kolibrios/kernel/branches/kolibri-lldw/blkdev/ahci.inc
turbocat bdef8f9596 Created a branch for low-level work with disks
git-svn-id: svn://kolibrios.org@9191 a494cfbc-eb01-0410-851d-a64ba20cac60
2021-09-14 17:39:32 +00:00

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2021. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
$Revision$
PCI_REG_STATUS_COMMAND = 0x0004
PCI_REG_BAR5 = 0x0024
AHCI_DBGLVL = 0 ; debug output verbosity level. 0 - less verbose, 1 - more verbose
; different SATA device signatures
SATA_SIG_ATA = 0x00000101 ; SATA drive
SATA_SIG_ATAPI = 0xEB140101 ; SATAPI drive
SATA_SIG_SEMB = 0xC33C0101 ; Enclosure management bridge
SATA_SIG_PM = 0x96690101 ; Port multiplier
; Device type constants
AHCI_DEV_NULL = 0
AHCI_DEV_SATA = 1
AHCI_DEV_SEMB = 2
AHCI_DEV_PM = 3
AHCI_DEV_SATAPI = 4
; ATA commands
ATA_IDENTIFY = 0xEC
ATA_CMD_READ_DMA_EX = 0x25
ATA_CMD_WRITE_DMA_EX = 0x35
; ATA constants
ATA_DEV_BUSY = 0x80
ATA_DEV_DRQ = 0x08
; ATAPI commands
ATAPI_IDENTIFY = 0xA1
PRDT_MAX_ENTRIES = 16 ;65535
; bit_ prefix means that its index of bit
; format: bit_AHCI_STR_REG_BIT
bit_AHCI_HBA_CAP2_BOH = 0 ; Supports BIOS/OS Handoff
bit_AHCI_HBA_BOHC_BOS = 0 ; BIOS-Owned Semaphore (BIOS owns controller)
bit_AHCI_HBA_BOHC_OOS = 1 ; OS-Owned Semaphore (OS owns controller)
bit_AHCI_HBA_BOHC_BB = 4 ; BIOS Busy (polling bit while BIOS cleans up
bit_AHCI_HBA_GHC_AHCI_ENABLE = 31 ; Enable AHCI mode
bit_AHCI_HBA_GHC_RESET = 0 ; Reset HBA
bit_AHCI_HBA_GHC_INTERRUPT_ENABLE = 1 ; Enable interrupts from the HBA
bit_AHCI_HBA_PxCMD_ST = 0
bit_AHCI_HBA_PxCMD_FRE = 4
bit_AHCI_HBA_PxCMD_FR = 14
bit_AHCI_HBA_PxCMD_CR = 15
bit_AHCI_HBA_PxIS_TFES = 30
AHCI_HBA_PxCMD_ST = 1 shl 0
AHCI_HBA_PxCMD_FRE = 1 shl 4
AHCI_HBA_PxCMD_FR = 1 shl 14
AHCI_HBA_PxCMD_CR = 1 shl 15
bit_AHCI_H2D_FLAG_CMD = 7
AHCI_HBA_PxSSTS_DET = 0xF
AHCI_HBA_PORT_IPM_ACTIVE = 1
AHCI_HBA_PxSSTS_DET_PRESENT = 3
AHCI_MAX_PORTS = 32 ;
;HBA_MEMORY_SIZE = 0x1100
AHCI_PORT_TIMEOUT = 1000000
; Frame Information Structure Types
FIS_TYPE_REG_H2D = 0x27 ; Register FIS - host to device
FIS_TYPE_REG_D2H = 0x34 ; Register FIS - device to host
FIS_TYPE_DMA_ACT = 0x39 ; DMA activate FIS - device to host
FIS_TYPE_DMA_SETUP = 0x41 ; DMA setup FIS - bidirectional
FIS_TYPE_DATA = 0x46 ; Data FIS - bidirectional
FIS_TYPE_BIST = 0x58 ; BIST activate FIS - bidirectional
FIS_TYPE_PIO_SETUP = 0x5F ; PIO setup FIS - device to host
FIS_TYPE_DEV_BITS = 0xA1 ; Set device bits FIS - device to host
struct AHCI_DATA
abar dd ? ; pointer to HBA Memory (BAR5) mapped to virtual kernelspace memory
pcidev dd ? ; pointer to corresponding PCIDEV structure
ends
; Generic Host Control registers
struct HBA_MEM
cap dd ? ; 0x00, Host capabilities
ghc dd ? ; 0x04, Global host control
is dd ? ; 0x08, Interrupt status
pi dd ? ; 0x0C, Port implemented
version dd ? ; 0x10, Version
ccc_ctl dd ? ; 0x14, Command completion coalescing control
ccc_pts dd ? ; 0x18, Command completion coalescing ports
em_loc dd ? ; 0x1C, Enclosure management location
em_ctl dd ? ; 0x20, Enclosure management control
cap2 dd ? ; 0x24, Host capabilities extended
bohc dd ? ; 0x28, BIOS/OS handoff control and status
reserved rb (0xA0-HBA_MEM.reserved) ; 0x2C - 0x9F, Reserved
vendor rb (0x100-HBA_MEM.vendor) ; 0xA0 - 0xFF, Vendor specific
ports rb (sizeof.HBA_PORT*AHCI_MAX_PORTS) ; 0x100 - 0x10FF, Port control registers, max AHCI_MAX_PORTS
ends
; Port Control registers
struct HBA_PORT
command_list_base_l dd ? ; 0x00, command list base address, 1K-byte aligned
command_list_base_h dd ? ; 0x04, command list base address upper 32 bits, used on 64 bit systems
fis_base_l dd ? ; 0x08, FIS base address, 256-byte aligned
fis_base_h dd ? ; 0x0C, FIS base address upper 32 bits, used on 64 bit systems
interrupt_status dd ? ; 0x10
interrupt_enable dd ? ; 0x14
command dd ? ; 0x18, command and status
reserved0 dd ? ; 0x1C
task_file_data dd ? ; 0x20
signature dd ? ; 0x24
sata_status dd ? ; 0x28, SATA status (SCR0:SStatus)
sata_control dd ? ; 0x2C, SATA control (SCR2:SControl)
sata_error dd ? ; 0x30, SATA error (SCR1:SError)
sata_active dd ? ; 0x34, SATA active (SCR3:SActive)
command_issue dd ? ; 0x38
sata_notification dd ? ; 0x3C, SATA notification (SCR4:SNotification)
fis_based_switch_control dd ? ; 0x40
reserved1 rd 11 ; 0x44 - 0x6F
vendor rd 4 ; 0x70 - 0x7F, vendor specific
ends
; Command header structure, size = 32 bytes
struct HBA_CMD_HDR
flags1 db ? ; 0bPWACCCCC, P - Prefetchable, W - Write (1: H2D, 0: D2H)
; A - ATAPI, C - Command FIS length in DWORDS, 2 ~ 16
flags2 db ? ; 0bPPPPRCB(Re), P - Port multiplier port, R - Reserved,
; C - Clear busy upon R_OK, B - BIST, Re - Reset
prdtl dw ? ; Physical region descriptor table length in entries
prdbc dd ? ; Physical region descriptor byte count transferred
ctba dd ? ; Command table descriptor base address
ctbau dd ? ; Command table descriptor base address upper 32 bits
rd 4 ; Reserved
ends
; Physical region descriptor table entry, size = 16 bytes
struct HBA_PRDT_ENTRY
dba dd ? ; Data base address
dbau dd ? ; Data base address upper 32 bits
dd ? ; Reserved
flags dd ? ; 0bIR..RD..D, I (1 bit) - Interrupt on completion,
; R (9 bits) - Reserved, D (22 bits) - Byte count, 4M max
ends
struct HBA_CMD_TBL
cfis rb 64 ; 0x00, Command FIS
acmd rb 16 ; 0x40, ATAPI command, 12 or 16 bytes
rb 48 ; 0x50, Reserved
prdt_entry HBA_PRDT_ENTRY ; 0x80, Physical region descriptor table entries, 0 ~ 65535
; so, this structure is variable-length
ends
; Contains virtual mappings for port phys memory regions
struct PORT_DATA
clb dd ? ; Command list base
fb dd ? ; FIS base
ctba_arr rd 32 ; ctba_arr[0] = clb[0].ctba, ... and so on.
port dd ? ; address of correspoding HBA_PORT structure
portno dd ? ; port index, 0..31
drive_type db ? ; drive type
sector_count dq ? ; number of sectors
ends
; Register FIS Host to Device
struct FIS_REG_H2D
fis_type db ? ; FIS_TYPE_REG_H2D
flags db ? ; 0bCRRRPPPP, C - 1: Command, 0: Control
; R - Reserved, P - Port multiplier
command db ? ; Command register
featurel db ? ; Feature register, 7:0
lba0 db ? ; LBA low register, 7:0
lba1 db ? ; LBA mid register, 15:8
lba2 db ? ; LBA high register, 23:16
device db ? ; Device register
lba3 db ? ; LBA register, 31:24
lba4 db ? ; LBA register, 39:32
lba5 db ? ; LBA register, 47:40
featureh db ? ; Feature register, 15:8
countl db ? ; Count register, 7:0
counth db ? ; Count register, 15:8
icc db ? ; Isochronous command completion
control db ? ; Control register
rb 4 ; Reserved
ends
; Register FIS Device to Host
struct FIS_REG_D2H
fis_type db ? ; FIS_TYPE_REG_D2H
flags db ? ; 0bRIRPPPP, P - Port multiplier, R - Reserved
; I - Interrupt bit
status db ? ; Status register
error db ? ; Error register
lba0 db ? ; LBA low register, 7:0
lba1 db ? ; LBA mid register, 15:8
lba2 db ? ; LBA high register, 23:16
device db ? ; Device register
lba3 db ? ; LBA register, 31:24
lba4 db ? ; LBA register, 39:32
lba5 db ? ; LBA register, 47:40
db ? ; Reserved
countl db ? ; Count register, 7:0
counth db ? ; Count register, 15:8
rb 2 ; Reserved
rb 4 ; Reserved
ends
; Data FIS Bidirectional
struct FIS_DATA
fis_type db ? ; FIS_TYPE_DATA
flags db ? ; 0bRRRRPPPP, R - Reserved, P - Port multiplier
rb 2 ; Reserved
; DWORD 1 ~ N (?)
data rd 1 ; Payload
ends
; PIO Setup Device to Host
struct FIS_PIO_SETUP
fis_type db ? ; FIS_TYPE_PIO_SETUP
flags db ? ; 0bRIDRPPPP, P - Port multiplier, R - Reserved
; I - Interrupt bit, D - Data transfer direction, 1 - device to host
status db ? ; Status register
error db ? ; Error register
lba0 db ? ; LBA low register, 7:0
lba1 db ? ; LBA mid register, 15:8
lba2 db ? ; LBA high register, 23:16
device db ? ; Device register
lba3 db ? ; LBA register, 31:24
lba4 db ? ; LBA register, 39:32
lba5 db ? ; LBA register, 47:40
db ? ; Reserved
countl db ? ; Count register, 7:0
counth db ? ; Count register, 15:8
db ? ; Reserved
e_status db ? ; New value of status register
tc dw ? ; Transfer count
rb 2 ; Reserved
ends
; DMA Setup Device to Host
struct FIS_DMA_SETUP
fis_type db ? ; FIS_TYPE_DMA_SETUP
flags db ? ; 0bAIDRPPPP, A - Auto-activate. Specifies if DMA Activate FIS is needed,
; I - Interrupt bit, D - Data transfer direction, 1 - device to host,
; R - Reserved, P - Port multiplier
rb 2 ; Reserved
DMAbufferID dq ? ; DMA Buffer Identifier.
; Used to Identify DMA buffer in host memory.
; SATA Spec says host specific and not in Spec.
; Trying AHCI spec might work.
dd ? ; Reserved
DMAbufOffset dd ? ; Byte offset into buffer. First 2 bits must be 0
TransferCount dd ? ; Number of bytes to transfer. Bit 0 must be 0
dd ? ; Reserved
ends
; Set device bits FIS - device to host
struct FIS_DEV_BITS
fis_type db ? ; FIS_TYPE_DEV_BITS
flags db ? ; 0bNIRRPPPP, N - Notification, I - Interrupt,
; R - Reserved, P - Port multiplier
status db ? ; Status register
error db ? ; Error register
protocol dd ? ; Protocol
ends
struct HBA_FIS
dsfis FIS_DMA_SETUP ; 0x00, DMA Setup FIS
rb 4 ; padding
psfis FIS_PIO_SETUP ; 0x20, PIO Setup FIS
rb 12 ; padding
rfis FIS_REG_D2H ; 0x40, Register - Device to Host FIS
rb 4 ; padding
sdbfis FIS_DEV_BITS ; 0x58, Set Device Bit FIS
ufis rb 64 ; 0x60
rb (0x100 - 0xA0) ; 0xA0, Reserved
ends
; --------------------------------------------------
uglobal
align 4
ahci_controller AHCI_DATA
port_data_arr rb (sizeof.PORT_DATA*AHCI_MAX_PORTS)
ahci_mutex MUTEX
endg
iglobal
align 4
ahci_callbacks:
dd ahci_callbacks.end - ahci_callbacks
dd 0 ; no close function
dd 0 ; no closemedia function
dd ahci_querymedia
dd ahci_read
dd ahci_write
dd 0 ; no flush function
dd 0 ; use default cache size
.end:
hd_name db 'hd', 0, 0, 0
hd_counter dd 0
endg
; -----------------------------------------------------------------------
; detect ahci controller and initialize
align 4
ahci_init:
mov ecx, ahci_mutex
call mutex_init
mov ecx, ahci_controller
mov esi, pcidev_list
.find_ahci_ctr:
mov esi, [esi + PCIDEV.fd]
cmp esi, pcidev_list
jz .ahci_ctr_not_found
mov eax, [esi + PCIDEV.class]
;DEBUGF 1, "K: device class = %x\n", eax
shr eax, 8 ; shift right because lowest 8 bits if ProgIf field
cmp eax, 0x0106 ; 0x01 - Mass Storage Controller class, 0x06 - Serial ATA Controller subclass
jz .ahci_ctr_found
jmp .find_ahci_ctr
.ahci_ctr_not_found:
DEBUGF 1, "K: AHCI controller not found\n"
ret
.ahci_ctr_found:
mov [ahci_controller + AHCI_DATA.pcidev], esi
mov eax, [esi+PCIDEV.class]
movzx ebx, byte [esi+PCIDEV.bus]
movzx ecx, byte [esi+PCIDEV.devfn]
shr ecx, 3 ; get rid of 3 lowest bits (function code), the rest bits is device code
movzx edx, byte [esi+PCIDEV.devfn]
and edx, 00000111b ; get only 3 lowest bits (function code)
DEBUGF 1, "K: found AHCI controller, (class, subcl, progif) = %x, bus = %x, device = %x, function = %x\n", eax, ebx, ecx, edx
; get BAR5 value, it is physical address
movzx ebx, [esi + PCIDEV.bus]
movzx ebp, [esi + PCIDEV.devfn]
stdcall pci_read32, ebx, ebp, PCI_REG_BAR5
DEBUGF 1, "K: AHCI controller MMIO = %x\n", eax
mov edi, eax
; get the size of MMIO region
stdcall pci_write32, ebx, ebp, PCI_REG_BAR5, 0xFFFFFFFF
stdcall pci_read32, ebx, ebp, PCI_REG_BAR5
not eax
inc eax
DEBUGF 1, "K: AHCI: MMIO region size = 0x%x bytes\n", eax
; Map MMIO region to virtual memory
stdcall map_io_mem, edi, eax, PG_SWR + PG_NOCACHE
mov [ahci_controller + AHCI_DATA.abar], eax
DEBUGF 1, "K: AHCI controller BAR5 mapped to virtual addr %x\n", eax
; Restore the original BAR5 value
stdcall pci_write32, ebx, ebp, PCI_REG_BAR5, edi
; Enable dma bus mastering, memory space access, clear the "disable interrupts" bit
; Usually, it is already done before us
movzx ebx, [esi + PCIDEV.bus]
movzx ebp, [esi + PCIDEV.devfn]
stdcall pci_read32, ebx, ebp, PCI_REG_STATUS_COMMAND
DEBUGF 1, "K: AHCI: pci_status_command = %x\nEnabling interrupts, DMA bus mastering and memory space access\n", eax
or eax, 0x06 ; pci.command |= 0x06 (dma bus mastering + memory space access)
btr eax, 10 ; clear the "disable interrupts" bit
DEBUGF 1, "K: AHCI: pci_status_command = %x\n", eax
stdcall pci_write32, ebx, ebp, PCI_REG_STATUS_COMMAND, eax
; ; Print some register values to debug board
; mov esi, [ahci_controller + AHCI_DATA.abar]
; DEBUGF 1, "K: AHCI: HBA.cap = %x, HBA.ghc = %x, HBA_MEM.version = %x\n", [esi + HBA_MEM.cap], [esi + HBA_MEM.ghc], [esi + HBA_MEM.version]
;-------------------------------------------------------
; Request BIOS/OS ownership handoff, if supported. (TODO check correctness)
mov esi, [ahci_controller + AHCI_DATA.abar]
;mov ebx, [esi + HBA_MEM.cap2]
;DEBUGF 1, "K: AHCI: HBA_MEM.cap2 = %x\n", ebx
bt [esi + HBA_MEM.cap2], bit_AHCI_HBA_CAP2_BOH
jnc .end_handoff
DEBUGF 1, "K: AHCI: requesting AHCI ownership change...\n"
bts [esi + HBA_MEM.bohc], bit_AHCI_HBA_BOHC_OOS
.wait_not_bos:
bt [esi + HBA_MEM.bohc], bit_AHCI_HBA_BOHC_BOS
jc .wait_not_bos
mov ebx, 3
call delay_hs
; if Bios Busy is still set after 30 mS, wait 2 seconds.
bt [esi + HBA_MEM.bohc], bit_AHCI_HBA_BOHC_BB
jnc @f
mov ebx, 200
call delay_hs
@@:
DEBUGF 1, "K: AHCI: ownership change completed.\n"
.end_handoff:
;-------------------------------------------------------
; enable the AHCI and reset it
bts [esi + HBA_MEM.ghc], bit_AHCI_HBA_GHC_AHCI_ENABLE
bts [esi + HBA_MEM.ghc], bit_AHCI_HBA_GHC_RESET
; wait for reset to complete
.wait_reset:
bt [esi + HBA_MEM.ghc], bit_AHCI_HBA_GHC_RESET
jc .wait_reset
; enable the AHCI and interrupts
bts [esi + HBA_MEM.ghc], bit_AHCI_HBA_GHC_AHCI_ENABLE
bts [esi + HBA_MEM.ghc], bit_AHCI_HBA_GHC_INTERRUPT_ENABLE
mov ebx, 2
call delay_hs
DEBUGF 1, "K: AHCI: caps: %x %x, ver: %x, ghc: %x, pi: %x\n", [esi + HBA_MEM.cap], [esi + HBA_MEM.cap2], [esi + HBA_MEM.version], [esi + HBA_MEM.ghc], [esi + HBA_MEM.pi]
; TODO:
; calculate irq line
; ahciHBA->ghc |= AHCI_GHC_IE;
; IDT::RegisterInterruptHandler(irq, InterruptHandler);
; ahciHBA->is = 0xffffffff;
mov [hd_counter], 0
xor ebx, ebx
.detect_drives:
cmp ebx, AHCI_MAX_PORTS
jae .end_detect_drives
; if port with index ebx is not implemented then go to next
mov ecx, [esi + HBA_MEM.pi]
bt ecx, ebx
jnc .continue_detect_drives
mov edi, ebx
imul edi, sizeof.HBA_PORT
add edi, HBA_MEM.ports
add edi, esi
; now edi - base of HBA_MEM.ports[ebx]
DEBUGF 1, "K: AHCI: port %d, cmd = %x, ssts = %x\n", ebx, [edi + HBA_PORT.command], [edi + HBA_PORT.sata_status]
; If port is not idle force it to be idle
mov eax, [edi + HBA_PORT.command]
and eax, (AHCI_HBA_PxCMD_ST or AHCI_HBA_PxCMD_CR or AHCI_HBA_PxCMD_FRE or AHCI_HBA_PxCMD_FR)
test eax, eax
jz @f
mov eax, edi
DEBUGF 1, "ahci_stop_cmd..\n"
call ahci_stop_cmd
@@:
; TODO: what is purpose of this block of code ?
; Reset port, disable slumber and partial state
; mov [edi + HBA_PORT.sata_control], 0x301
; push ebx
; mov ebx, 5 ; wait 50 ms
; call delay_hs
; pop ebx
; mov [edi + HBA_PORT.sata_control], 0x300
; if(abar->cap & HBA_MEM_CAP_SSS)
; {
; abar->ports[i].cmd |= (HBA_PxCMD_SUD | HBA_PxCMD_POD | HBA_PxCMD_ICC);
; Sleep(10);
; }
; rewritten to:
bt [esi + HBA_MEM.cap], 27 ; check Supports Staggered Spin-up bit in capabilities
jnc @f
DEBUGF 1, "Supports Staggered Spin-up, spinning up the port..\n"
or [edi + HBA_PORT.command], (0x0002 or 0x0004 or 0x10000000)
push ebx
mov ebx, 10 ; wait 100 ms
call delay_hs
pop ebx
@@:
; Clear interrupt status and error status
mov [edi + HBA_PORT.sata_error], 0xFFFFFFFF
mov [edi + HBA_PORT.interrupt_status], 0xFFFFFFFF
; ------------------------------------------
mov ecx, [edi + HBA_PORT.sata_status]
shr ecx, 8
and ecx, 0x0F
cmp ecx, AHCI_HBA_PORT_IPM_ACTIVE
jne .continue_detect_drives
mov ecx, [edi + HBA_PORT.sata_status]
and ecx, AHCI_HBA_PxSSTS_DET
cmp ecx, AHCI_HBA_PxSSTS_DET_PRESENT
jne .continue_detect_drives
; DEBUGF 1, "K: AHCI: found drive at port %d, cmd = 0x%x, ssts = 0x%x, signature = 0x%x\n", ebx, [edi + HBA_PORT.command], [edi + HBA_PORT.sata_status], [edi + HBA_PORT.signature]
mov ecx, ebx
imul ecx, sizeof.PORT_DATA
add ecx, port_data_arr
stdcall ahci_port_rebase, edi, ebx, ecx
; DEBUGF 1, "K: AHCI: After REBASING, signature = 0x%x\n", [edi + HBA_PORT.signature]
; Determine drive type by checking port signature
.switch_sig:
cmp [edi + HBA_PORT.signature], SATA_SIG_ATA
mov eax, AHCI_DEV_SATA
jz .end_switch_sig
cmp [edi + HBA_PORT.signature], SATA_SIG_ATAPI
mov eax, AHCI_DEV_SATAPI
jz .end_switch_sig
cmp [edi + HBA_PORT.signature], SATA_SIG_SEMB
mov eax, AHCI_DEV_SEMB
jz .end_switch_sig
cmp [edi + HBA_PORT.signature], SATA_SIG_PM
mov eax, AHCI_DEV_PM
jz .end_switch_sig
DEBUGF 1, "Unknown device signature\n"
mov eax, AHCI_DEV_NULL
.end_switch_sig:
mov [ecx + PORT_DATA.drive_type], al
DEBUGF 1, "K: AHCI: found drive on port %u: TYPE = %u\n", ebx, [ecx + PORT_DATA.drive_type]
stdcall ahci_port_identify, ecx
cmp [ecx + PORT_DATA.drive_type], AHCI_DEV_SATA
jne .after_add_disk ; skip adding disk code
; register disk in system:
;stdcall ahci_read_first_sector, ecx
push ecx
mov eax, [hd_counter]
inc [hd_counter]
xor edx, edx
mov ecx, 10
div ecx ; eax = hd_counter / 10, edx = hd_counter % 10
test eax, eax
jz .concat_one
add al, '0'
mov byte [hd_name + 2], al
add dl, '0'
mov byte [hd_name + 3], dl
jmp .endif1
.concat_one:
add dl, '0'
mov byte [hd_name + 2], dl
.endif1:
pop ecx
DEBUGF 1, "adding '%s'\n", hd_name
push ecx
stdcall disk_add, ahci_callbacks, hd_name, ecx, 0
pop ecx
test eax, eax
jz .disk_add_fail
push ecx
stdcall disk_media_changed, eax, 1 ; system will scan for partitions on disk
pop ecx
jmp .after_add_disk
.disk_add_fail:
DEBUGF 1, "Failed to add disk\n"
.after_add_disk:
.continue_detect_drives:
inc ebx
jmp .detect_drives
.end_detect_drives:
ret
; -------------------------------------------------
modelstr rb 42
; Identify drive on port ; TODO check
; in: pdata - address of PORT_DATA structure
proc ahci_port_identify stdcall, pdata: dword
locals
cmdslot dd ?
cmdheader dd ?
cmdtable dd ?
buf_phys dd ?
buf_virt dd ?
endl
pushad
mov esi, [pdata] ; esi - address of PORT_DATA struct of port
mov edi, [esi + PORT_DATA.port] ; edi - address of HBA_PORT struct of port
mov eax, edi
call ahci_find_cmdslot
cmp eax, -1
jne .cmdslot_found
DEBUGF 1, "No free cmdslot on port %u\n", [esi + PORT_DATA.portno]
jmp .ret
.cmdslot_found:
mov [cmdslot], eax
; DEBUGF 1, "Found free cmdslot %u on port %u\n", [cmdslot], [esi + PORT_DATA.portno]
shl eax, BSF sizeof.HBA_CMD_HDR
add eax, [esi + PORT_DATA.clb]
mov [cmdheader], eax ; address of virtual mapping of command header
mov eax, [cmdslot]
mov eax, [esi + eax*4 + PORT_DATA.ctba_arr]
mov [cmdtable], eax ; address of virtual mapping of command table of command header
stdcall _memset, eax, 0, sizeof.HBA_CMD_TBL
call alloc_page
mov [buf_phys], eax
stdcall map_io_mem, eax, 4096, PG_NOCACHE + PG_SWR ; map to virt memory so we can work with it
mov [buf_virt], eax
mov eax, [cmdtable]
mov ebx, [buf_phys]
mov dword [eax + HBA_CMD_TBL.prdt_entry + HBA_PRDT_ENTRY.dba], ebx
mov dword [eax + HBA_CMD_TBL.prdt_entry + HBA_PRDT_ENTRY.dbau], 0
and [eax + HBA_CMD_TBL.prdt_entry + HBA_PRDT_ENTRY.flags], not 0x3FFFFF ; zero out lower 22 bits, they used for byte count
or [eax + HBA_CMD_TBL.prdt_entry + HBA_PRDT_ENTRY.flags], 512 - 1 ; reason why -1 see in spec on this field
; or [eax + HBA_CMD_TBL.prdt_entry + HBA_PRDT_ENTRY.flags], 1 shl 31 ; enable interrupt on completion
mov eax, [cmdheader]
and [eax + HBA_CMD_HDR.flags1], not 0x1F ; zero out lower 5 bits, they will be used for cfl
or [eax + HBA_CMD_HDR.flags1], (sizeof.FIS_REG_H2D / 4) ; set command fis length in dwords
movzx bx, [eax + HBA_CMD_HDR.flags1]
btr bx, 6 ; flag W = 0
mov [eax + HBA_CMD_HDR.flags1], bl
movzx bx, [eax + HBA_CMD_HDR.flags2]
btr bx, 2 ; flag C = 0
mov [eax + HBA_CMD_HDR.flags2], bl
mov [eax + HBA_CMD_HDR.prdtl], 1
mov eax, [cmdtable]
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.fis_type], FIS_TYPE_REG_H2D
movzx ebx, byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.flags]
bts ebx, bit_AHCI_H2D_FLAG_CMD ; Set Command bit in H2D FIS.
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.flags], bl
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.command], ATA_IDENTIFY
cmp [esi + PORT_DATA.drive_type], AHCI_DEV_SATAPI
jne @f
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.command], ATAPI_IDENTIFY
@@:
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.device], 0
; Wait on previous command to complete, before issuing new command.
stdcall ahci_port_wait, edi, AHCI_PORT_TIMEOUT
; DEBUGF 1, "eax = %x\n", eax
; TODO check eax error value
mov eax, [cmdslot]
bts [edi + HBA_PORT.command_issue], eax ; Issue the command
; Wait for command completion
stdcall ahci_port_cmd_wait, edi, eax;, AHCI_PORT_CMD_TIMEOUT
; DEBUGF 1, " eax = %x\n", eax
; TODO check eax error value
; DEBUGF 1, "sata_error register = 0x%x\n", [edi + HBA_PORT.sata_error]
mov esi, [buf_virt]
add esi, 27*2
mov edi, modelstr
mov ecx, ((46-27)+1)*2
cld
rep movsb
mov byte [edi], 0
stdcall swap_bytes_in_words, modelstr, (46-27)+1
DEBUGF 1, "IDENTIFICATION RESULT: MODEL = %s\n", modelstr
mov esi, [buf_virt]
mov eax, [esi + 200]
mov edx, [esi + 200 + 4]
DEBUGF 1, "lba48 mode sector count = 0x%x:%x\n", edx, eax
mov ebx, [pdata]
mov dword [ebx + PORT_DATA.sector_count], eax
mov dword [ebx + PORT_DATA.sector_count + 4], edx
shrd eax, edx, 11 ; i.e *512 / 1024 / 1024, 512 - sector size
DEBUGF 1, "disk capacity = %u MiB ", eax
shrd eax, edx, 10 ; / 1024
DEBUGF 1, "= %u GiB\n", eax
.ret:
popad
ret
endp
proc ahci_querymedia stdcall, pdata, mediainfo
push ecx edx
mov eax, [mediainfo]
mov edx, [pdata]
mov [eax + DISKMEDIAINFO.Flags], 0
mov [eax + DISKMEDIAINFO.SectorSize], 512
mov ecx, dword[edx + PORT_DATA.sector_count]
mov dword [eax + DISKMEDIAINFO.Capacity], ecx
mov ecx, dword[edx + PORT_DATA.sector_count + 4]
mov dword [eax + DISKMEDIAINFO.Capacity + 4], ecx
pop edx ecx
xor eax, eax
ret
endp
; Read/write sectors
; return value: 0 = success, otherwise = error
proc ahci_rw_sectors stdcall pdata: dword, vbuf: dword, startsector: qword, numsectors: dword, is_write: dword
locals
cmdslot dd ?
cmdheader dd ?
cmdtable dd ?
vbuf_orig dd ?
vbuf_len dd ?
phys_region_start dd ?
new_phys_region_start dd ?
cur_prd dd ?
cur_phys dd ?
dbc dd ?
cur_phys_page dd ?
next_phys_page dd ?
cur_antioffset dd ?
prdt_bytes_total dd ?
endl
pushad
DEBUGF AHCI_DBGLVL, " ahci_rw_sectors: buffer = 0x%x, startsector = 0x%x:%x, numsectors = %u, is_write = %u\n", [vbuf], [startsector], [startsector + 4], [numsectors], [is_write]:1
mov esi, [pdata] ; esi - address of PORT_DATA struct of port
mov edi, [esi + PORT_DATA.port] ; edi - address of HBA_PORT struct of port
mov eax, edi
call ahci_find_cmdslot
cmp eax, -1
jne .cmdslot_found
DEBUGF AHCI_DBGLVL, "No free cmdslot on port %u\n", [esi + PORT_DATA.portno]
jmp .fail
.cmdslot_found:
mov [cmdslot], eax
DEBUGF AHCI_DBGLVL, "Found free cmdslot %u on port %u\n", [cmdslot], [esi + PORT_DATA.portno]
shl eax, BSF sizeof.HBA_CMD_HDR
add eax, [esi + PORT_DATA.clb]
mov [cmdheader], eax ; address of virtual mapping of command header
mov eax, [cmdslot]
mov eax, [esi + eax*4 + PORT_DATA.ctba_arr]
mov [cmdtable], eax ; address of virtual mapping of command table of command header
mov eax, [cmdheader]
and [eax + HBA_CMD_HDR.flags1], not 0x1F ; zero out lower 5 bits, they will be used for cfl
or [eax + HBA_CMD_HDR.flags1], (sizeof.FIS_REG_H2D / 4) ; set command fis length in dwords
movzx bx, [eax + HBA_CMD_HDR.flags1]
btr bx, 6 ; flag W = 0
cmp [is_write], 1 ; if is_write then set W flag
jne @f
bts bx, 6
@@:
mov [eax + HBA_CMD_HDR.flags1], bl
movzx bx, [eax + HBA_CMD_HDR.flags2]
btr bx, 2 ; flag C = 0
mov [eax + HBA_CMD_HDR.flags2], bl
mov eax, [vbuf]
mov [vbuf_orig], eax
mov ebx, [numsectors]
shl ebx, 9 ; *= 512
mov [vbuf_len], ebx
DEBUGF AHCI_DBGLVL, "vbuf_len = %u bytes\n", ebx
mov ebx, [vbuf]
and ebx, 0xFFF
mov eax, [vbuf]
call get_pg_addr
add eax, ebx
mov [phys_region_start], eax
mov [prdt_bytes_total], 0
mov [cur_prd], 0
.fill_prdt:
cmp [vbuf_len], 0
jbe .fill_prdt_end
mov eax, [vbuf]
call get_pg_addr
mov [cur_phys_page], eax
mov eax, [vbuf]
add eax, 4096
call get_pg_addr
mov [next_phys_page], eax
mov eax, 4096
mov ebx, [vbuf]
and ebx, 0xFFF
sub eax, ebx
mov [cur_antioffset], eax
mov eax, [cur_phys_page]
add eax, ebx
mov [cur_phys], eax
.check_if1:
mov eax, [vbuf_len]
cmp eax, [cur_antioffset]
ja .check_if2
mov eax, [cur_phys]
sub eax, [phys_region_start]
add eax, [vbuf_len]
dec eax
mov [dbc], eax
mov eax, [next_phys_page]
mov [new_phys_region_start], eax
jmp .add_prd
.check_if2:
mov eax, [cur_phys]
add eax, [cur_antioffset]
cmp eax, [next_phys_page]
je .check_if3
mov eax, [cur_phys]
add eax, [cur_antioffset]
sub eax, [phys_region_start]
dec eax
mov [dbc], eax
mov eax, [next_phys_page]
mov [new_phys_region_start], eax
jmp .add_prd
.check_if3:
mov eax, [cur_phys]
add eax, [cur_antioffset]
sub eax, [phys_region_start]
cmp eax, 4*1024*1024
jb .after_ifs
mov [dbc], 4*1024*1024 - 1
mov eax, [phys_region_start]
add eax, 4*1024*1024
jmp .add_prd
.after_ifs:
jmp .step_next
.add_prd:
mov ebx, [cur_prd]
shl ebx, BSF sizeof.HBA_PRDT_ENTRY
add ebx, [cmdtable]
add ebx, HBA_CMD_TBL.prdt_entry ; now ebx - address of 'th prdt_entry
DEBUGF AHCI_DBGLVL, "Added PRDT entry: dba = 0x%x, dbc = %u\n", [phys_region_start], [dbc]
mov eax, [phys_region_start]
mov [ebx + HBA_PRDT_ENTRY.dba], eax
mov [ebx + HBA_PRDT_ENTRY.dbau], 0
and [ebx + HBA_PRDT_ENTRY.flags], not 0x3FFFFF ; zero out lower 22 bits, they used for byte count
mov eax, [dbc]
or [ebx + HBA_PRDT_ENTRY.flags], eax
inc [cur_prd]
mov eax, [dbc]
inc eax
add [prdt_bytes_total], eax
mov eax, [new_phys_region_start]
mov [phys_region_start], eax
cmp [cur_prd], PRDT_MAX_ENTRIES
jne @f
jmp .fill_prdt_end
@@:
.step_next:
mov eax, [vbuf_len]
cmp eax, [cur_antioffset]
jbe @f
mov eax, [cur_antioffset]
@@:
add [vbuf], eax
sub [vbuf_len], eax
jmp .fill_prdt
.fill_prdt_end:
mov eax, [cmdheader]
mov ebx, [cur_prd]
DEBUGF AHCI_DBGLVL, " PRDTL = %u\n", ebx
mov [eax + HBA_CMD_HDR.prdtl], bx
mov eax, [prdt_bytes_total]
DEBUGF AHCI_DBGLVL, " prdt_bytes_total = %u\n", eax
shr eax, 9 ; /= 512
mov [numsectors], eax
mov eax, [cmdtable]
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.fis_type], FIS_TYPE_REG_H2D
movzx ebx, byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.flags]
bts ebx, bit_AHCI_H2D_FLAG_CMD ; Set Command bit in H2D FIS.
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.flags], bl
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.command], ATA_CMD_READ_DMA_EX
cmp [is_write], 1
jne @f
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.command], ATA_CMD_WRITE_DMA_EX
@@:
mov ebx, dword [startsector]
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.lba0], bl
shr ebx, 8
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.lba1], bl
shr ebx, 8
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.lba2], bl
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.device], 1 shl 6 ; LBA mode
shr ebx, 8
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.lba3], bl
mov ebx, dword [startsector + 4]
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.lba4], bl
shr ebx, 8
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.lba5], bl
mov ebx, [numsectors]
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.countl], bl
shr ebx, 8
mov byte [eax + HBA_CMD_TBL.cfis + FIS_REG_H2D.counth], bl
; Wait on previous command to complete, before issuing new command.
stdcall ahci_port_wait, edi, AHCI_PORT_TIMEOUT
mov eax, [cmdslot]
bts [edi + HBA_PORT.command_issue], eax ; Issue the command
; Wait for command completion
stdcall ahci_port_cmd_wait, edi, eax;, AHCI_PORT_CMD_TIMEOUT
DEBUGF AHCI_DBGLVL, "sata_error register = 0x%x\n", [edi + HBA_PORT.sata_error]
DEBUGF AHCI_DBGLVL, "R/W completed\n"
; xor ecx, ecx
; mov esi, [vbuf_orig]
; .print_data:
; cmp ecx, 512
; jae .end_print_data
; mov al, byte [esi + ecx]
; mov byte [tmpstr], al
; mov byte [tmpstr + 1], 0
; DEBUGF 1, "0x%x(%s) ", al:2, tmpstr
; inc ecx
; jmp .print_data
; .end_print_data:
; DEBUGF 1, "\n"
popad
;mov eax, [cmdheader]
;mov eax, [eax + HBA_CMD_HDR.prdbc]
mov eax, [numsectors]
shl eax, 9 ; *= 512
ret
.fail:
popad
xor eax, eax
ret
endp
tmpstr rb 16
; Read sectors
; return value: 0 = success, otherwise = error
proc ahci_read stdcall pdata: dword, buffer: dword, startsector: qword, numsectors_ptr:dword
locals
numsectors dd ?
endl
pushad
mov ecx, ahci_mutex
call mutex_lock
mov eax, [numsectors_ptr]
mov eax, [eax]
mov [numsectors], eax
DEBUGF AHCI_DBGLVL, " ahci_read: buffer = 0x%x, startsector = 0x%x:%x, numsectors = %u\n", [buffer], [startsector], [startsector + 4], eax
xor ecx, ecx ; how many sectors have been read
.read_loop:
cmp ecx, [numsectors]
jae .read_loop_end
; mov eax, [buffer]
; call get_pg_addr
; DEBUGF 1, "buf phys = 0x%x\n", eax
; mov eax, [buffer]
; add eax, 4096
; call get_pg_addr
; DEBUGF 1, "buf + 4096 phys = 0x%x\n", eax
mov ebx, [numsectors]
sub ebx, ecx
; DEBUGF 1, "buffer = 0x%x\n", [buffer]
stdcall ahci_rw_sectors, [pdata], [buffer], dword [startsector], dword [startsector + 4], ebx, 0
;; TODO check if eax == 0 ?
DEBUGF AHCI_DBGLVL, " EAX = 0x%x\n", eax
add [buffer], eax
shr eax, 9 ; /= 512
add ecx, eax
add dword [startsector], eax
adc dword [startsector + 4], 0
jmp .read_loop
.read_loop_end:
mov ecx, ahci_mutex
call mutex_unlock
popad
xor eax, eax
ret
endp
; Write sectors
; return value: 0 = success, otherwise = error
proc ahci_write stdcall pdata: dword, buffer: dword, startsector: qword, numsectors_ptr:dword
locals
numsectors dd ?
endl
pushad
mov ecx, ahci_mutex
call mutex_lock
mov eax, [numsectors_ptr]
mov eax, [eax]
mov [numsectors], eax
DEBUGF AHCI_DBGLVL, " ahci_write: buffer = 0x%x, startsector = 0x%x:%x, numsectors = %u\n", [buffer], [startsector], [startsector + 4], eax
xor ecx, ecx ; how many sectors have been read
.write_loop:
cmp ecx, [numsectors]
jae .write_loop_end
mov ebx, [numsectors]
sub ebx, ecx
stdcall ahci_rw_sectors, [pdata], [buffer], dword [startsector], dword [startsector + 4], ebx, 1
;; TODO check if eax == 0 ?
DEBUGF AHCI_DBGLVL, " EAX = 0x%x\n", eax
add [buffer], eax
shr eax, 9 ; /= 512
add ecx, eax
add dword [startsector], eax
adc dword [startsector + 4], 0
jmp .write_loop
.write_loop_end:
mov ecx, ahci_mutex
call mutex_unlock
popad
xor eax, eax
ret
endp
; Start command engine
; in: eax - address of HBA_PORT structure
ahci_start_cmd:
.wait_cr: ; Wait until CR (bit15) is cleared
bt [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_CR
jc .wait_cr
; Set FRE (bit4) and ST (bit0)
bts [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_FRE
bts [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_ST
; maybe here call ahci flush cmd ? TODO (see seakernel)
ret
; Stop command engine
; in: eax - address of HBA_PORT structure
ahci_stop_cmd:
btr [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_ST ; Clear ST (bit0)
btr [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_FRE ; Clear FRE (bit4)
.wait_fr_cr: ; Wait until FR (bit14), CR (bit15) are cleared
bt [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_FR
jc .wait_fr_cr
bt [eax + HBA_PORT.command], bit_AHCI_HBA_PxCMD_CR
jc .wait_fr_cr
ret
; waits until the port is no longer busy before issuing a new command
; in: [port] - address of HBA_PORT structure
; [timeout] - timeout (in iterations)
; out: eax = 0 if success, 1 if timeout expired
proc ahci_port_wait stdcall, port: dword, timeout: dword
push ebx ecx
mov ebx, [port]
xor ecx, ecx
.wait:
cmp ecx, [timeout]
jae .wait_end
mov eax, [ebx + HBA_PORT.task_file_data]
and eax, ATA_DEV_BUSY or ATA_DEV_DRQ
test eax, eax
jz .wait_end
inc ecx
jmp .wait
.wait_end:
xor eax, eax
DEBUGF AHCI_DBGLVL, "port wait counter = %u\n", ecx
cmp ecx, [timeout] ; if they equal it means port is hung
setz al
pop ecx ebx
ret
endp
; Wait for command completion
; in: [port] - address of HBA_PORT structure
; [cmdslot] - number of command slot
; out: eax = 0 if success, 1 if error
proc ahci_port_cmd_wait stdcall, port: dword, cmdslot: dword ;, timeout: dword
push ebx ecx edx
mov ebx, [port]
mov edx, [cmdslot]
xor eax, eax
xor ecx, ecx
.wait:
bt [ebx + HBA_PORT.command_issue], edx
jnc .wait_end
bt [ebx + HBA_PORT.interrupt_status], bit_AHCI_HBA_PxIS_TFES ; check for Task File Error
jc .error
inc ecx
jmp .wait
.wait_end:
DEBUGF AHCI_DBGLVL, "port cmd wait counter = %u\n", ecx
bt [ebx + HBA_PORT.interrupt_status], bit_AHCI_HBA_PxIS_TFES ; check for Task File Error
jc .error
jmp .ret
.error:
mov eax, 1
.ret:
pop edx ecx ebx
ret
endp
; ; The commands may not take effect until the command
; ; register is read again by software, because reasons.
; ; in: eax - address of HBA_PORT structure
; ; out: eax - command register value
; ahci_flush_cmd:
; mov eax, [eax + HBA_PORT.command]
; ret
; ; Send command to port
; ; in: eax - address of HBA_PORT structure
; ; ebx - index of command slot
; ahci_send_cmd:
; push ecx
; mov [eax + HBA_PORT.interrupt_status], 0xFFFFFFFF
; mov cl, bl
; mov [eax + HBA_PORT.command_issue], 1
; shl [eax + HBA_PORT.command_issue], cl
; call ahci_flush_cmd
; pop ecx
; ret
; ---------------------------------------------------------------------------
; in: port - address of HBA_PORT structure
; portno - port index (0..31)
; pdata - address of PORT_DATA structure
proc ahci_port_rebase stdcall, port: dword, portno: dword, pdata: dword
locals
phys_page1 dd ?
virt_page1 dd ?
phys_page23 dd ?
virt_page23 dd ?
tmp dd ?
endl
pushad
DEBUGF 1, "Rebasing port %u\n", [portno]
mov eax, [port]
call ahci_stop_cmd
; Command list entry size = 32
; Command list entry maxim count = 32
; Command list maxim size = 32*32 = 1K per port
call alloc_page
mov [phys_page1], eax
stdcall map_io_mem, eax, 4096, PG_NOCACHE + PG_SWR ; map to virt memory so we can work with it
mov [virt_page1], eax
mov esi, [port]
mov ebx, [phys_page1]
mov [esi + HBA_PORT.command_list_base_l], ebx ; set the command list base
mov [esi + HBA_PORT.command_list_base_h], 0 ; zero upper 32 bits of addr cause we are 32 bit os
mov edi, [pdata]
mov ebx, [virt_page1]
mov [edi + PORT_DATA.clb], ebx ; set pdata->clb
mov eax, [port]
mov [edi + PORT_DATA.port], eax ; set pdata->port
mov eax, [portno] ; set pdata->portno
mov [edi + PORT_DATA.portno], eax
stdcall _memset, ebx, 0, 1024 ; zero out the command list
; FIS entry size = 256 bytes per port
mov eax, [phys_page1]
add eax, 1024
mov [esi + HBA_PORT.fis_base_l], eax
mov [esi + HBA_PORT.fis_base_h], 0
mov eax, [virt_page1]
add eax, 1024
mov [edi + PORT_DATA.fb], eax ; set pdata->fb
stdcall _memset, eax, 0, 256 ; zero out
stdcall alloc_pages, 32*(64 + 16 + 48 + PRDT_MAX_ENTRIES*16)/4096
mov [phys_page23], eax
stdcall map_io_mem, eax, 32*(64 + 16 + 48 + PRDT_MAX_ENTRIES*16), PG_NOCACHE + PG_SWR
mov [virt_page23], eax
; Command table size = N*32 per port
mov edx, [edi + PORT_DATA.clb] ; cmdheader array base
xor ecx, ecx
.for1:
cmp ecx, 32
jae .for1_end
mov ebx, ecx
shl ebx, BSF sizeof.HBA_CMD_HDR
add ebx, edx ; ebx = cmdheader[ecx]
mov [ebx + HBA_CMD_HDR.prdtl], PRDT_MAX_ENTRIES ; prdt entries per command table
; bytes per command table = 64+16+48+PRDT_MAX_ENTRIES*16 = N
push edx
; cmdheader[ecx].ctba = phys_page23 + ecx*N
mov [ebx + HBA_CMD_HDR.ctba], ecx
mov edx, [ebx + HBA_CMD_HDR.ctba]
imul edx, (64+16+48+PRDT_MAX_ENTRIES*16) ; *= N
mov [ebx + HBA_CMD_HDR.ctba], edx
mov eax, [ebx + HBA_CMD_HDR.ctba]
mov edx, [phys_page23]
add [ebx + HBA_CMD_HDR.ctba], edx
add eax, [virt_page23]
mov [tmp], eax ; tmp = virt_page23 + ecx*N
lea eax, [ecx*4 + edi + PORT_DATA.ctba_arr] ; eax = pdata->ctba_arr[ecx]
mov edx, [tmp]
mov [eax], edx ; pdata->ctba_arr[ecx] = virt_page23 + ecx*N
pop edx
mov [ebx + HBA_CMD_HDR.ctbau], 0
stdcall _memset, [eax], 0, 64+16+48+PRDT_MAX_ENTRIES*16 ; zero out
inc ecx
jmp .for1
.for1_end:
mov eax, [port]
call ahci_start_cmd
DEBUGF 1, "End rebasing port %u\n", [portno]
popad
ret
endp
; ----------------------------------------------------------- ; TODO check
; Find a free command list slot
; in: eax - address of HBA_PORT structure
; out: eax - if not found -1, else slot index
ahci_find_cmdslot:
push ebx ecx edx esi
; If not set in SACT and CI, the slot is free
mov ebx, [eax + HBA_PORT.sata_active]
or ebx, [eax + HBA_PORT.command_issue] ; ebx = slots
mov esi, [ahci_controller + AHCI_DATA.abar]
mov edx, [esi + HBA_MEM.cap]
shr edx, 8
and edx, 0xf
; DEBUGF 1, "Number of Command Slots on each port = %u\n", edx
xor ecx, ecx
.for1:
cmp ecx, edx
jae .for1_end
; if ((slots&1) == 0) return i;
bt ebx, 0
jc .cont1
mov eax, ecx
jmp .ret
.cont1:
shr ebx, 1
inc ecx
jmp .for1
.for1_end:
DEBUGF 1, "Cannot find free command list entry\n"
mov eax, -1
.ret:
pop esi edx ecx ebx
ret
proc _memset stdcall, dest:dword, val:byte, cnt:dword ; doesnt clobber any registers
;DEBUGF DBG_INFO, "memset(%x, %u, %u)\n", [dest], [val], [cnt]
push eax ecx edi
mov edi, dword [dest]
mov al, byte [val]
mov ecx, dword [cnt]
rep stosb
pop edi ecx eax
ret
endp
; Swaps byte order in words
; base - address of first word
; len - how many words to swap bytes in
; doesnt clobber any registers
proc swap_bytes_in_words stdcall, base: dword, len: dword
push eax ebx ecx
xor ecx, ecx
mov ebx, [base]
.loop:
cmp ecx, [len]
jae .loop_end
mov ax, word [ebx + ecx*2]
xchg ah, al
mov word [ebx + ecx*2], ax
inc ecx
jmp .loop
.loop_end:
pop ecx ebx eax
ret
endp