kernel: facility for user-visible memory

. map all objects named usermapped_*.o with globally visible
	  pages; usermapped_glo_*.o with the VM 'global' bit on, i.e.
	  permanently in tlb (very scarce resource!)
	. added kinfo, machine, kmessages and loadinfo for a start
	. modified log, tty to make use of the shared messages struct
This commit is contained in:
Ben Gras 2012-07-18 18:53:20 +02:00
parent 53a947167c
commit b6ea15115c
25 changed files with 209 additions and 64 deletions

View file

@ -9,23 +9,24 @@
#include "log.h" #include "log.h"
#include <assert.h>
extern struct minix_kerninfo *_minix_kerninfo;
/*==========================================================================* /*==========================================================================*
* do_new_kmess * * do_new_kmess *
*==========================================================================*/ *==========================================================================*/
void do_new_kmess(void) void do_new_kmess(void)
{ {
/* Notification for a new kernel message. */ /* Notification for a new kernel message. */
static struct kmessages kmess; /* entire kmess structure */ static struct kmessages *kmess; /* entire kmess structure */
static char print_buf[_KMESS_BUF_SIZE]; /* copy new message here */ static char print_buf[_KMESS_BUF_SIZE]; /* copy new message here */
int bytes; int bytes;
int i, r; int i, r;
static int prev_next = 0; static int prev_next = 0;
/* Try to get a fresh copy of the buffer with kernel messages. */ assert(_minix_kerninfo);
if ((r=sys_getkmessages(&kmess)) != OK) { kmess = _minix_kerninfo->kmessages;
printf("log: couldn't get copy of kmessages: %d\n", r);
return;
}
/* Print only the new part. Determine how many new bytes there are with /* Print only the new part. Determine how many new bytes there are with
* help of the current and previous 'next' index. Note that the kernel * help of the current and previous 'next' index. Note that the kernel
@ -33,13 +34,13 @@ void do_new_kmess(void)
* are new data; else we miss % KMESS_BUF_SIZE here. * are new data; else we miss % KMESS_BUF_SIZE here.
* Check for size being positive, the buffer might as well be emptied! * Check for size being positive, the buffer might as well be emptied!
*/ */
if (kmess.km_size > 0) { if (kmess->km_size > 0) {
bytes = ((kmess.km_next + _KMESS_BUF_SIZE) - prev_next) % bytes = ((kmess->km_next + _KMESS_BUF_SIZE) - prev_next) %
_KMESS_BUF_SIZE; _KMESS_BUF_SIZE;
r= prev_next; /* start at previous old */ r= prev_next; /* start at previous old */
i=0; i=0;
while (bytes > 0) { while (bytes > 0) {
print_buf[i] = kmess.km_buf[(r%_KMESS_BUF_SIZE)]; print_buf[i] = kmess->km_buf[(r%_KMESS_BUF_SIZE)];
bytes --; bytes --;
r ++; r ++;
i ++; i ++;
@ -52,5 +53,5 @@ void do_new_kmess(void)
/* Almost done, store 'next' so that we can determine what part of the /* Almost done, store 'next' so that we can determine what part of the
* kernel messages buffer to print next time a notification arrives. * kernel messages buffer to print next time a notification arrives.
*/ */
prev_next = kmess.km_next; prev_next = kmess->km_next;
} }

View file

@ -18,6 +18,7 @@
#include <minix/drivers.h> #include <minix/drivers.h>
#include <termios.h> #include <termios.h>
#include <assert.h>
#include <sys/ioctl.h> #include <sys/ioctl.h>
#include <sys/vm.h> #include <sys/vm.h>
#include <sys/video.h> #include <sys/video.h>
@ -1007,29 +1008,21 @@ tty_t *tp;
cons_ioctl(tp, 0); cons_ioctl(tp, 0);
} }
extern struct minix_kerninfo *_minix_kerninfo;
/*===========================================================================* /*===========================================================================*
* do_new_kmess * * do_new_kmess *
*===========================================================================*/ *===========================================================================*/
void do_new_kmess() void do_new_kmess()
{ {
/* Notification for a new kernel message. */ /* Notification for a new kernel message. */
static struct kmessages kmess; /* kmessages structure */ struct kmessages *kmess_ptr; /* kmessages structure */
static int prev_next = 0; /* previous next seen */ static int prev_next = 0; /* previous next seen */
int bytes; int bytes;
int r; int r;
/* Try to get a fresh copy of the buffer with kernel messages. */ assert(_minix_kerninfo);
#if DEAD_CODE kmess_ptr = _minix_kerninfo->kmessages;
/* During shutdown, the reply is garbled because new notifications arrive
* while the system task makes a copy of the kernel messages buffer.
* Hence, don't check the return value.
*/
if ((r=sys_getkmessages(&kmess)) != OK) {
printf("TTY: couldn't get copy of kmessages: %d, 0x%x\n", r,r);
return;
}
#endif
sys_getkmessages(&kmess);
/* Print only the new part. Determine how many new bytes there are with /* Print only the new part. Determine how many new bytes there are with
* help of the current and previous 'next' index. Note that the kernel * help of the current and previous 'next' index. Note that the kernel
@ -1037,11 +1030,11 @@ void do_new_kmess()
* is new data; else we miss % _KMESS_BUF_SIZE here. * is new data; else we miss % _KMESS_BUF_SIZE here.
* Check for size being positive, the buffer might as well be emptied! * Check for size being positive, the buffer might as well be emptied!
*/ */
if (kmess.km_size > 0) { if (kmess_ptr->km_size > 0) {
bytes = ((kmess.km_next + _KMESS_BUF_SIZE) - prev_next) % _KMESS_BUF_SIZE; bytes = ((kmess_ptr->km_next + _KMESS_BUF_SIZE) - prev_next) % _KMESS_BUF_SIZE;
r=prev_next; /* start at previous old */ r=prev_next; /* start at previous old */
while (bytes > 0) { while (bytes > 0) {
cons_putk( kmess.km_buf[(r%_KMESS_BUF_SIZE)] ); cons_putk( kmess_ptr->km_buf[(r%_KMESS_BUF_SIZE)] );
bytes --; bytes --;
r ++; r ++;
} }
@ -1051,7 +1044,7 @@ void do_new_kmess()
/* Almost done, store 'next' so that we can determine what part of the /* Almost done, store 'next' so that we can determine what part of the
* kernel messages buffer to print next time a notification arrives. * kernel messages buffer to print next time a notification arrives.
*/ */
prev_next = kmess.km_next; prev_next = kmess_ptr->km_next;
} }
/*===========================================================================* /*===========================================================================*

View file

@ -459,7 +459,6 @@
# define GET_MONPARAMS 4 /* get monitor parameters */ # define GET_MONPARAMS 4 /* get monitor parameters */
# define GET_KENV 5 /* get kernel environment string */ # define GET_KENV 5 /* get kernel environment string */
# define GET_IRQHOOKS 6 /* get the IRQ table */ # define GET_IRQHOOKS 6 /* get the IRQ table */
# define GET_KMESSAGES 7 /* get kernel messages */
# define GET_PRIVTAB 8 /* get kernel privileges table */ # define GET_PRIVTAB 8 /* get kernel privileges table */
# define GET_KADDRESSES 9 /* get various kernel addresses */ # define GET_KADDRESSES 9 /* get various kernel addresses */
# define GET_SCHEDINFO 10 /* get scheduling queues */ # define GET_SCHEDINFO 10 /* get scheduling queues */
@ -611,6 +610,9 @@
#define SVMCTL_MAP_PHYS_LEN m2_l2 #define SVMCTL_MAP_PHYS_LEN m2_l2
#define VMMF_UNCACHED (1L << 0) #define VMMF_UNCACHED (1L << 0)
#define VMMF_USER (1L << 1)
#define VMMF_WRITE (1L << 2)
#define VMMF_GLO (1L << 3)
/* Values for SVMCTL_PARAM. */ /* Values for SVMCTL_PARAM. */
#define VMCTL_CLEAR_PAGEFAULT 12 #define VMCTL_CLEAR_PAGEFAULT 12

View file

@ -168,6 +168,7 @@ int receive(endpoint_t src, message *m_ptr, int *status_ptr);
int send(endpoint_t dest, message *m_ptr); int send(endpoint_t dest, message *m_ptr);
int sendnb(endpoint_t dest, message *m_ptr); int sendnb(endpoint_t dest, message *m_ptr);
int senda(asynmsg_t *table, size_t count); int senda(asynmsg_t *table, size_t count);
int _minix_kernel_info_struct(struct minix_kerninfo **);
int _do_kernel_call(message *m_ptr); int _do_kernel_call(message *m_ptr);

View file

@ -7,6 +7,7 @@
#define SENDREC 3 /* SEND + RECEIVE */ #define SENDREC 3 /* SEND + RECEIVE */
#define NOTIFY 4 /* asynchronous notify */ #define NOTIFY 4 /* asynchronous notify */
#define SENDNB 5 /* nonblocking send */ #define SENDNB 5 /* nonblocking send */
#define MINIX_KERNINFO 6 /* request kernel info structure */
#define SENDA 16 /* asynchronous send */ #define SENDA 16 /* asynchronous send */
#define IPCNO_HIGHEST SENDA #define IPCNO_HIGHEST SENDA

View file

@ -27,7 +27,7 @@ typedef struct kinfo {
char param_buf[MULTIBOOT_PARAM_BUF_SIZE]; char param_buf[MULTIBOOT_PARAM_BUF_SIZE];
/* Minix stuff */ /* Minix stuff */
struct kmessages *kmess; struct kmessages *kmessages;
int do_serial_debug; /* system serial output */ int do_serial_debug; /* system serial output */
int serial_debug_baud; /* serial baud rate */ int serial_debug_baud; /* serial baud rate */
int minix_panicing; /* are we panicing? */ int minix_panicing; /* are we panicing? */

View file

@ -168,7 +168,6 @@ int sys_umap_remote(endpoint_t proc_ep, endpoint_t grantee, int seg,
vir_bytes vir_addr, vir_bytes bytes, phys_bytes *phys_addr); vir_bytes vir_addr, vir_bytes bytes, phys_bytes *phys_addr);
/* Shorthands for sys_getinfo() system call. */ /* Shorthands for sys_getinfo() system call. */
#define sys_getkmessages(dst) sys_getinfo(GET_KMESSAGES, dst, 0,0,0)
#define sys_getkinfo(dst) sys_getinfo(GET_KINFO, dst, 0,0,0) #define sys_getkinfo(dst) sys_getinfo(GET_KINFO, dst, 0,0,0)
#define sys_getloadinfo(dst) sys_getinfo(GET_LOADINFO, dst, 0,0,0) #define sys_getloadinfo(dst) sys_getinfo(GET_LOADINFO, dst, 0,0,0)
#define sys_getmachine(dst) sys_getinfo(GET_MACHINE, dst, 0,0,0) #define sys_getmachine(dst) sys_getinfo(GET_MACHINE, dst, 0,0,0)

View file

@ -170,5 +170,23 @@ struct k_randomness {
} bin[RANDOM_SOURCES]; } bin[RANDOM_SOURCES];
}; };
struct minix_kerninfo {
/* Binaries will depend on the offsets etc. in this
* structure, so it can't be changed willy-nilly. In
* other words, it is ABI-restricted.
*/
#define KERNINFO_MAGIC 0xfc3b84bf
u32_t kerninfo_magic;
u32_t minix_feature_flags;
u32_t flags_unused1;
u32_t flags_unused2;
u32_t flags_unused3;
u32_t flags_unused4;
struct kinfo *kinfo;
struct machine *machine;
struct kmessages *kmessages;
struct loadinfo *loadinfo;
} __packed;
#endif /* _TYPE_H */ #endif /* _TYPE_H */

View file

@ -6,7 +6,7 @@ PROG= kernel
.include "arch/${MACHINE_ARCH}/Makefile.inc" .include "arch/${MACHINE_ARCH}/Makefile.inc"
SRCS+= clock.c cpulocals.c interrupt.c main.c proc.c system.c \ SRCS+= clock.c cpulocals.c interrupt.c main.c proc.c system.c \
table.c utility.c table.c utility.c usermapped_data.c
LINKERSCRIPT=${.CURDIR}/arch/${MACHINE_ARCH}/kernel.lds LINKERSCRIPT=${.CURDIR}/arch/${MACHINE_ARCH}/kernel.lds

View file

@ -182,6 +182,11 @@ void arch_proc_reset(struct proc *pr)
pr->p_reg.ds = USER_DS_SELECTOR; pr->p_reg.ds = USER_DS_SELECTOR;
} }
void arch_set_secondary_ipc_return(struct proc *p, u32_t val)
{
p->p_reg.bx = val;
}
int restore_fpu(struct proc *pr) int restore_fpu(struct proc *pr)
{ {
int failed; int failed;

View file

@ -21,8 +21,14 @@ SECTIONS
. += _kern_offset; . += _kern_offset;
. = ALIGN(4096); usermapped_start = .;
.usermapped_glo : AT(ADDR(.usermapped_glo) - _kern_offset) { usermapped_glo*.o }
. = ALIGN(4096); usermapped_nonglo_start = .;
.usermapped : AT(ADDR(.usermapped) - _kern_offset) { usermapped_*.o }
. = ALIGN(4096); usermapped_end = .;
.text : AT(ADDR(.text) - _kern_offset) { *(.text*) } .text : AT(ADDR(.text) - _kern_offset) { *(.text*) }
.data ALIGN(4096) : AT(ADDR(.data) - _kern_offset) { *(.data .rodata* ) } .data ALIGN(4096) : AT(ADDR(.data) - _kern_offset) { *(.data .rodata* ) }
. = ALIGN(4096);
.bss ALIGN(4096) : AT(ADDR(.bss) - _kern_offset) { *(.bss* COMMON) .bss ALIGN(4096) : AT(ADDR(.bss) - _kern_offset) { *(.bss* COMMON)
__k_unpaged__kern_size = . - _kern_vir_base; __k_unpaged__kern_size = . - _kern_vir_base;
_kern_size = __k_unpaged__kern_size; _kern_size = __k_unpaged__kern_size;

View file

@ -757,10 +757,14 @@ static int oxpcie_mapping_index = -1,
lapic_mapping_index = -1, lapic_mapping_index = -1,
ioapic_first_index = -1, ioapic_first_index = -1,
ioapic_last_index = -1, ioapic_last_index = -1,
video_mem_mapping_index = -1; video_mem_mapping_index = -1,
usermapped_glo_index = -1,
usermapped_index = -1, first_um_idx = -1;
extern char *video_mem; extern char *video_mem;
extern char usermapped_start, usermapped_end, usermapped_nonglo_start;
int arch_phys_map(const int index, int arch_phys_map(const int index,
phys_bytes *addr, phys_bytes *addr,
phys_bytes *len, phys_bytes *len,
@ -769,9 +773,19 @@ int arch_phys_map(const int index,
static int first = 1; static int first = 1;
int freeidx = 0; int freeidx = 0;
static char *ser_var = NULL; static char *ser_var = NULL;
u32_t glo_len = (u32_t) &usermapped_nonglo_start -
(u32_t) &usermapped_start;
if(first) { if(first) {
video_mem_mapping_index = freeidx++; video_mem_mapping_index = freeidx++;
if(glo_len > 0) {
usermapped_glo_index = freeidx++;
}
usermapped_index = freeidx++;
first_um_idx = usermapped_index;
if(usermapped_glo_index != -1)
first_um_idx = usermapped_glo_index;
#ifdef USE_APIC #ifdef USE_APIC
if(lapic_addr) if(lapic_addr)
@ -798,21 +812,34 @@ int arch_phys_map(const int index,
first = 0; first = 0;
} }
#ifdef USE_APIC if(index == usermapped_glo_index) {
if (index == video_mem_mapping_index) { *addr = vir2phys(&usermapped_start);
*len = glo_len;
*flags = VMMF_USER | VMMF_GLO;
return OK;
}
else if(index == usermapped_index) {
*addr = vir2phys(&usermapped_nonglo_start);
*len = (u32_t) &usermapped_end -
(u32_t) &usermapped_nonglo_start;
*flags = VMMF_USER;
return OK;
}
else if (index == video_mem_mapping_index) {
/* map video memory in so we can print panic messages */ /* map video memory in so we can print panic messages */
*addr = MULTIBOOT_VIDEO_BUFFER; *addr = MULTIBOOT_VIDEO_BUFFER;
*len = I386_PAGE_SIZE; *len = I386_PAGE_SIZE;
*flags = 0; *flags = VMMF_WRITE;
return OK; return OK;
} }
#ifdef USE_APIC
else if (index == lapic_mapping_index) { else if (index == lapic_mapping_index) {
/* map the local APIC if enabled */ /* map the local APIC if enabled */
if (!lapic_addr) if (!lapic_addr)
return EINVAL; return EINVAL;
*addr = lapic_addr; *addr = lapic_addr;
*len = 4 << 10 /* 4kB */; *len = 4 << 10 /* 4kB */;
*flags = VMMF_UNCACHED; *flags = VMMF_UNCACHED | VMMF_WRITE;
return OK; return OK;
} }
else if (ioapic_enabled && index >= ioapic_first_index && index <= ioapic_last_index) { else if (ioapic_enabled && index >= ioapic_first_index && index <= ioapic_last_index) {
@ -820,7 +847,7 @@ int arch_phys_map(const int index,
*addr = io_apic[ioapic_idx].paddr; *addr = io_apic[ioapic_idx].paddr;
assert(*addr); assert(*addr);
*len = 4 << 10 /* 4kB */; *len = 4 << 10 /* 4kB */;
*flags = VMMF_UNCACHED; *flags = VMMF_UNCACHED | VMMF_WRITE;
printf("ioapic map: addr 0x%lx\n", *addr); printf("ioapic map: addr 0x%lx\n", *addr);
return OK; return OK;
} }
@ -830,7 +857,7 @@ int arch_phys_map(const int index,
if(index == oxpcie_mapping_index) { if(index == oxpcie_mapping_index) {
*addr = strtoul(ser_var+2, NULL, 16); *addr = strtoul(ser_var+2, NULL, 16);
*len = 0x4000; *len = 0x4000;
*flags = VMMF_UNCACHED; *flags = VMMF_UNCACHED | VMMF_WRITE;
return OK; return OK;
} }
#endif #endif
@ -860,6 +887,31 @@ int arch_phys_map_reply(const int index, const vir_bytes addr)
return OK; return OK;
} }
#endif #endif
if(index == first_um_idx) {
u32_t usermapped_offset;
assert(addr > (u32_t) &usermapped_start);
usermapped_offset = addr - (u32_t) &usermapped_start;
memset(&minix_kerninfo, 0, sizeof(minix_kerninfo));
#define FIXEDPTR(ptr) (void *) ((u32_t)ptr + usermapped_offset)
#define FIXPTR(ptr) ptr = FIXEDPTR(ptr)
#define ASSIGN(minixstruct) minix_kerninfo.minixstruct = FIXEDPTR(&minixstruct)
ASSIGN(kinfo);
ASSIGN(machine);
ASSIGN(kmessages);
ASSIGN(loadinfo);
/* adjust the pointers of the functions and the struct
* itself to the user-accessible mapping
*/
minix_kerninfo.kerninfo_magic = KERNINFO_MAGIC;
minix_kerninfo.minix_feature_flags = minix_feature_flags;
minix_kerninfo_user = (vir_bytes) FIXEDPTR(&minix_kerninfo);
return OK;
}
if(index == usermapped_index) return OK;
if (index == video_mem_mapping_index) { if (index == video_mem_mapping_index) {
video_mem_vaddr = addr; video_mem_vaddr = addr;
return OK; return OK;

View file

@ -26,7 +26,7 @@
/* to-be-built kinfo struct, diagnostics buffer */ /* to-be-built kinfo struct, diagnostics buffer */
kinfo_t kinfo; kinfo_t kinfo;
struct kmessages kmess; struct kmessages kmessages;
/* pg_utils.c uses this; in this phase, there is a 1:1 mapping. */ /* pg_utils.c uses this; in this phase, there is a 1:1 mapping. */
phys_bytes vir2phys(void *addr) { return (phys_bytes) addr; } phys_bytes vir2phys(void *addr) { return (phys_bytes) addr; }

View file

@ -19,11 +19,18 @@
#include "debug.h" #include "debug.h"
/* Kernel information structures. This groups vital kernel information. */ /* Kernel information structures. This groups vital kernel information. */
EXTERN struct kinfo kinfo; /* kernel information for users */ extern struct kinfo kinfo; /* kernel information for users */
EXTERN struct machine machine; /* machine information for users */ extern struct machine machine; /* machine information for users */
EXTERN struct kmessages kmess; /* diagnostic messages in kernel */ extern struct kmessages kmessages; /* diagnostic messages in kernel */
extern struct loadinfo loadinfo; /* status of load average */
extern struct minix_kerninfo minix_kerninfo;
EXTERN struct k_randomness krandom; /* gather kernel random information */ EXTERN struct k_randomness krandom; /* gather kernel random information */
EXTERN struct loadinfo kloadinfo; /* status of load average */
vir_bytes minix_kerninfo_user;
#define kmess kmessages
#define kloadinfo loadinfo
/* Process scheduling information and the kernel reentry count. */ /* Process scheduling information and the kernel reentry count. */
EXTERN struct proc *vmrequest; /* first process on vmrequest queue */ EXTERN struct proc *vmrequest; /* first process on vmrequest queue */

View file

@ -608,6 +608,16 @@ int do_ipc(reg_t r1, reg_t r2, reg_t r3)
return EDOM; return EDOM;
return mini_senda(caller_ptr, (asynmsg_t *) r3, msg_size); return mini_senda(caller_ptr, (asynmsg_t *) r3, msg_size);
} }
case MINIX_KERNINFO:
{
/* It might not be initialized yet. */
if(!minix_kerninfo_user) {
return EBADCALL;
}
arch_set_secondary_ipc_return(caller_ptr, minix_kerninfo_user);
return OK;
}
default: default:
return EBADCALL; /* illegal system call */ return EBADCALL; /* illegal system call */
} }

View file

@ -150,6 +150,7 @@ void stop_profile_clock(void);
/* functions defined in architecture-dependent files. */ /* functions defined in architecture-dependent files. */
void prot_init(); void prot_init();
void arch_post_init(); void arch_post_init();
void arch_set_secondary_ipc_return(struct proc *, u32_t val);
phys_bytes phys_copy(phys_bytes source, phys_bytes dest, phys_bytes phys_bytes phys_copy(phys_bytes source, phys_bytes dest, phys_bytes
count); count);
void phys_copy_fault(void); void phys_copy_fault(void);

View file

@ -167,11 +167,6 @@ int do_getinfo(struct proc * caller, message * m_ptr)
break; break;
} }
case GET_KMESSAGES: {
length = sizeof(struct kmessages);
src_vir = (vir_bytes) &kmess;
break;
}
case GET_IRQACTIDS: { case GET_IRQACTIDS: {
length = sizeof(irq_actids); length = sizeof(irq_actids);
src_vir = (vir_bytes) irq_actids; src_vir = (vir_bytes) irq_actids;

11
kernel/usermapped_data.c Normal file
View file

@ -0,0 +1,11 @@
#include "kernel.h"
/* This is the user-visible struct that has pointers to other bits of data. */
struct minix_kerninfo minix_kerninfo;
/* Kernel information structures. */
struct kinfo kinfo; /* kernel information for users */
struct machine machine; /* machine information for users */
struct kmessages kmessages; /* diagnostic messages in kernel */
struct loadinfo loadinfo; /* status of load average */

View file

@ -50,6 +50,20 @@ ENTRY(_sendrec)
pop %ebp pop %ebp
ret ret
ENTRY(_minix_kernel_info_struct)
push %ebp
movl %esp, %ebp
push %ebx
movl $0, %eax
movl $0, %ebx
movl $MINIX_KERNINFO, %ecx
int $IPCVEC /* trap to the kernel */
movl 8(%ebp), %ecx /* ecx = return struct ptr */
movl %ebx, (%ecx)
pop %ebx
pop %ebp
ret
ENTRY(_notify) ENTRY(_notify)
push %ebp push %ebp
movl %esp, %ebp movl %esp, %ebp

View file

@ -16,7 +16,7 @@ SRCS+= accept.c access.c bind.c brk.c sbrk.c m_closefrom.c getsid.c \
vectorio.c shutdown.c sigaction.c sigpending.c sigreturn.c sigsuspend.c\ vectorio.c shutdown.c sigaction.c sigpending.c sigreturn.c sigsuspend.c\
sigprocmask.c socket.c socketpair.c stat.c statvfs.c symlink.c \ sigprocmask.c socket.c socketpair.c stat.c statvfs.c symlink.c \
sync.c syscall.c sysuname.c truncate.c umask.c unlink.c write.c \ sync.c syscall.c sysuname.c truncate.c umask.c unlink.c write.c \
_exit.c _ucontext.c environ.c __getcwd.c vfork.c sizeup.c _exit.c _ucontext.c environ.c __getcwd.c vfork.c sizeup.c init.c
# Minix specific syscalls. # Minix specific syscalls.
SRCS+= cprofile.c lseek64.c sprofile.c _mcontext.c SRCS+= cprofile.c lseek64.c sprofile.c _mcontext.c

16
lib/libc/sys-minix/init.c Normal file
View file

@ -0,0 +1,16 @@
#include <stdio.h>
#include <minix/ipc.h>
struct minix_kerninfo *_minix_kerninfo = NULL;
void __minix_init(void) __attribute__((__constructor__, __used__));
void __minix_init(void)
{
if((_minix_kernel_info_struct(&_minix_kerninfo)) != 0
|| _minix_kerninfo->kerninfo_magic != KERNINFO_MAGIC) {
_minix_kerninfo = NULL;
}
}

View file

@ -131,7 +131,7 @@ CPPFLAGS.${i}+= -I${LIBCSRCDIR}/include -I${LIBCSRCDIR}/locale
link.c _mcontext.c mknod.c mmap.c nanosleep.c open.c \ link.c _mcontext.c mknod.c mmap.c nanosleep.c open.c \
read.c sbrk.c select.c setuid.c sigprocmask.c stat.c \ read.c sbrk.c select.c setuid.c sigprocmask.c stat.c \
stime.c syscall.c _ucontext.c umask.c unlink.c waitpid.c \ stime.c syscall.c _ucontext.c umask.c unlink.c waitpid.c \
brksize.S _ipc.S _senda.S ucontext.S mmap.c brksize.S _ipc.S _senda.S ucontext.S mmap.c init.c
.PATH.c: ${LIBCSRCDIR}/sys-minix .PATH.c: ${LIBCSRCDIR}/sys-minix
.PATH.S: ${LIBCSRCDIR}/arch/${MACHINE}/sys-minix .PATH.S: ${LIBCSRCDIR}/arch/${MACHINE}/sys-minix
SRCS+= ${i} SRCS+= ${i}

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@ -2,6 +2,7 @@
#include "inc.h" #include "inc.h"
#include <timers.h> #include <timers.h>
#include <assert.h>
#include <machine/interrupt.h> #include <machine/interrupt.h>
#include <minix/endpoint.h> #include <minix/endpoint.h>
#include <minix/sysutil.h> #include <minix/sysutil.h>
@ -54,32 +55,33 @@ struct proc proc[NR_TASKS + NR_PROCS];
struct priv priv[NR_SYS_PROCS]; struct priv priv[NR_SYS_PROCS];
struct boot_image image[NR_BOOT_PROCS]; struct boot_image image[NR_BOOT_PROCS];
extern struct minix_kerninfo *_minix_kerninfo;
/*===========================================================================* /*===========================================================================*
* kmessages_dmp * * kmessages_dmp *
*===========================================================================*/ *===========================================================================*/
void kmessages_dmp() void kmessages_dmp()
{ {
struct kmessages kmess; /* get copy of kernel messages */ struct kmessages *kmess; /* get copy of kernel messages */
char print_buf[_KMESS_BUF_SIZE+1]; /* this one is used to print */ char print_buf[_KMESS_BUF_SIZE+1]; /* this one is used to print */
int start; /* calculate start of messages */ int start; /* calculate start of messages */
int r; int r;
int size;
/* Try to get a copy of the kernel messages. */ assert(_minix_kerninfo);
if ((r = sys_getkmessages(&kmess)) != OK) { kmess = _minix_kerninfo->kmessages;
printf("IS: warning: couldn't get copy of kmessages: %d\n", r);
return;
}
/* Try to print the kernel messages. First determine start and copy the /* Try to print the kernel messages. First determine start and copy the
* buffer into a print-buffer. This is done because the messages in the * buffer into a print-buffer. This is done because the messages in the
* copy may wrap (the kernel buffer is circular). * copy may wrap (the kernel buffer is circular).
*/ */
start = ((kmess.km_next + _KMESS_BUF_SIZE) - kmess.km_size) % _KMESS_BUF_SIZE; start = ((kmess->km_next + _KMESS_BUF_SIZE) - kmess->km_size) % _KMESS_BUF_SIZE;
r = 0; r = 0;
while (kmess.km_size > 0) { size = kmess->km_size;
print_buf[r] = kmess.km_buf[(start+r) % _KMESS_BUF_SIZE]; while (size > 0) {
print_buf[r] = kmess->km_buf[(start+r) % _KMESS_BUF_SIZE];
r ++; r ++;
kmess.km_size --; size--;
} }
print_buf[r] = 0; /* make sure it terminates */ print_buf[r] = 0; /* make sure it terminates */
printf("Dump of all messages generated by the kernel.\n\n"); printf("Dump of all messages generated by the kernel.\n\n");

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@ -936,9 +936,15 @@ void pt_init(void)
kern_mappings[index].flags = flags; kern_mappings[index].flags = flags;
kern_mappings[index].vir_addr = offset; kern_mappings[index].vir_addr = offset;
kern_mappings[index].flags = kern_mappings[index].flags =
I386_VM_PRESENT | I386_VM_USER | I386_VM_WRITE; I386_VM_PRESENT;
if(flags & VMMF_UNCACHED) if(flags & VMMF_UNCACHED)
kern_mappings[index].flags |= PTF_NOCACHE; kern_mappings[index].flags |= PTF_NOCACHE;
if(flags & VMMF_USER)
kern_mappings[index].flags |= I386_VM_USER;
if(flags & VMMF_WRITE)
kern_mappings[index].flags |= I386_VM_WRITE;
if(flags & VMMF_GLO)
kern_mappings[index].flags |= I386_VM_GLOBAL;
if(addr % I386_PAGE_SIZE) if(addr % I386_PAGE_SIZE)
panic("VM: addr unaligned: %d", addr); panic("VM: addr unaligned: %d", addr);
if(len % I386_PAGE_SIZE) if(len % I386_PAGE_SIZE)

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@ -71,9 +71,14 @@ void do_pagefaults(message *m)
/* See if address is valid at all. */ /* See if address is valid at all. */
if(!(region = map_lookup(vmp, addr))) { if(!(region = map_lookup(vmp, addr))) {
if(PFERR_PROT(err)) {
printf("VM: pagefault: SIGSEGV %d protected addr 0x%x; %s\n",
ep, addr, pf_errstr(err));
} else {
assert(PFERR_NOPAGE(err)); assert(PFERR_NOPAGE(err));
printf("VM: pagefault: SIGSEGV %d bad addr 0x%x; %s\n", printf("VM: pagefault: SIGSEGV %d bad addr 0x%x; %s\n",
ep, addr, pf_errstr(err)); ep, addr, pf_errstr(err));
}
if((s=sys_kill(vmp->vm_endpoint, SIGSEGV)) != OK) if((s=sys_kill(vmp->vm_endpoint, SIGSEGV)) != OK)
panic("sys_kill failed: %d", s); panic("sys_kill failed: %d", s);
if((s=sys_vmctl(ep, VMCTL_CLEAR_PAGEFAULT, 0 /*unused*/)) != OK) if((s=sys_vmctl(ep, VMCTL_CLEAR_PAGEFAULT, 0 /*unused*/)) != OK)