mirror of
https://github.com/KolibriOS/kolibrios.git
synced 2024-12-22 06:43:28 +03:00
593 lines
19 KiB
PHP
593 lines
19 KiB
PHP
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; ;;
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;; Copyright (C) KolibriOS team 2011. All rights reserved. ;;
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;; Distributed under terms of the GNU General Public License ;;
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;; ;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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$Revision: 2140 $
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; This function is intended to replace the old 'hd_read' function when
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; [hdd_appl_data] = 0, so its input/output parameters are the same, except
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; that it can't use the global variables 'hd_error' and 'hdd_appl_data'.
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; in: eax = sector, ebx = buffer, ebp = pointer to PARTITION structure
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; eax is relative to partition start
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; out: eax = error code; 0 = ok
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fs_read32_sys:
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; Compatibility hack: if PARTITION.Disk is 'old', there is no DISK structure,
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; this request should be processed by hd_read.
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cmp [ebp+PARTITION.Disk], 'old'
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jnz @f
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mov [hdd_appl_data], 0
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call hd_read
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mov [hdd_appl_data], 1 ; restore to default state
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ret
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@@:
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; In the normal case, save ecx, set ecx to SysCache and let the common part
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; do its work.
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push ecx
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mov ecx, [ebp+PARTITION.Disk]
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add ecx, DISK.SysCache
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jmp fs_read32_common
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; This function is intended to replace the old 'hd_read' function when
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; [hdd_appl_data] = 1, so its input/output parameters are the same, except
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; that it can't use the global variables 'hd_error' and 'hdd_appl_data'.
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; in: eax = sector, ebx = buffer, ebp = pointer to PARTITION structure
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; eax is relative to partition start
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; out: eax = error code; 0 = ok
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fs_read32_app:
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; Compatibility hack: if PARTITION.Disk is 'old', there is no DISK structure,
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; this request should be processed by hd_read.
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cmp [ebp+PARTITION.Disk], 'old'
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jnz @f
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mov [hdd_appl_data], 1
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jmp hd_read
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@@:
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; In the normal case, save ecx, set ecx to AppCache and let the common part
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; do its work.
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push ecx
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mov ecx, [ebp+PARTITION.Disk]
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add ecx, DISK.AppCache
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; This label is the common part of fs_read32_sys and fs_read32_app.
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fs_read32_common:
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; 1. Check that the required sector is inside the partition. If no, return
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; DISK_STATUS_END_OF_MEDIA.
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cmp dword [ebp+PARTITION.Length+4], 0
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jnz @f
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cmp dword [ebp+PARTITION.Length], eax
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ja @f
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mov eax, DISK_STATUS_END_OF_MEDIA
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pop ecx
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ret
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@@:
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; 2. Get the absolute sector on the disk.
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push edx
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xor edx, edx
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add eax, dword [ebp+PARTITION.FirstSector]
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adc edx, dword [ebp+PARTITION.FirstSector+4]
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; 3. If there is no cache for this disk, just pass the request to the driver.
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cmp [ecx+DISKCACHE.pointer], 0
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jnz .scancache
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push 1
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push esp ; numsectors
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push edx ; startsector
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push eax ; startsector
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push ebx ; buffer
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mov al, DISKFUNC.read
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call disk_call_driver
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pop ecx
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pop edx
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pop ecx
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ret
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.scancache:
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; 4. Scan the cache.
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push esi edi ecx ; scan cache
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push edx eax
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virtual at esp
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.sector_lo dd ?
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.sector_hi dd ?
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.cache dd ?
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end virtual
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; The following code is inherited from hd_read. The differences are:
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; all code is protected by the cache lock; instead of static calls
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; to hd_read_dma/hd_read_pio/bd_read the dynamic call to DISKFUNC.read is used;
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; sector is 64-bit, not 32-bit.
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call mutex_lock
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mov eax, [.sector_lo]
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mov edx, [.sector_hi]
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mov esi, [ecx+DISKCACHE.pointer]
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mov ecx, [ecx+DISKCACHE.sad_size]
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add esi, 12
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mov edi, 1
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.hdreadcache:
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cmp dword [esi+8], 0 ; empty
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je .nohdcache
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cmp [esi], eax ; correct sector
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jne .nohdcache
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cmp [esi+4], edx ; correct sector
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je .yeshdcache
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.nohdcache:
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add esi, 12
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inc edi
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dec ecx
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jnz .hdreadcache
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mov esi, [.cache]
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call find_empty_slot64 ; ret in edi
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test eax, eax
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jnz .read_done
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push 1
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push esp
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push edx
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push [.sector_lo+12]
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mov ecx, [.cache]
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mov eax, edi
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shl eax, 9
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add eax, [ecx+DISKCACHE.data]
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push eax
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mov esi, [ebp+PARTITION.Disk]
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mov al, DISKFUNC.read
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call disk_call_driver
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pop ecx
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dec ecx
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jnz .read_done
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mov ecx, [.cache]
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lea eax, [edi*3]
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mov esi, [ecx+DISKCACHE.pointer]
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lea esi, [eax*4+esi]
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mov eax, [.sector_lo]
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mov edx, [.sector_hi]
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mov [esi], eax ; sector number
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mov [esi+4], edx ; sector number
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mov dword [esi+8], 1; hd read - mark as same as in hd
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.yeshdcache:
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mov esi, edi
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mov ecx, [.cache]
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shl esi, 9
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add esi, [ecx+DISKCACHE.data]
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mov edi, ebx
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mov ecx, 512/4
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rep movsd ; move data
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xor eax, eax ; successful read
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.read_done:
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mov ecx, [.cache]
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push eax
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call mutex_unlock
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pop eax
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add esp, 12
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pop edi esi edx ecx
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ret
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; This function is intended to replace the old 'hd_write' function when
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; [hdd_appl_data] = 0, so its input/output parameters are the same, except
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; that it can't use the global variables 'hd_error' and 'hdd_appl_data'.
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; in: eax = sector, ebx = buffer, ebp = pointer to PARTITION structure
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; eax is relative to partition start
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; out: eax = error code; 0 = ok
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fs_write32_sys:
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; Compatibility hack: if PARTITION.Disk is 'old', there is no DISK structure,
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; this request should be processed by hd_write.
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cmp [ebp+PARTITION.Disk], 'old'
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jnz @f
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mov [hdd_appl_data], 0
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call hd_write
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mov [hdd_appl_data], 1 ; restore to default state
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ret
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@@:
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; In the normal case, save ecx, set ecx to SysCache and let the common part
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; do its work.
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push ecx
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mov ecx, [ebp+PARTITION.Disk]
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add ecx, DISK.SysCache
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jmp fs_write32_common
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; This function is intended to replace the old 'hd_write' function when
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; [hdd_appl_data] = 1, so its input/output parameters are the same, except
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; that it can't use the global variables 'hd_error' and 'hdd_appl_data'.
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; in: eax = sector, ebx = buffer, ebp = pointer to PARTITION structure
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; eax is relative to partition start
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; out: eax = error code; 0 = ok
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fs_write32_app:
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; Compatibility hack: if PARTITION.Disk is 'old', there is no DISK structure,
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; this request should be processed by hd_write.
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cmp [ebp+PARTITION.Disk], 'old'
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jnz @f
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mov [hdd_appl_data], 1
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jmp hd_write
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@@:
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; In the normal case, save ecx, set ecx to AppCache and let the common part
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; do its work.
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push ecx
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mov ecx, [ebp+PARTITION.Disk]
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add ecx, DISK.AppCache
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; This label is the common part of fs_read32_sys and fs_read32_app.
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fs_write32_common:
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; 1. Check that the required sector is inside the partition. If no, return
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; DISK_STATUS_END_OF_MEDIA.
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cmp dword [ebp+PARTITION.Length+4], 0
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jnz @f
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cmp dword [ebp+PARTITION.Length], eax
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ja @f
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mov eax, DISK_STATUS_END_OF_MEDIA
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pop ecx
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ret
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@@:
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push edx
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; 2. Get the absolute sector on the disk.
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xor edx, edx
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add eax, dword [ebp+PARTITION.FirstSector]
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adc edx, dword [ebp+PARTITION.FirstSector+4]
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; 3. If there is no cache for this disk, just pass request to the driver.
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cmp [ecx+DISKCACHE.pointer], 0
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jnz .scancache
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push 1
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push esp ; numsectors
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push edx ; startsector
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push eax ; startsector
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push ebx ; buffer
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mov al, DISKFUNC.write
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call disk_call_driver
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pop ecx
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pop edx
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pop ecx
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ret
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.scancache:
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; 4. Scan the cache.
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push esi edi ecx ; scan cache
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push edx eax
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virtual at esp
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.sector_lo dd ?
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.sector_hi dd ?
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.cache dd ?
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end virtual
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; The following code is inherited from hd_write. The differences are:
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; all code is protected by the cache lock;
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; sector is 64-bit, not 32-bit.
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call mutex_lock
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; check if the cache already has the sector and overwrite it
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mov eax, [.sector_lo]
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mov edx, [.sector_hi]
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mov esi, [ecx+DISKCACHE.pointer]
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mov ecx, [ecx+DISKCACHE.sad_size]
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add esi, 12
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mov edi, 1
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.hdwritecache:
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cmp dword [esi+8], 0 ; if cache slot is empty
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je .not_in_cache_write
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cmp [esi], eax ; if the slot has the sector
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jne .not_in_cache_write
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cmp [esi+4], edx ; if the slot has the sector
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je .yes_in_cache_write
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.not_in_cache_write:
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add esi, 12
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inc edi
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dec ecx
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jnz .hdwritecache
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; sector not found in cache
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; write the block to a new location
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mov esi, [.cache]
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call find_empty_slot64 ; ret in edi
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test eax, eax
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jne .hd_write_access_denied
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mov ecx, [.cache]
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lea eax, [edi*3]
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mov esi, [ecx+DISKCACHE.pointer]
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lea esi, [eax*4+esi]
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mov eax, [.sector_lo]
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mov edx, [.sector_hi]
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mov [esi], eax ; sector number
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mov [esi+4], edx ; sector number
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.yes_in_cache_write:
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mov dword [esi+4], 2 ; write - differs from hd
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shl edi, 9
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mov ecx, [.cache]
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add edi, [ecx+DISKCACHE.data]
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mov esi, ebx
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mov ecx, 512/4
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rep movsd ; move data
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xor eax, eax ; success
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.hd_write_access_denied:
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mov ecx, [.cache]
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push eax
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call mutex_unlock
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pop eax
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add esp, 12
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pop edi esi edx ecx
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ret
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; This internal function is called from fs_read32_* and fs_write32_*. It is the
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; analogue of find_empty_slot for 64-bit sectors.
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find_empty_slot64:
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;-----------------------------------------------------------
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; find empty or read slot, flush cache if next 12.5% is used by write
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; output : edi = cache slot
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;-----------------------------------------------------------
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.search_again:
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mov ecx, [esi+DISKCACHE.sad_size]
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mov edi, [esi+DISKCACHE.search_start]
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shr ecx, 3
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.search_for_empty:
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inc edi
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cmp edi, [esi+DISKCACHE.sad_size]
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jbe .inside_cache
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mov edi, 1
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.inside_cache:
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lea eax, [edi*3]
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shl eax, 2
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add eax, [esi+DISKCACHE.pointer]
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cmp dword [eax+8], 2
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jb .found_slot ; it's empty or read
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dec ecx
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jnz .search_for_empty
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call write_cache64 ; no empty slots found, write all
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test eax, eax
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jne .found_slot_access_denied
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jmp .search_again ; and start again
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.found_slot:
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mov [esi+DISKCACHE.search_start], edi
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xor eax, eax ; success
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.found_slot_access_denied:
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ret
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; This function is intended to replace the old 'write_cache' function.
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proc write_cache64 uses ecx edx esi edi
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locals
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cache_chain_started dd ?
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cache_chain_size dd ?
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cache_chain_pos dd ?
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cache_chain_ptr dd ?
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endl
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; If there is no cache for this disk, nothing to do.
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cmp [esi+DISKCACHE.pointer], 0
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jz .flush
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;-----------------------------------------------------------
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; write all changed sectors to disk
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;-----------------------------------------------------------
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; write difference ( 2 ) from cache to DISK
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mov ecx, [esi+DISKCACHE.sad_size]
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mov esi, [esi+DISKCACHE.pointer]
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add esi, 12
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mov edi, 1
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.write_cache_more:
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cmp dword [esi+8], 2 ; if cache slot is not different
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jne .write_chain
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mov dword [esi+8], 1 ; same as in hd
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mov eax, [esi]
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mov edx, [esi+4] ; edx:eax = sector to write
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; <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
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cmp ecx, 1
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jz .nonext
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cmp dword [esi+12+8], 2
|
|||
|
jnz .nonext
|
|||
|
push eax edx
|
|||
|
add eax, 1
|
|||
|
adc edx, 0
|
|||
|
cmp eax, [esi+12]
|
|||
|
jnz @f
|
|||
|
cmp edx, [esi+12+4]
|
|||
|
@@:
|
|||
|
pop edx eax
|
|||
|
jnz .nonext
|
|||
|
cmp [cache_chain_started], 1
|
|||
|
jz @f
|
|||
|
mov [cache_chain_started], 1
|
|||
|
mov [cache_chain_size], 0
|
|||
|
mov [cache_chain_pos], edi
|
|||
|
mov [cache_chain_ptr], esi
|
|||
|
@@:
|
|||
|
inc [cache_chain_size]
|
|||
|
cmp [cache_chain_size], 16
|
|||
|
jnz .continue
|
|||
|
jmp .write_chain
|
|||
|
.nonext:
|
|||
|
call .flush_cache_chain
|
|||
|
test eax, eax
|
|||
|
jnz .nothing
|
|||
|
mov [cache_chain_size], 1
|
|||
|
mov [cache_chain_ptr], esi
|
|||
|
call .write_cache_sector
|
|||
|
test eax, eax
|
|||
|
jnz .nothing
|
|||
|
jmp .continue
|
|||
|
.write_chain:
|
|||
|
call .flush_cache_chain
|
|||
|
test eax, eax
|
|||
|
jnz .nothing
|
|||
|
.continue:
|
|||
|
add esi, 12
|
|||
|
inc edi
|
|||
|
dec ecx
|
|||
|
jnz .write_cache_more
|
|||
|
call .flush_cache_chain
|
|||
|
test eax, eax
|
|||
|
jnz .nothing
|
|||
|
.flush:
|
|||
|
mov esi, [ebp]
|
|||
|
mov esi, [esi+PARTITION.Disk]
|
|||
|
mov al, DISKFUNC.flush
|
|||
|
call disk_call_driver
|
|||
|
.nothing:
|
|||
|
ret
|
|||
|
|
|||
|
.flush_cache_chain:
|
|||
|
xor eax, eax
|
|||
|
cmp [cache_chain_started], eax
|
|||
|
jz @f
|
|||
|
call .write_cache_chain
|
|||
|
mov [cache_chain_started], 0
|
|||
|
@@:
|
|||
|
retn
|
|||
|
|
|||
|
.write_cache_sector:
|
|||
|
mov [cache_chain_size], 1
|
|||
|
mov [cache_chain_pos], edi
|
|||
|
.write_cache_chain:
|
|||
|
pusha
|
|||
|
mov edi, [cache_chain_pos]
|
|||
|
mov ecx, [ebp-12]
|
|||
|
shl edi, 9
|
|||
|
add edi, [ecx+DISKCACHE.data]
|
|||
|
mov ecx, [cache_chain_size]
|
|||
|
push ecx
|
|||
|
push esp ; numsectors
|
|||
|
mov eax, [cache_chain_ptr]
|
|||
|
pushd [eax+4]
|
|||
|
pushd [eax] ; startsector
|
|||
|
push edi ; buffer
|
|||
|
mov esi, [ebp]
|
|||
|
mov esi, [esi+PARTITION.Disk]
|
|||
|
mov al, DISKFUNC.write
|
|||
|
call disk_call_driver
|
|||
|
pop ecx
|
|||
|
mov [esp+28], eax
|
|||
|
popa
|
|||
|
retn
|
|||
|
endp
|
|||
|
|
|||
|
; This internal function is called from disk_add to initialize the caching for
|
|||
|
; a new DISK.
|
|||
|
; The algorithm is inherited from getcache.inc: take 1/32 part of the available
|
|||
|
; physical memory, round down to 8 pages, limit by 128K from below and by 1M
|
|||
|
; from above. Reserve 1/8 part of the cache for system data and 7/8 for app
|
|||
|
; data.
|
|||
|
; After the size is calculated, but before the cache is allocated, the device
|
|||
|
; driver can adjust the size. In particular, setting size to zero disables
|
|||
|
; caching: there is no sense in a cache for a ramdisk. In fact, such action
|
|||
|
; is most useful example of a non-trivial adjustment.
|
|||
|
; esi = pointer to DISK structure
|
|||
|
disk_init_cache:
|
|||
|
; 1. Calculate the suggested cache size.
|
|||
|
; 1a. Get the size of free physical memory in pages.
|
|||
|
mov eax, [pg_data.pages_free]
|
|||
|
; 1b. Use the value to calculate the size.
|
|||
|
shl eax, 12 - 5 ; 1/32 of it in bytes
|
|||
|
and eax, -8*4096 ; round down to the multiple of 8 pages
|
|||
|
; 1c. Force lower and upper limits.
|
|||
|
cmp eax, 1024*1024
|
|||
|
jb @f
|
|||
|
mov eax, 1024*1024
|
|||
|
@@:
|
|||
|
cmp eax, 128*1024
|
|||
|
ja @f
|
|||
|
mov eax, 128*1024
|
|||
|
@@:
|
|||
|
; 1d. Give a chance to the driver to adjust the size.
|
|||
|
push eax
|
|||
|
mov al, DISKFUNC.adjust_cache_size
|
|||
|
call disk_call_driver
|
|||
|
; Cache size calculated.
|
|||
|
mov [esi+DISK.cache_size], eax
|
|||
|
test eax, eax
|
|||
|
jz .nocache
|
|||
|
; 2. Allocate memory for the cache.
|
|||
|
; 2a. Call the allocator.
|
|||
|
stdcall kernel_alloc, eax
|
|||
|
test eax, eax
|
|||
|
jnz @f
|
|||
|
; 2b. If it failed, say a message and return with eax = 0.
|
|||
|
dbgstr 'no memory for disk cache'
|
|||
|
jmp .nothing
|
|||
|
@@:
|
|||
|
; 3. Fill two DISKCACHE structures.
|
|||
|
mov [esi+DISK.SysCache.pointer], eax
|
|||
|
lea ecx, [esi+DISK.SysCache.Lock]
|
|||
|
call mutex_init
|
|||
|
lea ecx, [esi+DISK.AppCache.Lock]
|
|||
|
call mutex_init
|
|||
|
; The following code is inherited from getcache.inc.
|
|||
|
mov edx, [esi+DISK.SysCache.pointer]
|
|||
|
and [esi+DISK.SysCache.search_start], 0
|
|||
|
and [esi+DISK.AppCache.search_start], 0
|
|||
|
mov eax, [esi+DISK.cache_size]
|
|||
|
shr eax, 3
|
|||
|
mov [esi+DISK.SysCache.data_size], eax
|
|||
|
add edx, eax
|
|||
|
imul eax, 7
|
|||
|
mov [esi+DISK.AppCache.data_size], eax
|
|||
|
mov [esi+DISK.AppCache.pointer], edx
|
|||
|
|
|||
|
mov eax, [esi+DISK.SysCache.data_size]
|
|||
|
push ebx
|
|||
|
call calculate_for_hd
|
|||
|
pop ebx
|
|||
|
add eax, [esi+DISK.SysCache.pointer]
|
|||
|
mov [esi+DISK.SysCache.data], eax
|
|||
|
mov [esi+DISK.SysCache.sad_size], ecx
|
|||
|
|
|||
|
push edi
|
|||
|
mov edi, [esi+DISK.SysCache.pointer]
|
|||
|
lea ecx, [ecx*3]
|
|||
|
xor eax, eax
|
|||
|
rep stosd
|
|||
|
pop edi
|
|||
|
|
|||
|
mov eax, [esi+DISK.AppCache.data_size]
|
|||
|
push ebx
|
|||
|
call calculate_for_hd
|
|||
|
pop ebx
|
|||
|
add eax, [esi+DISK.AppCache.pointer]
|
|||
|
mov [esi+DISK.AppCache.data], eax
|
|||
|
mov [esi+DISK.AppCache.sad_size], ecx
|
|||
|
|
|||
|
push edi
|
|||
|
mov edi, [esi+DISK.AppCache.pointer]
|
|||
|
lea ecx, [ecx*3]
|
|||
|
xor eax, eax
|
|||
|
rep stosd
|
|||
|
pop edi
|
|||
|
|
|||
|
; 4. Return with nonzero al.
|
|||
|
mov al, 1
|
|||
|
; 5. Return.
|
|||
|
.nothing:
|
|||
|
ret
|
|||
|
; No caching is required for this driver. Zero cache pointers and return with
|
|||
|
; nonzero al.
|
|||
|
.nocache:
|
|||
|
mov [esi+DISK.SysCache.pointer], eax
|
|||
|
mov [esi+DISK.AppCache.pointer], eax
|
|||
|
mov al, 1
|
|||
|
ret
|
|||
|
|
|||
|
; This internal function is called from disk_media_dereference to free the
|
|||
|
; allocated cache, if there is one.
|
|||
|
; esi = pointer to DISK structure
|
|||
|
disk_free_cache:
|
|||
|
; The algorithm is straightforward.
|
|||
|
mov eax, [esi+DISK.SysCache.pointer]
|
|||
|
test eax, eax
|
|||
|
jz .nothing
|
|||
|
stdcall kernel_free, eax
|
|||
|
.nothing:
|
|||
|
ret
|