on read is usually smaller than the segment count, because + * a segment is padded out to a click multiple, and the data segment is only + * partially initialized. + */ + + int r; + off_t n, o, b_off, seg_off; + + if (off+seg_bytes > exec_len) return ENOEXEC; + r= sys_vircopy(SELF, D, (vir_bytes)exec+off, proc_e, seg, 0, seg_bytes); + return r; +} + diff --git a/servers/rs/main.c b/servers/rs/main.c index 4ca580dfa..19a3541fc 100644 --- a/servers/rs/main.c +++ b/servers/rs/main.c @@ -81,7 +81,8 @@ PUBLIC int main(void) */ else { switch(call_nr) { - case RS_UP: result = do_up(&m); break; + case RS_UP: result = do_up(&m, FALSE /*!do_copy*/); break; + case RS_UP_COPY: result = do_up(&m, TRUE /*do_copy*/); break; case RS_DOWN: result = do_down(&m); break; case RS_REFRESH: result = do_refresh(&m); break; case RS_RESCUE: result = do_rescue(&m); break; @@ -127,6 +128,7 @@ PRIVATE void init_server(void) if ((s = getsysinfo(FS_PROC_NR, SI_DMAP_TAB, dmap)) < 0) panic("RS","warning: couldn't get copy of dmap table", errno); +#if 0 /* Now initialize the table with the processes in the system image. * Prepend /sbin/ to the binaries so that we can actually find them. */ @@ -147,6 +149,7 @@ PRIVATE void init_server(void) rproc[s].r_argv[1] = NULL; } } +#endif /* Set alarm to periodically check driver status. */ if (OK != (s=sys_setalarm(RS_DELTA_T, 0))) diff --git a/servers/rs/manager.c b/servers/rs/manager.c index fd9667ef5..f831e5a71 100644 --- a/servers/rs/manager.c +++ b/servers/rs/manager.c @@ -4,11 +4,14 @@ */ #include "inc.h" +#include #include #include +#include #include #include #include +#include /* Allocate variables. */ struct rproc rproc[NR_SYS_PROCS]; /* system process table */ @@ -19,6 +22,8 @@ extern int errno; /* error status */ /* Prototypes for internal functions that do the hard work. */ FORWARD _PROTOTYPE( int start_service, (struct rproc *rp) ); FORWARD _PROTOTYPE( int stop_service, (struct rproc *rp,int how) ); +FORWARD _PROTOTYPE( int fork_nb, (void) ); +FORWARD _PROTOTYPE( int read_exec, (struct rproc *rp) ); PRIVATE int shutting_down = FALSE; @@ -27,8 +32,9 @@ PRIVATE int shutting_down = FALSE; /*===========================================================================* * do_up * *===========================================================================*/ -PUBLIC int do_up(m_ptr) +PUBLIC int do_up(m_ptr, do_copy) message *m_ptr; /* request message pointer */ +int do_copy; /* keep copy in memory */ { /* A request was made to start a new system service. Dismember the request * message and gather all information needed to start the service. Starting @@ -78,6 +84,14 @@ message *m_ptr; /* request message pointer */ rp->r_argv[arg_count] = NULL; /* end with NULL pointer */ rp->r_argc = arg_count; + rp->r_exec= NULL; + if (do_copy) + { + s= read_exec(rp); + if (s != OK) + return s; + } + /* Initialize some fields. */ rp->r_period = m_ptr->RS_PERIOD; rp->r_dev_nr = m_ptr->RS_DEV_MAJOR; @@ -192,7 +206,7 @@ PUBLIC void do_exit(message *m_ptr) while ( (exit_pid = waitpid(-1, &exit_status, WNOHANG)) != 0 ) { #if VERBOSE - printf("RS: proc %d, pid %d, ", rp->r_proc_nr_e, exit_pid); + printf("RS: pid %d, ", exit_pid); if (WIFSIGNALED(exit_status)) { printf("killed, signal number %d\n", WTERMSIG(exit_status)); } @@ -213,6 +227,11 @@ PUBLIC void do_exit(message *m_ptr) if ((rp->r_flags & RS_EXITING) || shutting_down) { rp->r_flags = 0; /* release slot */ + if (rp->r_exec) + { + free(rp->r_exec); + rp->r_exec= NULL; + } rproc_ptr[proc] = NULL; } else if(rp->r_flags & RS_REFRESHING) { @@ -231,6 +250,9 @@ PUBLIC void do_exit(message *m_ptr) * exit, immediately restart this service. Otherwise use * a binary exponetial backoff. */ +#if 0 +rp->r_restarts= 0; +#endif if (rp->r_restarts > 0) { rp->r_backoff = 1 << MIN(rp->r_restarts,(BACKOFF_BITS-1)); rp->r_backoff = MIN(rp->r_backoff,MAX_BACKOFF); @@ -331,11 +353,17 @@ struct rproc *rp; int child_proc_nr_e, child_proc_nr_n; /* child process slot */ pid_t child_pid; /* child's process id */ char *file_only; - int s; + int s, use_copy; message m; + use_copy= (rp->r_exec != NULL); + /* Now fork and branch for parent and child process (and check for error). */ - child_pid = fork(); + if (use_copy) + child_pid= fork_nb(); + else + child_pid = fork(); + switch(child_pid) { /* see fork(2) */ case -1: /* fork failed */ report("RS", "warning, fork() failed", errno); /* shouldn't happen */ @@ -346,9 +374,12 @@ struct rproc *rp; * e.g., because the root file system cannot be read, try to strip of * the path, and see if the command is in RS' current working dir. */ - execve(rp->r_argv[0], rp->r_argv, NULL); /* POSIX execute */ - file_only = strrchr(rp->r_argv[0], '/') + 1; - execve(file_only, rp->r_argv, NULL); /* POSIX execute */ + if (!use_copy) + { + execve(rp->r_argv[0], rp->r_argv, NULL); /* POSIX execute */ + file_only = strrchr(rp->r_argv[0], '/') + 1; + execve(file_only, rp->r_argv, NULL); /* POSIX execute */ + } printf("RS: exec failed for %s: %d\n", rp->r_argv[0], errno); exit(EXEC_FAILED); /* terminate child */ @@ -357,32 +388,35 @@ struct rproc *rp; break; /* continue below */ } - /* Only the parent process (the RS server) gets to this point. The child - * is still inhibited from running because it's privilege structure is - * not yet set. First try to set the device driver mapping at the FS. - */ - if (rp->r_dev_nr > 0) { /* set driver map */ - if ((s=mapdriver(child_proc_nr_e, rp->r_dev_nr, rp->r_dev_style)) < 0) { - report("RS", "couldn't map driver", errno); - rp->r_flags |= RS_EXITING; /* expect exit */ - if(child_pid > 0) kill(child_pid, SIGKILL); /* kill driver */ - else report("RS", "didn't kill pid", child_pid); - return(s); /* return error */ - } + if (use_copy) + { + extern char **environ; + dev_execve(child_proc_nr_e, rp->r_exec, rp->r_exec_len, rp->r_argv, + environ); } - /* The device driver mapping has been set, or the service was not a driver. - * Now, set the privilege structure for the child process to let is run. + /* Set the privilege structure for the child process to let is run. * This should succeed: we tested number in use above. */ if ((s = sys_privctl(child_proc_nr_e, SYS_PRIV_INIT, 0, NULL)) < 0) { - report("RS","call to SYSTEM failed", s); /* to let child run */ + report("RS","sys_privctl call failed", s); /* to let child run */ rp->r_flags |= RS_EXITING; /* expect exit */ if(child_pid > 0) kill(child_pid, SIGKILL); /* kill driver */ else report("RS", "didn't kill pid", child_pid); return(s); /* return error */ } + if (rp->r_dev_nr > 0) { /* set driver map */ + if ((s=mapdriver(child_proc_nr_e, rp->r_dev_nr, rp->r_dev_style, + !!use_copy /* force */)) < 0) { + report("RS", "couldn't map driver", errno); + rp->r_flags |= RS_EXITING; /* expect exit */ + if(child_pid > 0) kill(child_pid, SIGKILL); /* kill driver */ + else report("RS", "didn't kill pid", child_pid); + return(s); /* return error */ + } + } + #if VERBOSE printf("RS: started '%s', major %d, pid %d, endpoint %d, proc %d\n", rp->r_cmd, rp->r_dev_nr, child_pid, @@ -456,3 +490,52 @@ message *m_ptr; return(OK); } +PRIVATE pid_t fork_nb() +{ + message m; + + return(_syscall(PM_PROC_NR, FORK_NB, &m)); +} + +PRIVATE int read_exec(rp) +struct rproc *rp; +{ + int e, r, fd; + char *e_name; + struct stat sb; + + e_name= rp->r_argv[0]; + r= stat(e_name, &sb); + if (r != 0) + return -errno; + + fd= open(e_name, O_RDONLY); + if (fd == -1) + return -errno; + + rp->r_exec_len= sb.st_size; + rp->r_exec= malloc(rp->r_exec_len); + if (rp->r_exec == NULL) + { + printf("read_exec: unable to allocate %d bytes\n", + rp->r_exec_len); + close(fd); + return ENOMEM; + } + + r= read(fd, rp->r_exec, rp->r_exec_len); + e= errno; + close(fd); + if (r == rp->r_exec_len) + return OK; + + printf("read_exec: read failed %d, errno %d\n", r, e); + + free(rp->r_exec); + rp->r_exec= NULL; + + if (r >= 0) + return EIO; + else + return -e; +} diff --git a/servers/rs/manager.h b/servers/rs/manager.h index 520db4222..953d31685 100644 --- a/servers/rs/manager.h +++ b/servers/rs/manager.h @@ -26,6 +26,9 @@ extern struct rproc { clock_t r_alive_tm; /* timestamp of last heartbeat */ clock_t r_stop_tm; /* timestamp of SIGTERM signal */ + char *r_exec; /* Executable image */ + size_t r_exec_len; /* Length of image */ + char r_cmd[MAX_COMMAND_LEN]; /* raw command plus arguments */ char *r_argv[MAX_NR_ARGS+2]; /* parsed arguments vector */ int r_argc; /* number of arguments */ diff --git a/servers/rs/proto.h b/servers/rs/proto.h index c2304642a..0b49739d3 100644 --- a/servers/rs/proto.h +++ b/servers/rs/proto.h @@ -1,10 +1,14 @@ /* Function prototypes. */ +/* exec.c */ +_PROTOTYPE( int dev_execve, (int proc_e, + char *exec, size_t exec_len, char *argv[], char **env)); + /* main.c */ _PROTOTYPE( int main, (void)); /* manager.c */ -_PROTOTYPE( int do_up, (message *m)); +_PROTOTYPE( int do_up, (message *m, int do_copy)); _PROTOTYPE( int do_down, (message *m)); _PROTOTYPE( int do_refresh, (message *m)); _PROTOTYPE( int do_rescue, (message *m));