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Syncing net branch with trunk.

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git-svn-id: svn://kolibrios.org@3187 a494cfbc-eb01-0410-851d-a64ba20cac60
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hidnplayr
2013-01-21 20:59:27 +00:00
parent 575dd00f15
commit fbf1d3eec3
35 changed files with 5307 additions and 4931 deletions
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193
kernel/branches/net/blkdev/disk.inc
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@@ -347,14 +347,16 @@ disk_add:
push eax ; save allocated pointer to DISK
xor eax, eax ; the argument of malloc() is in eax
@@:
inc eax
cmp byte [ebx+eax-1], 0
jnz @b
; 2b. Call the heap manager.
call malloc
; 2c. Check the result. If allocation failed, go to 7.
pop esi ; restore allocated pointer to DISK
test eax, eax
inc eax
cmp byte [ebx+eax-1], 0
jnz @b
; 2b. Call the heap manager. Note that it can change ebx.
push ebx
call malloc
pop ebx
; 2c. Check the result. If allocation failed, go to 7.
pop esi ; restore allocated pointer to DISK
test eax, eax
jz .free
; 2d. Store the allocated pointer to the DISK structure.
mov [esi+DISK.Name], eax
@@ -415,13 +417,13 @@ disk_add:
; [esp+4] = handle of the disk, i.e. the pointer to the DISK structure.
; Return value: none.
disk_del:
push esi ; save used registers to be stdcall
; 1. Force media to be removed. If the media is already removed, the
; call does nothing.
mov esi, [esp+4+8] ; esi = handle of the disk
stdcall disk_media_changed, esi, 0
; 2. Delete the structure from the global list.
; 2a. Acquire the mutex.
push esi ; save used registers to be stdcall
; 1. Force media to be removed. If the media is already removed, the
; call does nothing.
mov esi, [esp+4+4] ; esi = handle of the disk
stdcall disk_media_changed, esi, 0
; 2. Delete the structure from the global list.
; 2a. Acquire the mutex.
mov ecx, disk_list_mutex
call mutex_lock
; 2b. Delete item from double-linked list.
@@ -621,14 +623,14 @@ disk_default_closemedia:
disk_default_flush:
xor eax, eax
ret 4
; The default implementation of DISKFUNC.adjust_cache_size.
disk_default_adjust_cache_size:
mov eax, [esp+4]
ret 4
; This is an internal function called from 'disk_media_changed' when a new media
; is detected. It creates the list of partitions for the media.
; The default implementation of DISKFUNC.adjust_cache_size.
disk_default_adjust_cache_size:
mov eax, [esp+8]
ret 8
; This is an internal function called from 'disk_media_changed' when a new media
; is detected. It creates the list of partitions for the media.
; If media is not partitioned, then the list consists of one partition which
; covers all the media.
; esi = pointer to the DISK structure.
@@ -972,31 +974,53 @@ disk_detect_partition:
; with ebp-based frame arguments start from ebp+8, since [ebp]=saved ebp
; and [ebp+4]=return address.
virtual at ebp+8
.start dq ?
.length dq ?
end virtual
; Currently no file systems are supported, so just allocate the PARTITION
; structure without extra fields.
; 1. Allocate and check result.
push sizeof.PARTITION
pop eax
call malloc
test eax, eax
jz .nothing
; 2. Fill the common fields: copy .start and .length.
mov edx, dword [.start]
mov dword [eax+PARTITION.FirstSector], edx
mov edx, dword [.start+4]
.start dq ?
.length dq ?
end virtual
; When disk_add_partition is called, ebx contains a pointer to
; a two-sectors-sized buffer. This function saves ebx in the stack
; immediately before ebp.
virtual at ebp-4
.buffer dd ?
end virtual
; 1. Read the bootsector to the buffer.
mov al, DISKFUNC.read
mov ebx, [.buffer]
add ebx, 512
push 1
stdcall disk_call_driver, ebx, dword [.start], dword [.start+4], esp
; 2. Run tests for all supported filesystems. If at least one test succeeded,
; go to 4.
; For tests: qword [ebp+8] = partition start, qword [ebp+10h] = partition
; length, [esp] = 0 if reading bootsector failed or 1 if succeeded,
; ebx points to the buffer for bootsector.
call fat_create_partition
test eax, eax
jnz .success
; 3. No file system has recognized the volume, so just allocate the PARTITION
; structure without extra fields.
push sizeof.PARTITION
pop eax
call malloc
test eax, eax
jz .nothing
mov edx, dword [.start]
mov dword [eax+PARTITION.FirstSector], edx
mov edx, dword [.start+4]
mov dword [eax+PARTITION.FirstSector+4], edx
mov edx, dword [.length]
mov dword [eax+PARTITION.Length], edx
mov edx, dword [.length+4]
mov dword [eax+PARTITION.Length+4], edx
.nothing:
; 3. Return with eax = pointer to PARTITION or NULL.
ret
; This function is called from file_system_lfn.
mov dword [eax+PARTITION.Length], edx
mov edx, dword [.length+4]
mov dword [eax+PARTITION.Length+4], edx
mov [eax+PARTITION.Disk], esi
and [eax+PARTITION.FSUserFunctions], 0
.success:
.nothing:
; 4. Return with eax = pointer to PARTITION or NULL.
pop ecx
ret
; This function is called from file_system_lfn.
; This handler gets the control each time when fn 70 is called
; with unknown item of root subdirectory.
; in: esi -> name
@@ -1058,12 +1082,13 @@ dyndisk_handler:
; We found the addressed DISK structure.
; 5. Reference the disk.
lock inc [ebx+DISK.RefCount]
; 6. Now we are sure that the DISK structure is not going to die at least
; while we are working with it, so release the global mutex.
call mutex_unlock
; 7. Acquire the mutex for media object.
pop edi ; restore edi
lea ecx, [ebx+DISK.MediaLock]
; 6. Now we are sure that the DISK structure is not going to die at least
; while we are working with it, so release the global mutex.
call mutex_unlock
pop ecx ; pop from the stack saved value of esi
; 7. Acquire the mutex for media object.
pop edi ; restore edi
lea ecx, [ebx+DISK.MediaLock]
call mutex_lock
; 8. Get the media object. If it is not NULL, reference it.
xor edx, edx
@@ -1172,30 +1197,50 @@ fs_dyndisk:
pop edx edx edx eax ; edx = pointer to DISK, eax = NULL or edx
test eax, eax
jz .nomedia
.main:
cmp ecx, [edx+DISK.NumPartitions]
jae .notfound
mov dword [esp+32], ERROR_UNKNOWN_FS
.cleanup:
mov esi, edx
call disk_media_dereference
call disk_dereference
ret
.notfound:
mov dword [esp+32], ERROR_FILE_NOT_FOUND
jmp .cleanup
.nomedia:
test ecx, ecx
jnz .notfound
.main:
cmp ecx, [edx+DISK.NumPartitions]
jae .notfound
mov eax, [edx+DISK.Partitions]
mov eax, [eax+ecx*4]
mov edi, [eax+PARTITION.FSUserFunctions]
test edi, edi
jz .nofs
mov ecx, [ebx]
cmp [edi], ecx
jbe .unsupported
push edx
push ebp
mov ebp, eax
call dword [edi+4+ecx*4]
pop ebp
pop edx
mov dword [esp+32], eax
mov dword [esp+20], ebx
.cleanup:
mov esi, edx
call disk_media_dereference
call disk_dereference
ret
.nofs:
mov dword [esp+32], ERROR_UNKNOWN_FS
jmp .cleanup
.notfound:
mov dword [esp+32], ERROR_FILE_NOT_FOUND
jmp .cleanup
.unsupported:
mov dword [esp+32], ERROR_UNSUPPORTED_FS
jmp .cleanup
.nomedia:
test ecx, ecx
jnz .notfound
test byte [edx+DISK.DriverFlags], DISK_NO_INSERT_NOTIFICATION
jz .deverror
; if the driver does not support insert notifications and we are the only fs
; operation with this disk, issue the fake insert notification; if media is
; still not inserted, 'disk_media_changed' will detect this and do nothing
;;; push ebx
lea ecx, [edx+DISK.MediaLock]
call mutex_lock
cmp [edx+DISK.MediaRefCount], 1
; if the driver does not support insert notifications and we are the only fs
; operation with this disk, issue the fake insert notification; if media is
; still not inserted, 'disk_media_changed' will detect this and do nothing
lea ecx, [edx+DISK.MediaLock]
call mutex_lock
cmp [edx+DISK.MediaRefCount], 1
jnz .noluck
call mutex_unlock
push edx