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|
/*
* SD Memory Card emulation as defined in the "SD Memory Card Physical
* layer specification, Version 2.00."
*
* Copyright (c) 2006 Andrzej Zaborowski <balrog@zabor.org>
* Copyright (c) 2007 CodeSourcery
* Copyright (c) 2018 Philippe Mathieu-Daudé <f4bug@amsat.org>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "qemu/osdep.h"
#include "qemu/units.h"
#include "qemu/cutils.h"
#include "hw/irq.h"
#include "hw/registerfields.h"
#include "sysemu/block-backend.h"
#include "hw/sd/sd.h"
#include "hw/sd/sdcard_legacy.h"
#include "migration/vmstate.h"
#include "qapi/error.h"
#include "qemu/bitmap.h"
#include "hw/qdev-properties.h"
#include "hw/qdev-properties-system.h"
#include "qemu/error-report.h"
#include "qemu/timer.h"
#include "qemu/log.h"
#include "qemu/module.h"
#include "qemu-common.h"
#include "sdmmc-internal.h"
#include "trace.h"
//#define DEBUG_SD 1
#define SDSC_MAX_CAPACITY (2 * GiB)
#define INVALID_ADDRESS UINT32_MAX
typedef enum {
sd_r0 = 0, /* no response */
sd_r1, /* normal response command */
sd_r2_i, /* CID register */
sd_r2_s, /* CSD register */
sd_r3, /* OCR register */
sd_r6 = 6, /* Published RCA response */
sd_r7, /* Operating voltage */
sd_r1b = -1,
sd_illegal = -2,
} sd_rsp_type_t;
enum SDCardModes {
sd_inactive,
sd_card_identification_mode,
sd_data_transfer_mode,
};
enum SDCardStates {
sd_inactive_state = -1,
sd_idle_state = 0,
sd_ready_state,
sd_identification_state,
sd_standby_state,
sd_transfer_state,
sd_sendingdata_state,
sd_receivingdata_state,
sd_programming_state,
sd_disconnect_state,
};
struct SDState {
DeviceState parent_obj;
/* If true, created by sd_init() for a non-qdevified caller */
/* TODO purge them with fire */
bool me_no_qdev_me_kill_mammoth_with_rocks;
/* SD Memory Card Registers */
uint32_t ocr;
uint8_t scr[8];
uint8_t cid[16];
uint8_t csd[16];
uint16_t rca;
uint32_t card_status;
uint8_t sd_status[64];
/* Static properties */
uint8_t spec_version;
BlockBackend *blk;
bool spi;
/* Runtime changeables */
uint32_t mode; /* current card mode, one of SDCardModes */
int32_t state; /* current card state, one of SDCardStates */
uint32_t vhs;
bool wp_switch;
unsigned long *wp_group_bmap;
int32_t wp_group_bits;
uint64_t size;
uint32_t blk_len;
uint32_t multi_blk_cnt;
uint32_t erase_start;
uint32_t erase_end;
uint8_t pwd[16];
uint32_t pwd_len;
uint8_t function_group[6];
uint8_t current_cmd;
/* True if we will handle the next command as an ACMD. Note that this does
* *not* track the APP_CMD status bit!
*/
bool expecting_acmd;
uint32_t blk_written;
uint64_t data_start;
uint32_t data_offset;
uint8_t data[512];
qemu_irq readonly_cb;
qemu_irq inserted_cb;
QEMUTimer *ocr_power_timer;
const char *proto_name;
bool enable;
uint8_t dat_lines;
bool cmd_line;
};
static void sd_realize(DeviceState *dev, Error **errp);
static const char *sd_state_name(enum SDCardStates state)
{
static const char *state_name[] = {
[sd_idle_state] = "idle",
[sd_ready_state] = "ready",
[sd_identification_state] = "identification",
[sd_standby_state] = "standby",
[sd_transfer_state] = "transfer",
[sd_sendingdata_state] = "sendingdata",
[sd_receivingdata_state] = "receivingdata",
[sd_programming_state] = "programming",
[sd_disconnect_state] = "disconnect",
};
if (state == sd_inactive_state) {
return "inactive";
}
assert(state < ARRAY_SIZE(state_name));
return state_name[state];
}
static const char *sd_response_name(sd_rsp_type_t rsp)
{
static const char *response_name[] = {
[sd_r0] = "RESP#0 (no response)",
[sd_r1] = "RESP#1 (normal cmd)",
[sd_r2_i] = "RESP#2 (CID reg)",
[sd_r2_s] = "RESP#2 (CSD reg)",
[sd_r3] = "RESP#3 (OCR reg)",
[sd_r6] = "RESP#6 (RCA)",
[sd_r7] = "RESP#7 (operating voltage)",
};
if (rsp == sd_illegal) {
return "ILLEGAL RESP";
}
if (rsp == sd_r1b) {
rsp = sd_r1;
}
assert(rsp < ARRAY_SIZE(response_name));
return response_name[rsp];
}
static uint8_t sd_get_dat_lines(SDState *sd)
{
return sd->enable ? sd->dat_lines : 0;
}
static bool sd_get_cmd_line(SDState *sd)
{
return sd->enable ? sd->cmd_line : false;
}
static void sd_set_voltage(SDState *sd, uint16_t millivolts)
{
trace_sdcard_set_voltage(millivolts);
switch (millivolts) {
case 3001 ... 3600: /* SD_VOLTAGE_3_3V */
case 2001 ... 3000: /* SD_VOLTAGE_3_0V */
break;
default:
qemu_log_mask(LOG_GUEST_ERROR, "SD card voltage not supported: %.3fV",
millivolts / 1000.f);
}
}
static void sd_set_mode(SDState *sd)
{
switch (sd->state) {
case sd_inactive_state:
sd->mode = sd_inactive;
break;
case sd_idle_state:
case sd_ready_state:
case sd_identification_state:
sd->mode = sd_card_identification_mode;
break;
case sd_standby_state:
case sd_transfer_state:
case sd_sendingdata_state:
case sd_receivingdata_state:
case sd_programming_state:
case sd_disconnect_state:
sd->mode = sd_data_transfer_mode;
break;
}
}
static const sd_cmd_type_t sd_cmd_type[SDMMC_CMD_MAX] = {
sd_bc, sd_none, sd_bcr, sd_bcr, sd_none, sd_none, sd_none, sd_ac,
sd_bcr, sd_ac, sd_ac, sd_adtc, sd_ac, sd_ac, sd_none, sd_ac,
/* 16 */
sd_ac, sd_adtc, sd_adtc, sd_none, sd_none, sd_none, sd_none, sd_none,
sd_adtc, sd_adtc, sd_adtc, sd_adtc, sd_ac, sd_ac, sd_adtc, sd_none,
/* 32 */
sd_ac, sd_ac, sd_none, sd_none, sd_none, sd_none, sd_ac, sd_none,
sd_none, sd_none, sd_bc, sd_none, sd_none, sd_none, sd_none, sd_none,
/* 48 */
sd_none, sd_none, sd_none, sd_none, sd_none, sd_none, sd_none, sd_ac,
sd_adtc, sd_none, sd_none, sd_none, sd_none, sd_none, sd_none, sd_none,
};
static const int sd_cmd_class[SDMMC_CMD_MAX] = {
0, 0, 0, 0, 0, 9, 10, 0, 0, 0, 0, 1, 0, 0, 0, 0,
2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 6, 6, 6, 6,
5, 5, 10, 10, 10, 10, 5, 9, 9, 9, 7, 7, 7, 7, 7, 7,
7, 7, 10, 7, 9, 9, 9, 8, 8, 10, 8, 8, 8, 8, 8, 8,
};
static uint8_t sd_crc7(const void *message, size_t width)
{
int i, bit;
uint8_t shift_reg = 0x00;
const uint8_t *msg = (const uint8_t *)message;
for (i = 0; i < width; i ++, msg ++)
for (bit = 7; bit >= 0; bit --) {
shift_reg <<= 1;
if ((shift_reg >> 7) ^ ((*msg >> bit) & 1))
shift_reg ^= 0x89;
}
return shift_reg;
}
#define OCR_POWER_DELAY_NS 500000 /* 0.5ms */
FIELD(OCR, VDD_VOLTAGE_WINDOW, 0, 24)
FIELD(OCR, VDD_VOLTAGE_WIN_LO, 0, 8)
FIELD(OCR, DUAL_VOLTAGE_CARD, 7, 1)
FIELD(OCR, VDD_VOLTAGE_WIN_HI, 8, 16)
FIELD(OCR, ACCEPT_SWITCH_1V8, 24, 1) /* Only UHS-I */
FIELD(OCR, UHS_II_CARD, 29, 1) /* Only UHS-II */
FIELD(OCR, CARD_CAPACITY, 30, 1) /* 0:SDSC, 1:SDHC/SDXC */
FIELD(OCR, CARD_POWER_UP, 31, 1)
#define ACMD41_ENQUIRY_MASK 0x00ffffff
#define ACMD41_R3_MASK (R_OCR_VDD_VOLTAGE_WIN_HI_MASK \
| R_OCR_ACCEPT_SWITCH_1V8_MASK \
| R_OCR_UHS_II_CARD_MASK \
| R_OCR_CARD_CAPACITY_MASK \
| R_OCR_CARD_POWER_UP_MASK)
static void sd_ocr_powerup(void *opaque)
{
SDState *sd = opaque;
trace_sdcard_powerup();
assert(!FIELD_EX32(sd->ocr, OCR, CARD_POWER_UP));
/* card power-up OK */
sd->ocr = FIELD_DP32(sd->ocr, OCR, CARD_POWER_UP, 1);
if (sd->size > SDSC_MAX_CAPACITY) {
sd->ocr = FIELD_DP32(sd->ocr, OCR, CARD_CAPACITY, 1);
}
}
static void sd_set_ocr(SDState *sd)
{
/* All voltages OK */
sd->ocr = R_OCR_VDD_VOLTAGE_WIN_HI_MASK;
if (sd->spi) {
/*
* We don't need to emulate power up sequence in SPI-mode.
* Thus, the card's power up status bit should be set to 1 when reset.
* The card's capacity status bit should also be set if SD card size
* is larger than 2GB for SDHC support.
*/
sd_ocr_powerup(sd);
}
}
static void sd_set_scr(SDState *sd)
{
sd->scr[0] = 0 << 4; /* SCR structure version 1.0 */
if (sd->spec_version == SD_PHY_SPECv1_10_VERS) {
sd->scr[0] |= 1; /* Spec Version 1.10 */
} else {
sd->scr[0] |= 2; /* Spec Version 2.00 or Version 3.0X */
}
sd->scr[1] = (2 << 4) /* SDSC Card (Security Version 1.01) */
| 0b0101; /* 1-bit or 4-bit width bus modes */
sd->scr[2] = 0x00; /* Extended Security is not supported. */
if (sd->spec_version >= SD_PHY_SPECv3_01_VERS) {
sd->scr[2] |= 1 << 7; /* Spec Version 3.0X */
}
sd->scr[3] = 0x00;
/* reserved for manufacturer usage */
sd->scr[4] = 0x00;
sd->scr[5] = 0x00;
sd->scr[6] = 0x00;
sd->scr[7] = 0x00;
}
#define MID 0xaa
#define OID "XY"
#define PNM "QEMU!"
#define PRV 0x01
#define MDT_YR 2006
#define MDT_MON 2
static void sd_set_cid(SDState *sd)
{
sd->cid[0] = MID; /* Fake card manufacturer ID (MID) */
sd->cid[1] = OID[0]; /* OEM/Application ID (OID) */
sd->cid[2] = OID[1];
sd->cid[3] = PNM[0]; /* Fake product name (PNM) */
sd->cid[4] = PNM[1];
sd->cid[5] = PNM[2];
sd->cid[6] = PNM[3];
sd->cid[7] = PNM[4];
sd->cid[8] = PRV; /* Fake product revision (PRV) */
sd->cid[9] = 0xde; /* Fake serial number (PSN) */
sd->cid[10] = 0xad;
sd->cid[11] = 0xbe;
sd->cid[12] = 0xef;
sd->cid[13] = 0x00 | /* Manufacture date (MDT) */
((MDT_YR - 2000) / 10);
sd->cid[14] = ((MDT_YR % 10) << 4) | MDT_MON;
sd->cid[15] = (sd_crc7(sd->cid, 15) << 1) | 1;
}
#define HWBLOCK_SHIFT 9 /* 512 bytes */
#define SECTOR_SHIFT 5 /* 16 kilobytes */
#define WPGROUP_SHIFT 7 /* 2 megs */
#define CMULT_SHIFT 9 /* 512 times HWBLOCK_SIZE */
#define WPGROUP_SIZE (1 << (HWBLOCK_SHIFT + SECTOR_SHIFT + WPGROUP_SHIFT))
static const uint8_t sd_csd_rw_mask[16] = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xfc, 0xfe,
};
static void sd_set_csd(SDState *sd, uint64_t size)
{
int hwblock_shift = HWBLOCK_SHIFT;
uint32_t csize;
uint32_t sectsize = (1 << (SECTOR_SHIFT + 1)) - 1;
uint32_t wpsize = (1 << (WPGROUP_SHIFT + 1)) - 1;
/* To indicate 2 GiB card, BLOCK_LEN shall be 1024 bytes */
if (size == SDSC_MAX_CAPACITY) {
hwblock_shift += 1;
}
csize = (size >> (CMULT_SHIFT + hwblock_shift)) - 1;
if (size <= SDSC_MAX_CAPACITY) { /* Standard Capacity SD */
sd->csd[0] = 0x00; /* CSD structure */
sd->csd[1] = 0x26; /* Data read access-time-1 */
sd->csd[2] = 0x00; /* Data read access-time-2 */
sd->csd[3] = 0x32; /* Max. data transfer rate: 25 MHz */
sd->csd[4] = 0x5f; /* Card Command Classes */
sd->csd[5] = 0x50 | /* Max. read data block length */
hwblock_shift;
sd->csd[6] = 0xe0 | /* Partial block for read allowed */
((csize >> 10) & 0x03);
sd->csd[7] = 0x00 | /* Device size */
((csize >> 2) & 0xff);
sd->csd[8] = 0x3f | /* Max. read current */
((csize << 6) & 0xc0);
sd->csd[9] = 0xfc | /* Max. write current */
((CMULT_SHIFT - 2) >> 1);
sd->csd[10] = 0x40 | /* Erase sector size */
(((CMULT_SHIFT - 2) << 7) & 0x80) | (sectsize >> 1);
sd->csd[11] = 0x00 | /* Write protect group size */
((sectsize << 7) & 0x80) | wpsize;
sd->csd[12] = 0x90 | /* Write speed factor */
(hwblock_shift >> 2);
sd->csd[13] = 0x20 | /* Max. write data block length */
((hwblock_shift << 6) & 0xc0);
sd->csd[14] = 0x00; /* File format group */
} else { /* SDHC */
size /= 512 * KiB;
size -= 1;
sd->csd[0] = 0x40;
sd->csd[1] = 0x0e;
sd->csd[2] = 0x00;
sd->csd[3] = 0x32;
sd->csd[4] = 0x5b;
sd->csd[5] = 0x59;
sd->csd[6] = 0x00;
sd->csd[7] = (size >> 16) & 0xff;
sd->csd[8] = (size >> 8) & 0xff;
sd->csd[9] = (size & 0xff);
sd->csd[10] = 0x7f;
sd->csd[11] = 0x80;
sd->csd[12] = 0x0a;
sd->csd[13] = 0x40;
sd->csd[14] = 0x00;
}
sd->csd[15] = (sd_crc7(sd->csd, 15) << 1) | 1;
}
static void sd_set_rca(SDState *sd)
{
sd->rca += 0x4567;
}
FIELD(CSR, AKE_SEQ_ERROR, 3, 1)
FIELD(CSR, APP_CMD, 5, 1)
FIELD(CSR, FX_EVENT, 6, 1)
FIELD(CSR, READY_FOR_DATA, 8, 1)
FIELD(CSR, CURRENT_STATE, 9, 4)
FIELD(CSR, ERASE_RESET, 13, 1)
FIELD(CSR, CARD_ECC_DISABLED, 14, 1)
FIELD(CSR, WP_ERASE_SKIP, 15, 1)
FIELD(CSR, CSD_OVERWRITE, 16, 1)
FIELD(CSR, DEFERRED_RESPONSE, 17, 1)
FIELD(CSR, ERROR, 19, 1)
FIELD(CSR, CC_ERROR, 20, 1)
FIELD(CSR, CARD_ECC_FAILED, 21, 1)
FIELD(CSR, ILLEGAL_COMMAND, 22, 1)
FIELD(CSR, COM_CRC_ERROR, 23, 1)
FIELD(CSR, LOCK_UNLOCK_FAILED, 24, 1)
FIELD(CSR, CARD_IS_LOCKED, 25, 1)
FIELD(CSR, WP_VIOLATION, 26, 1)
FIELD(CSR, ERASE_PARAM, 27, 1)
FIELD(CSR, ERASE_SEQ_ERROR, 28, 1)
FIELD(CSR, BLOCK_LEN_ERROR, 29, 1)
FIELD(CSR, ADDRESS_ERROR, 30, 1)
FIELD(CSR, OUT_OF_RANGE, 31, 1)
/* Card status bits, split by clear condition:
* A : According to the card current state
* B : Always related to the previous command
* C : Cleared by read
*/
#define CARD_STATUS_A (R_CSR_READY_FOR_DATA_MASK \
| R_CSR_CARD_ECC_DISABLED_MASK \
| R_CSR_CARD_IS_LOCKED_MASK)
#define CARD_STATUS_B (R_CSR_CURRENT_STATE_MASK \
| R_CSR_ILLEGAL_COMMAND_MASK \
| R_CSR_COM_CRC_ERROR_MASK)
#define CARD_STATUS_C (R_CSR_AKE_SEQ_ERROR_MASK \
| R_CSR_APP_CMD_MASK \
| R_CSR_ERASE_RESET_MASK \
| R_CSR_WP_ERASE_SKIP_MASK \
| R_CSR_CSD_OVERWRITE_MASK \
| R_CSR_ERROR_MASK \
| R_CSR_CC_ERROR_MASK \
| R_CSR_CARD_ECC_FAILED_MASK \
| R_CSR_LOCK_UNLOCK_FAILED_MASK \
| R_CSR_WP_VIOLATION_MASK \
| R_CSR_ERASE_PARAM_MASK \
| R_CSR_ERASE_SEQ_ERROR_MASK \
| R_CSR_BLOCK_LEN_ERROR_MASK \
| R_CSR_ADDRESS_ERROR_MASK \
| R_CSR_OUT_OF_RANGE_MASK)
static void sd_set_cardstatus(SDState *sd)
{
sd->card_status = 0x00000100;
}
static void sd_set_sdstatus(SDState *sd)
{
memset(sd->sd_status, 0, 64);
}
static int sd_req_crc_validate(SDRequest *req)
{
uint8_t buffer[5];
buffer[0] = 0x40 | req->cmd;
stl_be_p(&buffer[1], req->arg);
return 0;
return sd_crc7(buffer, 5) != req->crc; /* TODO */
}
static void sd_response_r1_make(SDState *sd, uint8_t *response)
{
stl_be_p(response, sd->card_status);
/* Clear the "clear on read" status bits */
sd->card_status &= ~CARD_STATUS_C;
}
static void sd_response_r3_make(SDState *sd, uint8_t *response)
{
stl_be_p(response, sd->ocr & ACMD41_R3_MASK);
}
static void sd_response_r6_make(SDState *sd, uint8_t *response)
{
uint16_t status;
status = ((sd->card_status >> 8) & 0xc000) |
((sd->card_status >> 6) & 0x2000) |
(sd->card_status & 0x1fff);
sd->card_status &= ~(CARD_STATUS_C & 0xc81fff);
stw_be_p(response + 0, sd->rca);
stw_be_p(response + 2, status);
}
static void sd_response_r7_make(SDState *sd, uint8_t *response)
{
stl_be_p(response, sd->vhs);
}
static inline uint64_t sd_addr_to_wpnum(uint64_t addr)
{
return addr >> (HWBLOCK_SHIFT + SECTOR_SHIFT + WPGROUP_SHIFT);
}
static void sd_reset(DeviceState *dev)
{
SDState *sd = SD_CARD(dev);
uint64_t size;
uint64_t sect;
trace_sdcard_reset();
if (sd->blk) {
blk_get_geometry(sd->blk, §);
} else {
sect = 0;
}
size = sect << 9;
sect = sd_addr_to_wpnum(size) + 1;
sd->state = sd_idle_state;
sd->rca = 0x0000;
sd->size = size;
sd_set_ocr(sd);
sd_set_scr(sd);
sd_set_cid(sd);
sd_set_csd(sd, size);
sd_set_cardstatus(sd);
sd_set_sdstatus(sd);
g_free(sd->wp_group_bmap);
sd->wp_switch = sd->blk ? !blk_is_writable(sd->blk) : false;
sd->wp_group_bits = sect;
sd->wp_group_bmap = bitmap_new(sd->wp_group_bits);
memset(sd->function_group, 0, sizeof(sd->function_group));
sd->erase_start = INVALID_ADDRESS;
sd->erase_end = INVALID_ADDRESS;
sd->blk_len = 0x200;
sd->pwd_len = 0;
sd->expecting_acmd = false;
sd->dat_lines = 0xf;
sd->cmd_line = true;
sd->multi_blk_cnt = 0;
}
static bool sd_get_inserted(SDState *sd)
{
return sd->blk && blk_is_inserted(sd->blk);
}
static bool sd_get_readonly(SDState *sd)
{
return sd->wp_switch;
}
static void sd_cardchange(void *opaque, bool load, Error **errp)
{
SDState *sd = opaque;
DeviceState *dev = DEVICE(sd);
SDBus *sdbus;
bool inserted = sd_get_inserted(sd);
bool readonly = sd_get_readonly(sd);
if (inserted) {
trace_sdcard_inserted(readonly);
sd_reset(dev);
} else {
trace_sdcard_ejected();
}
if (sd->me_no_qdev_me_kill_mammoth_with_rocks) {
qemu_set_irq(sd->inserted_cb, inserted);
if (inserted) {
qemu_set_irq(sd->readonly_cb, readonly);
}
} else {
sdbus = SD_BUS(qdev_get_parent_bus(dev));
sdbus_set_inserted(sdbus, inserted);
if (inserted) {
sdbus_set_readonly(sdbus, readonly);
}
}
}
static const BlockDevOps sd_block_ops = {
.change_media_cb = sd_cardchange,
};
static bool sd_ocr_vmstate_needed(void *opaque)
{
SDState *sd = opaque;
/* Include the OCR state (and timer) if it is not yet powered up */
return !FIELD_EX32(sd->ocr, OCR, CARD_POWER_UP);
}
static const VMStateDescription sd_ocr_vmstate = {
.name = "sd-card/ocr-state",
.version_id = 1,
.minimum_version_id = 1,
.needed = sd_ocr_vmstate_needed,
.fields = (VMStateField[]) {
VMSTATE_UINT32(ocr, SDState),
VMSTATE_TIMER_PTR(ocr_power_timer, SDState),
VMSTATE_END_OF_LIST()
},
};
static int sd_vmstate_pre_load(void *opaque)
{
SDState *sd = opaque;
/* If the OCR state is not included (prior versions, or not
* needed), then the OCR must be set as powered up. If the OCR state
* is included, this will be replaced by the state restore.
*/
sd_ocr_powerup(sd);
return 0;
}
static const VMStateDescription sd_vmstate = {
.name = "sd-card",
.version_id = 2,
.minimum_version_id = 2,
.pre_load = sd_vmstate_pre_load,
.fields = (VMStateField[]) {
VMSTATE_UINT32(mode, SDState),
VMSTATE_INT32(state, SDState),
VMSTATE_UINT8_ARRAY(cid, SDState, 16),
VMSTATE_UINT8_ARRAY(csd, SDState, 16),
VMSTATE_UINT16(rca, SDState),
VMSTATE_UINT32(card_status, SDState),
VMSTATE_PARTIAL_BUFFER(sd_status, SDState, 1),
VMSTATE_UINT32(vhs, SDState),
VMSTATE_BITMAP(wp_group_bmap, SDState, 0, wp_group_bits),
VMSTATE_UINT32(blk_len, SDState),
VMSTATE_UINT32(multi_blk_cnt, SDState),
VMSTATE_UINT32(erase_start, SDState),
VMSTATE_UINT32(erase_end, SDState),
VMSTATE_UINT8_ARRAY(pwd, SDState, 16),
VMSTATE_UINT32(pwd_len, SDState),
VMSTATE_UINT8_ARRAY(function_group, SDState, 6),
VMSTATE_UINT8(current_cmd, SDState),
VMSTATE_BOOL(expecting_acmd, SDState),
VMSTATE_UINT32(blk_written, SDState),
VMSTATE_UINT64(data_start, SDState),
VMSTATE_UINT32(data_offset, SDState),
VMSTATE_UINT8_ARRAY(data, SDState, 512),
VMSTATE_UNUSED_V(1, 512),
VMSTATE_BOOL(enable, SDState),
VMSTATE_END_OF_LIST()
},
.subsections = (const VMStateDescription*[]) {
&sd_ocr_vmstate,
NULL
},
};
/* Legacy initialization function for use by non-qdevified callers */
SDState *sd_init(BlockBackend *blk, bool is_spi)
{
Object *obj;
DeviceState *dev;
SDState *sd;
Error *err = NULL;
obj = object_new(TYPE_SD_CARD);
dev = DEVICE(obj);
if (!qdev_prop_set_drive_err(dev, "drive", blk, &err)) {
error_reportf_err(err, "sd_init failed: ");
return NULL;
}
qdev_prop_set_bit(dev, "spi", is_spi);
/*
* Realizing the device properly would put it into the QOM
* composition tree even though it is not plugged into an
* appropriate bus. That's a no-no. Hide the device from
* QOM/qdev, and call its qdev realize callback directly.
*/
object_ref(obj);
object_unparent(obj);
sd_realize(dev, &err);
if (err) {
error_reportf_err(err, "sd_init failed: ");
return NULL;
}
sd = SD_CARD(dev);
sd->me_no_qdev_me_kill_mammoth_with_rocks = true;
return sd;
}
void sd_set_cb(SDState *sd, qemu_irq readonly, qemu_irq insert)
{
sd->readonly_cb = readonly;
sd->inserted_cb = insert;
qemu_set_irq(readonly, sd->blk ? !blk_is_writable(sd->blk) : 0);
qemu_set_irq(insert, sd->blk ? blk_is_inserted(sd->blk) : 0);
}
static void sd_blk_read(SDState *sd, uint64_t addr, uint32_t len)
{
trace_sdcard_read_block(addr, len);
if (!sd->blk || blk_pread(sd->blk, addr, sd->data, len) < 0) {
fprintf(stderr, "sd_blk_read: read error on host side\n");
}
}
static void sd_blk_write(SDState *sd, uint64_t addr, uint32_t len)
{
trace_sdcard_write_block(addr, len);
if (!sd->blk || blk_pwrite(sd->blk, addr, sd->data, len, 0) < 0) {
fprintf(stderr, "sd_blk_write: write error on host side\n");
}
}
#define BLK_READ_BLOCK(a, len) sd_blk_read(sd, a, len)
#define BLK_WRITE_BLOCK(a, len) sd_blk_write(sd, a, len)
#define APP_READ_BLOCK(a, len) memset(sd->data, 0xec, len)
#define APP_WRITE_BLOCK(a, len)
static void sd_erase(SDState *sd)
{
uint64_t erase_start = sd->erase_start;
uint64_t erase_end = sd->erase_end;
bool sdsc = true;
uint64_t wpnum;
uint64_t erase_addr;
int erase_len = 1 << HWBLOCK_SHIFT;
trace_sdcard_erase(sd->erase_start, sd->erase_end);
if (sd->erase_start == INVALID_ADDRESS
|| sd->erase_end == INVALID_ADDRESS) {
sd->card_status |= ERASE_SEQ_ERROR;
sd->erase_start = INVALID_ADDRESS;
sd->erase_end = INVALID_ADDRESS;
return;
}
if (FIELD_EX32(sd->ocr, OCR, CARD_CAPACITY)) {
/* High capacity memory card: erase units are 512 byte blocks */
erase_start *= 512;
erase_end *= 512;
sdsc = false;
}
if (erase_start > sd->size || erase_end > sd->size) {
sd->card_status |= OUT_OF_RANGE;
sd->erase_start = INVALID_ADDRESS;
sd->erase_end = INVALID_ADDRESS;
return;
}
sd->erase_start = INVALID_ADDRESS;
sd->erase_end = INVALID_ADDRESS;
sd->csd[14] |= 0x40;
memset(sd->data, 0xff, erase_len);
for (erase_addr = erase_start; erase_addr <= erase_end;
erase_addr += erase_len) {
if (sdsc) {
/* Only SDSC cards support write protect groups */
wpnum = sd_addr_to_wpnum(erase_addr);
assert(wpnum < sd->wp_group_bits);
if (test_bit(wpnum, sd->wp_group_bmap)) {
sd->card_status |= WP_ERASE_SKIP;
continue;
}
}
BLK_WRITE_BLOCK(erase_addr, erase_len);
}
}
static uint32_t sd_wpbits(SDState *sd, uint64_t addr)
{
uint32_t i, wpnum;
uint32_t ret = 0;
wpnum = sd_addr_to_wpnum(addr);
for (i = 0; i < 32; i++, wpnum++, addr += WPGROUP_SIZE) {
if (addr >= sd->size) {
/*
* If the addresses of the last groups are outside the valid range,
* then the corresponding write protection bits shall be set to 0.
*/
continue;
}
assert(wpnum < sd->wp_group_bits);
if (test_bit(wpnum, sd->wp_group_bmap)) {
ret |= (1 << i);
}
}
return ret;
}
static void sd_function_switch(SDState *sd, uint32_t arg)
{
int i, mode, new_func;
mode = !!(arg & 0x80000000);
sd->data[0] = 0x00; /* Maximum current consumption */
sd->data[1] = 0x01;
sd->data[2] = 0x80; /* Supported group 6 functions */
sd->data[3] = 0x01;
sd->data[4] = 0x80; /* Supported group 5 functions */
sd->data[5] = 0x01;
sd->data[6] = 0x80; /* Supported group 4 functions */
sd->data[7] = 0x01;
sd->data[8] = 0x80; /* Supported group 3 functions */
sd->data[9] = 0x01;
sd->data[10] = 0x80; /* Supported group 2 functions */
sd->data[11] = 0x43;
sd->data[12] = 0x80; /* Supported group 1 functions */
sd->data[13] = 0x03;
memset(&sd->data[14], 0, 3);
for (i = 0; i < 6; i ++) {
new_func = (arg >> (i * 4)) & 0x0f;
if (mode && new_func != 0x0f)
sd->function_group[i] = new_func;
sd->data[16 - (i >> 1)] |= new_func << ((i % 2) * 4);
}
memset(&sd->data[17], 0, 47);
}
static inline bool sd_wp_addr(SDState *sd, uint64_t addr)
{
return test_bit(sd_addr_to_wpnum(addr), sd->wp_group_bmap);
}
static void sd_lock_command(SDState *sd)
{
int erase, lock, clr_pwd, set_pwd, pwd_len;
erase = !!(sd->data[0] & 0x08);
lock = sd->data[0] & 0x04;
clr_pwd = sd->data[0] & 0x02;
set_pwd = sd->data[0] & 0x01;
if (sd->blk_len > 1)
pwd_len = sd->data[1];
else
pwd_len = 0;
if (lock) {
trace_sdcard_lock();
} else {
trace_sdcard_unlock();
}
if (erase) {
if (!(sd->card_status & CARD_IS_LOCKED) || sd->blk_len > 1 ||
set_pwd || clr_pwd || lock || sd->wp_switch ||
(sd->csd[14] & 0x20)) {
sd->card_status |= LOCK_UNLOCK_FAILED;
return;
}
bitmap_zero(sd->wp_group_bmap, sd->wp_group_bits);
sd->csd[14] &= ~0x10;
sd->card_status &= ~CARD_IS_LOCKED;
sd->pwd_len = 0;
/* Erasing the entire card here! */
fprintf(stderr, "SD: Card force-erased by CMD42\n");
return;
}
if (sd->blk_len < 2 + pwd_len ||
pwd_len <= sd->pwd_len ||
pwd_len > sd->pwd_len + 16) {
sd->card_status |= LOCK_UNLOCK_FAILED;
return;
}
if (sd->pwd_len && memcmp(sd->pwd, sd->data + 2, sd->pwd_len)) {
sd->card_status |= LOCK_UNLOCK_FAILED;
return;
}
pwd_len -= sd->pwd_len;
if ((pwd_len && !set_pwd) ||
(clr_pwd && (set_pwd || lock)) ||
(lock && !sd->pwd_len && !set_pwd) ||
(!set_pwd && !clr_pwd &&
(((sd->card_status & CARD_IS_LOCKED) && lock) ||
(!(sd->card_status & CARD_IS_LOCKED) && !lock)))) {
sd->card_status |= LOCK_UNLOCK_FAILED;
return;
}
if (set_pwd) {
memcpy(sd->pwd, sd->data + 2 + sd->pwd_len, pwd_len);
sd->pwd_len = pwd_len;
}
if (clr_pwd) {
sd->pwd_len = 0;
}
if (lock)
sd->card_status |= CARD_IS_LOCKED;
else
sd->card_status &= ~CARD_IS_LOCKED;
}
static bool address_in_range(SDState *sd, const char *desc,
uint64_t addr, uint32_t length)
{
if (addr + length > sd->size) {
qemu_log_mask(LOG_GUEST_ERROR,
"%s offset %"PRIu64" > card %"PRIu64" [%%%u]\n",
desc, addr, sd->size, length);
sd->card_status |= ADDRESS_ERROR;
return false;
}
return true;
}
static sd_rsp_type_t sd_normal_command(SDState *sd, SDRequest req)
{
uint32_t rca = 0x0000;
uint64_t addr = (sd->ocr & (1 << 30)) ? (uint64_t) req.arg << 9 : req.arg;
/* CMD55 precedes an ACMD, so we are not interested in tracing it.
* However there is no ACMD55, so we want to trace this particular case.
*/
if (req.cmd != 55 || sd->expecting_acmd) {
trace_sdcard_normal_command(sd->proto_name,
sd_cmd_name(req.cmd), req.cmd,
req.arg, sd_state_name(sd->state));
}
/* Not interpreting this as an app command */
sd->card_status &= ~APP_CMD;
if (sd_cmd_type[req.cmd] == sd_ac
|| sd_cmd_type[req.cmd] == sd_adtc) {
rca = req.arg >> 16;
}
/* CMD23 (set block count) must be immediately followed by CMD18 or CMD25
* if not, its effects are cancelled */
if (sd->multi_blk_cnt != 0 && !(req.cmd == 18 || req.cmd == 25)) {
sd->multi_blk_cnt = 0;
}
if (sd_cmd_class[req.cmd] == 6 && FIELD_EX32(sd->ocr, OCR, CARD_CAPACITY)) {
/* Only Standard Capacity cards support class 6 commands */
return sd_illegal;
}
switch (req.cmd) {
/* Basic commands (Class 0 and Class 1) */
case 0: /* CMD0: GO_IDLE_STATE */
switch (sd->state) {
case sd_inactive_state:
return sd->spi ? sd_r1 : sd_r0;
default:
sd->state = sd_idle_state;
sd_reset(DEVICE(sd));
return sd->spi ? sd_r1 : sd_r0;
}
break;
case 1: /* CMD1: SEND_OP_CMD */
if (!sd->spi)
goto bad_cmd;
sd->state = sd_transfer_state;
return sd_r1;
case 2: /* CMD2: ALL_SEND_CID */
if (sd->spi)
goto bad_cmd;
switch (sd->state) {
case sd_ready_state:
sd->state = sd_identification_state;
return sd_r2_i;
default:
break;
}
break;
case 3: /* CMD3: SEND_RELATIVE_ADDR */
if (sd->spi)
goto bad_cmd;
switch (sd->state) {
case sd_identification_state:
case sd_standby_state:
sd->state = sd_standby_state;
sd_set_rca(sd);
return sd_r6;
default:
break;
}
break;
case 4: /* CMD4: SEND_DSR */
if (sd->spi)
goto bad_cmd;
switch (sd->state) {
case sd_standby_state:
break;
default:
break;
}
break;
case 5: /* CMD5: reserved for SDIO cards */
return sd_illegal;
case 6: /* CMD6: SWITCH_FUNCTION */
switch (sd->mode) {
case sd_data_transfer_mode:
sd_function_switch(sd, req.arg);
sd->state = sd_sendingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 7: /* CMD7: SELECT/DESELECT_CARD */
if (sd->spi)
goto bad_cmd;
switch (sd->state) {
case sd_standby_state:
if (sd->rca != rca)
return sd_r0;
sd->state = sd_transfer_state;
return sd_r1b;
case sd_transfer_state:
case sd_sendingdata_state:
if (sd->rca == rca)
break;
sd->state = sd_standby_state;
return sd_r1b;
case sd_disconnect_state:
if (sd->rca != rca)
return sd_r0;
sd->state = sd_programming_state;
return sd_r1b;
case sd_programming_state:
if (sd->rca == rca)
break;
sd->state = sd_disconnect_state;
return sd_r1b;
default:
break;
}
break;
case 8: /* CMD8: SEND_IF_COND */
if (sd->spec_version < SD_PHY_SPECv2_00_VERS) {
break;
}
if (sd->state != sd_idle_state) {
break;
}
sd->vhs = 0;
/* No response if not exactly one VHS bit is set. */
if (!(req.arg >> 8) || (req.arg >> (ctz32(req.arg & ~0xff) + 1))) {
return sd->spi ? sd_r7 : sd_r0;
}
/* Accept. */
sd->vhs = req.arg;
return sd_r7;
case 9: /* CMD9: SEND_CSD */
switch (sd->state) {
case sd_standby_state:
if (sd->rca != rca)
return sd_r0;
return sd_r2_s;
case sd_transfer_state:
if (!sd->spi)
break;
sd->state = sd_sendingdata_state;
memcpy(sd->data, sd->csd, 16);
sd->data_start = addr;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 10: /* CMD10: SEND_CID */
switch (sd->state) {
case sd_standby_state:
if (sd->rca != rca)
return sd_r0;
return sd_r2_i;
case sd_transfer_state:
if (!sd->spi)
break;
sd->state = sd_sendingdata_state;
memcpy(sd->data, sd->cid, 16);
sd->data_start = addr;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 12: /* CMD12: STOP_TRANSMISSION */
switch (sd->state) {
case sd_sendingdata_state:
sd->state = sd_transfer_state;
return sd_r1b;
case sd_receivingdata_state:
sd->state = sd_programming_state;
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
return sd_r1b;
default:
break;
}
break;
case 13: /* CMD13: SEND_STATUS */
switch (sd->mode) {
case sd_data_transfer_mode:
if (!sd->spi && sd->rca != rca) {
return sd_r0;
}
return sd_r1;
default:
break;
}
break;
case 15: /* CMD15: GO_INACTIVE_STATE */
if (sd->spi)
goto bad_cmd;
switch (sd->mode) {
case sd_data_transfer_mode:
if (sd->rca != rca)
return sd_r0;
sd->state = sd_inactive_state;
return sd_r0;
default:
break;
}
break;
/* Block read commands (Classs 2) */
case 16: /* CMD16: SET_BLOCKLEN */
switch (sd->state) {
case sd_transfer_state:
if (req.arg > (1 << HWBLOCK_SHIFT)) {
sd->card_status |= BLOCK_LEN_ERROR;
} else {
trace_sdcard_set_blocklen(req.arg);
sd->blk_len = req.arg;
}
return sd_r1;
default:
break;
}
break;
case 17: /* CMD17: READ_SINGLE_BLOCK */
case 18: /* CMD18: READ_MULTIPLE_BLOCK */
switch (sd->state) {
case sd_transfer_state:
if (!address_in_range(sd, "READ_BLOCK", addr, sd->blk_len)) {
return sd_r1;
}
sd->state = sd_sendingdata_state;
sd->data_start = addr;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 19: /* CMD19: SEND_TUNING_BLOCK (SD) */
if (sd->spec_version < SD_PHY_SPECv3_01_VERS) {
break;
}
if (sd->state == sd_transfer_state) {
sd->state = sd_sendingdata_state;
sd->data_offset = 0;
return sd_r1;
}
break;
case 23: /* CMD23: SET_BLOCK_COUNT */
if (sd->spec_version < SD_PHY_SPECv3_01_VERS) {
break;
}
switch (sd->state) {
case sd_transfer_state:
sd->multi_blk_cnt = req.arg;
return sd_r1;
default:
break;
}
break;
/* Block write commands (Class 4) */
case 24: /* CMD24: WRITE_SINGLE_BLOCK */
case 25: /* CMD25: WRITE_MULTIPLE_BLOCK */
switch (sd->state) {
case sd_transfer_state:
if (!address_in_range(sd, "WRITE_BLOCK", addr, sd->blk_len)) {
return sd_r1;
}
sd->state = sd_receivingdata_state;
sd->data_start = addr;
sd->data_offset = 0;
sd->blk_written = 0;
if (sd->size <= SDSC_MAX_CAPACITY) {
if (sd_wp_addr(sd, sd->data_start)) {
sd->card_status |= WP_VIOLATION;
}
}
if (sd->csd[14] & 0x30) {
sd->card_status |= WP_VIOLATION;
}
return sd_r1;
default:
break;
}
break;
case 26: /* CMD26: PROGRAM_CID */
if (sd->spi)
goto bad_cmd;
switch (sd->state) {
case sd_transfer_state:
sd->state = sd_receivingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 27: /* CMD27: PROGRAM_CSD */
switch (sd->state) {
case sd_transfer_state:
sd->state = sd_receivingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
/* Write protection (Class 6) */
case 28: /* CMD28: SET_WRITE_PROT */
if (sd->size > SDSC_MAX_CAPACITY) {
return sd_illegal;
}
switch (sd->state) {
case sd_transfer_state:
if (!address_in_range(sd, "SET_WRITE_PROT", addr, 1)) {
return sd_r1b;
}
sd->state = sd_programming_state;
set_bit(sd_addr_to_wpnum(addr), sd->wp_group_bmap);
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
return sd_r1b;
default:
break;
}
break;
case 29: /* CMD29: CLR_WRITE_PROT */
if (sd->size > SDSC_MAX_CAPACITY) {
return sd_illegal;
}
switch (sd->state) {
case sd_transfer_state:
if (!address_in_range(sd, "CLR_WRITE_PROT", addr, 1)) {
return sd_r1b;
}
sd->state = sd_programming_state;
clear_bit(sd_addr_to_wpnum(addr), sd->wp_group_bmap);
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
return sd_r1b;
default:
break;
}
break;
case 30: /* CMD30: SEND_WRITE_PROT */
if (sd->size > SDSC_MAX_CAPACITY) {
return sd_illegal;
}
switch (sd->state) {
case sd_transfer_state:
if (!address_in_range(sd, "SEND_WRITE_PROT",
req.arg, sd->blk_len)) {
return sd_r1;
}
sd->state = sd_sendingdata_state;
*(uint32_t *) sd->data = sd_wpbits(sd, req.arg);
sd->data_start = addr;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
/* Erase commands (Class 5) */
case 32: /* CMD32: ERASE_WR_BLK_START */
switch (sd->state) {
case sd_transfer_state:
sd->erase_start = req.arg;
return sd_r1;
default:
break;
}
break;
case 33: /* CMD33: ERASE_WR_BLK_END */
switch (sd->state) {
case sd_transfer_state:
sd->erase_end = req.arg;
return sd_r1;
default:
break;
}
break;
case 38: /* CMD38: ERASE */
switch (sd->state) {
case sd_transfer_state:
if (sd->csd[14] & 0x30) {
sd->card_status |= WP_VIOLATION;
return sd_r1b;
}
sd->state = sd_programming_state;
sd_erase(sd);
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
return sd_r1b;
default:
break;
}
break;
/* Lock card commands (Class 7) */
case 42: /* CMD42: LOCK_UNLOCK */
switch (sd->state) {
case sd_transfer_state:
sd->state = sd_receivingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 52 ... 54:
/* CMD52, CMD53, CMD54: reserved for SDIO cards
* (see the SDIO Simplified Specification V2.0)
* Handle as illegal command but do not complain
* on stderr, as some OSes may use these in their
* probing for presence of an SDIO card.
*/
return sd_illegal;
/* Application specific commands (Class 8) */
case 55: /* CMD55: APP_CMD */
switch (sd->state) {
case sd_ready_state:
case sd_identification_state:
case sd_inactive_state:
return sd_illegal;
case sd_idle_state:
if (rca) {
qemu_log_mask(LOG_GUEST_ERROR,
"SD: illegal RCA 0x%04x for APP_CMD\n", req.cmd);
}
default:
break;
}
if (!sd->spi) {
if (sd->rca != rca) {
return sd_r0;
}
}
sd->expecting_acmd = true;
sd->card_status |= APP_CMD;
return sd_r1;
case 56: /* CMD56: GEN_CMD */
switch (sd->state) {
case sd_transfer_state:
sd->data_offset = 0;
if (req.arg & 1)
sd->state = sd_sendingdata_state;
else
sd->state = sd_receivingdata_state;
return sd_r1;
default:
break;
}
break;
case 58: /* CMD58: READ_OCR (SPI) */
if (!sd->spi) {
goto bad_cmd;
}
return sd_r3;
case 59: /* CMD59: CRC_ON_OFF (SPI) */
if (!sd->spi) {
goto bad_cmd;
}
return sd_r1;
default:
bad_cmd:
qemu_log_mask(LOG_GUEST_ERROR, "SD: Unknown CMD%i\n", req.cmd);
return sd_illegal;
}
qemu_log_mask(LOG_GUEST_ERROR, "SD: CMD%i in a wrong state: %s\n",
req.cmd, sd_state_name(sd->state));
return sd_illegal;
}
static sd_rsp_type_t sd_app_command(SDState *sd,
SDRequest req)
{
trace_sdcard_app_command(sd->proto_name, sd_acmd_name(req.cmd),
req.cmd, req.arg, sd_state_name(sd->state));
sd->card_status |= APP_CMD;
switch (req.cmd) {
case 6: /* ACMD6: SET_BUS_WIDTH */
if (sd->spi) {
goto unimplemented_spi_cmd;
}
switch (sd->state) {
case sd_transfer_state:
sd->sd_status[0] &= 0x3f;
sd->sd_status[0] |= (req.arg & 0x03) << 6;
return sd_r1;
default:
break;
}
break;
case 13: /* ACMD13: SD_STATUS */
switch (sd->state) {
case sd_transfer_state:
sd->state = sd_sendingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 22: /* ACMD22: SEND_NUM_WR_BLOCKS */
switch (sd->state) {
case sd_transfer_state:
*(uint32_t *) sd->data = sd->blk_written;
sd->state = sd_sendingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 23: /* ACMD23: SET_WR_BLK_ERASE_COUNT */
switch (sd->state) {
case sd_transfer_state:
return sd_r1;
default:
break;
}
break;
case 41: /* ACMD41: SD_APP_OP_COND */
if (sd->spi) {
/* SEND_OP_CMD */
sd->state = sd_transfer_state;
return sd_r1;
}
if (sd->state != sd_idle_state) {
break;
}
/* If it's the first ACMD41 since reset, we need to decide
* whether to power up. If this is not an enquiry ACMD41,
* we immediately report power on and proceed below to the
* ready state, but if it is, we set a timer to model a
* delay for power up. This works around a bug in EDK2
* UEFI, which sends an initial enquiry ACMD41, but
* assumes that the card is in ready state as soon as it
* sees the power up bit set. */
if (!FIELD_EX32(sd->ocr, OCR, CARD_POWER_UP)) {
if ((req.arg & ACMD41_ENQUIRY_MASK) != 0) {
timer_del(sd->ocr_power_timer);
sd_ocr_powerup(sd);
} else {
trace_sdcard_inquiry_cmd41();
if (!timer_pending(sd->ocr_power_timer)) {
timer_mod_ns(sd->ocr_power_timer,
(qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL)
+ OCR_POWER_DELAY_NS));
}
}
}
if (FIELD_EX32(sd->ocr & req.arg, OCR, VDD_VOLTAGE_WINDOW)) {
/* We accept any voltage. 10000 V is nothing.
*
* Once we're powered up, we advance straight to ready state
* unless it's an enquiry ACMD41 (bits 23:0 == 0).
*/
sd->state = sd_ready_state;
}
return sd_r3;
case 42: /* ACMD42: SET_CLR_CARD_DETECT */
switch (sd->state) {
case sd_transfer_state:
/* Bringing in the 50KOhm pull-up resistor... Done. */
return sd_r1;
default:
break;
}
break;
case 51: /* ACMD51: SEND_SCR */
switch (sd->state) {
case sd_transfer_state:
sd->state = sd_sendingdata_state;
sd->data_start = 0;
sd->data_offset = 0;
return sd_r1;
default:
break;
}
break;
case 18: /* Reserved for SD security applications */
case 25:
case 26:
case 38:
case 43 ... 49:
/* Refer to the "SD Specifications Part3 Security Specification" for
* information about the SD Security Features.
*/
qemu_log_mask(LOG_UNIMP, "SD: CMD%i Security not implemented\n",
req.cmd);
return sd_illegal;
default:
/* Fall back to standard commands. */
return sd_normal_command(sd, req);
unimplemented_spi_cmd:
/* Commands that are recognised but not yet implemented in SPI mode. */
qemu_log_mask(LOG_UNIMP, "SD: CMD%i not implemented in SPI mode\n",
req.cmd);
return sd_illegal;
}
qemu_log_mask(LOG_GUEST_ERROR, "SD: ACMD%i in a wrong state\n", req.cmd);
return sd_illegal;
}
static int cmd_valid_while_locked(SDState *sd, const uint8_t cmd)
{
/* Valid commands in locked state:
* basic class (0)
* lock card class (7)
* CMD16
* implicitly, the ACMD prefix CMD55
* ACMD41 and ACMD42
* Anything else provokes an "illegal command" response.
*/
if (sd->expecting_acmd) {
return cmd == 41 || cmd == 42;
}
if (cmd == 16 || cmd == 55) {
return 1;
}
return sd_cmd_class[cmd] == 0 || sd_cmd_class[cmd] == 7;
}
int sd_do_command(SDState *sd, SDRequest *req,
uint8_t *response) {
int last_state;
sd_rsp_type_t rtype;
int rsplen;
if (!sd->blk || !blk_is_inserted(sd->blk) || !sd->enable) {
return 0;
}
if (sd_req_crc_validate(req)) {
sd->card_status |= COM_CRC_ERROR;
rtype = sd_illegal;
goto send_response;
}
if (req->cmd >= SDMMC_CMD_MAX) {
qemu_log_mask(LOG_GUEST_ERROR, "SD: incorrect command 0x%02x\n",
req->cmd);
req->cmd &= 0x3f;
}
if (sd->card_status & CARD_IS_LOCKED) {
if (!cmd_valid_while_locked(sd, req->cmd)) {
sd->card_status |= ILLEGAL_COMMAND;
sd->expecting_acmd = false;
qemu_log_mask(LOG_GUEST_ERROR, "SD: Card is locked\n");
rtype = sd_illegal;
goto send_response;
}
}
last_state = sd->state;
sd_set_mode(sd);
if (sd->expecting_acmd) {
sd->expecting_acmd = false;
rtype = sd_app_command(sd, *req);
} else {
rtype = sd_normal_command(sd, *req);
}
if (rtype == sd_illegal) {
sd->card_status |= ILLEGAL_COMMAND;
} else {
/* Valid command, we can update the 'state before command' bits.
* (Do this now so they appear in r1 responses.)
*/
sd->current_cmd = req->cmd;
sd->card_status &= ~CURRENT_STATE;
sd->card_status |= (last_state << 9);
}
send_response:
switch (rtype) {
case sd_r1:
case sd_r1b:
sd_response_r1_make(sd, response);
rsplen = 4;
break;
case sd_r2_i:
memcpy(response, sd->cid, sizeof(sd->cid));
rsplen = 16;
break;
case sd_r2_s:
memcpy(response, sd->csd, sizeof(sd->csd));
rsplen = 16;
break;
case sd_r3:
sd_response_r3_make(sd, response);
rsplen = 4;
break;
case sd_r6:
sd_response_r6_make(sd, response);
rsplen = 4;
break;
case sd_r7:
sd_response_r7_make(sd, response);
rsplen = 4;
break;
case sd_r0:
case sd_illegal:
rsplen = 0;
break;
default:
g_assert_not_reached();
}
trace_sdcard_response(sd_response_name(rtype), rsplen);
if (rtype != sd_illegal) {
/* Clear the "clear on valid command" status bits now we've
* sent any response
*/
sd->card_status &= ~CARD_STATUS_B;
}
#ifdef DEBUG_SD
qemu_hexdump(stderr, "Response", response, rsplen);
#endif
return rsplen;
}
void sd_write_byte(SDState *sd, uint8_t value)
{
int i;
if (!sd->blk || !blk_is_inserted(sd->blk) || !sd->enable)
return;
if (sd->state != sd_receivingdata_state) {
qemu_log_mask(LOG_GUEST_ERROR,
"%s: not in Receiving-Data state\n", __func__);
return;
}
if (sd->card_status & (ADDRESS_ERROR | WP_VIOLATION))
return;
trace_sdcard_write_data(sd->proto_name,
sd_acmd_name(sd->current_cmd),
sd->current_cmd, value);
switch (sd->current_cmd) {
case 24: /* CMD24: WRITE_SINGLE_BLOCK */
sd->data[sd->data_offset ++] = value;
if (sd->data_offset >= sd->blk_len) {
/* TODO: Check CRC before committing */
sd->state = sd_programming_state;
BLK_WRITE_BLOCK(sd->data_start, sd->data_offset);
sd->blk_written ++;
sd->csd[14] |= 0x40;
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
}
break;
case 25: /* CMD25: WRITE_MULTIPLE_BLOCK */
if (sd->data_offset == 0) {
/* Start of the block - let's check the address is valid */
if (!address_in_range(sd, "WRITE_MULTIPLE_BLOCK",
sd->data_start, sd->blk_len)) {
break;
}
if (sd->size <= SDSC_MAX_CAPACITY) {
if (sd_wp_addr(sd, sd->data_start)) {
sd->card_status |= WP_VIOLATION;
break;
}
}
}
sd->data[sd->data_offset++] = value;
if (sd->data_offset >= sd->blk_len) {
/* TODO: Check CRC before committing */
sd->state = sd_programming_state;
BLK_WRITE_BLOCK(sd->data_start, sd->data_offset);
sd->blk_written++;
sd->data_start += sd->blk_len;
sd->data_offset = 0;
sd->csd[14] |= 0x40;
/* Bzzzzzzztt .... Operation complete. */
if (sd->multi_blk_cnt != 0) {
if (--sd->multi_blk_cnt == 0) {
/* Stop! */
sd->state = sd_transfer_state;
break;
}
}
sd->state = sd_receivingdata_state;
}
break;
case 26: /* CMD26: PROGRAM_CID */
sd->data[sd->data_offset ++] = value;
if (sd->data_offset >= sizeof(sd->cid)) {
/* TODO: Check CRC before committing */
sd->state = sd_programming_state;
for (i = 0; i < sizeof(sd->cid); i ++)
if ((sd->cid[i] | 0x00) != sd->data[i])
sd->card_status |= CID_CSD_OVERWRITE;
if (!(sd->card_status & CID_CSD_OVERWRITE))
for (i = 0; i < sizeof(sd->cid); i ++) {
sd->cid[i] |= 0x00;
sd->cid[i] &= sd->data[i];
}
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
}
break;
case 27: /* CMD27: PROGRAM_CSD */
sd->data[sd->data_offset ++] = value;
if (sd->data_offset >= sizeof(sd->csd)) {
/* TODO: Check CRC before committing */
sd->state = sd_programming_state;
for (i = 0; i < sizeof(sd->csd); i ++)
if ((sd->csd[i] | sd_csd_rw_mask[i]) !=
(sd->data[i] | sd_csd_rw_mask[i]))
sd->card_status |= CID_CSD_OVERWRITE;
/* Copy flag (OTP) & Permanent write protect */
if (sd->csd[14] & ~sd->data[14] & 0x60)
sd->card_status |= CID_CSD_OVERWRITE;
if (!(sd->card_status & CID_CSD_OVERWRITE))
for (i = 0; i < sizeof(sd->csd); i ++) {
sd->csd[i] |= sd_csd_rw_mask[i];
sd->csd[i] &= sd->data[i];
}
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
}
break;
case 42: /* CMD42: LOCK_UNLOCK */
sd->data[sd->data_offset ++] = value;
if (sd->data_offset >= sd->blk_len) {
/* TODO: Check CRC before committing */
sd->state = sd_programming_state;
sd_lock_command(sd);
/* Bzzzzzzztt .... Operation complete. */
sd->state = sd_transfer_state;
}
break;
case 56: /* CMD56: GEN_CMD */
sd->data[sd->data_offset ++] = value;
if (sd->data_offset >= sd->blk_len) {
APP_WRITE_BLOCK(sd->data_start, sd->data_offset);
sd->state = sd_transfer_state;
}
break;
default:
qemu_log_mask(LOG_GUEST_ERROR, "%s: unknown command\n", __func__);
break;
}
}
#define SD_TUNING_BLOCK_SIZE 64
static const uint8_t sd_tuning_block_pattern[SD_TUNING_BLOCK_SIZE] = {
/* See: Physical Layer Simplified Specification Version 3.01, Table 4-2 */
0xff, 0x0f, 0xff, 0x00, 0x0f, 0xfc, 0xc3, 0xcc,
0xc3, 0x3c, 0xcc, 0xff, 0xfe, 0xff, 0xfe, 0xef,
0xff, 0xdf, 0xff, 0xdd, 0xff, 0xfb, 0xff, 0xfb,
0xbf, 0xff, 0x7f, 0xff, 0x77, 0xf7, 0xbd, 0xef,
0xff, 0xf0, 0xff, 0xf0, 0x0f, 0xfc, 0xcc, 0x3c,
0xcc, 0x33, 0xcc, 0xcf, 0xff, 0xef, 0xff, 0xee,
0xff, 0xfd, 0xff, 0xfd, 0xdf, 0xff, 0xbf, 0xff,
0xbb, 0xff, 0xf7, 0xff, 0xf7, 0x7f, 0x7b, 0xde,
};
uint8_t sd_read_byte(SDState *sd)
{
/* TODO: Append CRCs */
uint8_t ret;
uint32_t io_len;
if (!sd->blk || !blk_is_inserted(sd->blk) || !sd->enable)
return 0x00;
if (sd->state != sd_sendingdata_state) {
qemu_log_mask(LOG_GUEST_ERROR,
"%s: not in Sending-Data state\n", __func__);
return 0x00;
}
if (sd->card_status & (ADDRESS_ERROR | WP_VIOLATION))
return 0x00;
io_len = (sd->ocr & (1 << 30)) ? 512 : sd->blk_len;
trace_sdcard_read_data(sd->proto_name,
sd_acmd_name(sd->current_cmd),
sd->current_cmd, io_len);
switch (sd->current_cmd) {
case 6: /* CMD6: SWITCH_FUNCTION */
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= 64)
sd->state = sd_transfer_state;
break;
case 9: /* CMD9: SEND_CSD */
case 10: /* CMD10: SEND_CID */
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= 16)
sd->state = sd_transfer_state;
break;
case 13: /* ACMD13: SD_STATUS */
ret = sd->sd_status[sd->data_offset ++];
if (sd->data_offset >= sizeof(sd->sd_status))
sd->state = sd_transfer_state;
break;
case 17: /* CMD17: READ_SINGLE_BLOCK */
if (sd->data_offset == 0)
BLK_READ_BLOCK(sd->data_start, io_len);
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= io_len)
sd->state = sd_transfer_state;
break;
case 18: /* CMD18: READ_MULTIPLE_BLOCK */
if (sd->data_offset == 0) {
if (!address_in_range(sd, "READ_MULTIPLE_BLOCK",
sd->data_start, io_len)) {
return 0x00;
}
BLK_READ_BLOCK(sd->data_start, io_len);
}
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= io_len) {
sd->data_start += io_len;
sd->data_offset = 0;
if (sd->multi_blk_cnt != 0) {
if (--sd->multi_blk_cnt == 0) {
/* Stop! */
sd->state = sd_transfer_state;
break;
}
}
}
break;
case 19: /* CMD19: SEND_TUNING_BLOCK (SD) */
if (sd->data_offset >= SD_TUNING_BLOCK_SIZE - 1) {
sd->state = sd_transfer_state;
}
ret = sd_tuning_block_pattern[sd->data_offset++];
break;
case 22: /* ACMD22: SEND_NUM_WR_BLOCKS */
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= 4)
sd->state = sd_transfer_state;
break;
case 30: /* CMD30: SEND_WRITE_PROT */
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= 4)
sd->state = sd_transfer_state;
break;
case 51: /* ACMD51: SEND_SCR */
ret = sd->scr[sd->data_offset ++];
if (sd->data_offset >= sizeof(sd->scr))
sd->state = sd_transfer_state;
break;
case 56: /* CMD56: GEN_CMD */
if (sd->data_offset == 0)
APP_READ_BLOCK(sd->data_start, sd->blk_len);
ret = sd->data[sd->data_offset ++];
if (sd->data_offset >= sd->blk_len)
sd->state = sd_transfer_state;
break;
default:
qemu_log_mask(LOG_GUEST_ERROR, "%s: unknown command\n", __func__);
return 0x00;
}
return ret;
}
static bool sd_receive_ready(SDState *sd)
{
return sd->state == sd_receivingdata_state;
}
static bool sd_data_ready(SDState *sd)
{
return sd->state == sd_sendingdata_state;
}
void sd_enable(SDState *sd, bool enable)
{
sd->enable = enable;
}
static void sd_instance_init(Object *obj)
{
SDState *sd = SD_CARD(obj);
sd->enable = true;
sd->ocr_power_timer = timer_new_ns(QEMU_CLOCK_VIRTUAL, sd_ocr_powerup, sd);
}
static void sd_instance_finalize(Object *obj)
{
SDState *sd = SD_CARD(obj);
timer_free(sd->ocr_power_timer);
}
static void sd_realize(DeviceState *dev, Error **errp)
{
SDState *sd = SD_CARD(dev);
int ret;
sd->proto_name = sd->spi ? "SPI" : "SD";
switch (sd->spec_version) {
case SD_PHY_SPECv1_10_VERS
... SD_PHY_SPECv3_01_VERS:
break;
default:
error_setg(errp, "Invalid SD card Spec version: %u", sd->spec_version);
return;
}
if (sd->blk) {
int64_t blk_size;
if (!blk_supports_write_perm(sd->blk)) {
error_setg(errp, "Cannot use read-only drive as SD card");
return;
}
blk_size = blk_getlength(sd->blk);
if (blk_size > 0 && !is_power_of_2(blk_size)) {
int64_t blk_size_aligned = pow2ceil(blk_size);
char *blk_size_str;
blk_size_str = size_to_str(blk_size);
error_setg(errp, "Invalid SD card size: %s", blk_size_str);
g_free(blk_size_str);
blk_size_str = size_to_str(blk_size_aligned);
error_append_hint(errp,
"SD card size has to be a power of 2, e.g. %s.\n"
"You can resize disk images with"
" 'qemu-img resize <imagefile> <new-size>'\n"
"(note that this will lose data if you make the"
" image smaller than it currently is).\n",
blk_size_str);
g_free(blk_size_str);
return;
}
ret = blk_set_perm(sd->blk, BLK_PERM_CONSISTENT_READ | BLK_PERM_WRITE,
BLK_PERM_ALL, errp);
if (ret < 0) {
return;
}
blk_set_dev_ops(sd->blk, &sd_block_ops, sd);
}
}
static Property sd_properties[] = {
DEFINE_PROP_UINT8("spec_version", SDState,
spec_version, SD_PHY_SPECv2_00_VERS),
DEFINE_PROP_DRIVE("drive", SDState, blk),
/* We do not model the chip select pin, so allow the board to select
* whether card should be in SSI or MMC/SD mode. It is also up to the
* board to ensure that ssi transfers only occur when the chip select
* is asserted. */
DEFINE_PROP_BOOL("spi", SDState, spi, false),
DEFINE_PROP_END_OF_LIST()
};
static void sd_class_init(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
SDCardClass *sc = SD_CARD_CLASS(klass);
dc->realize = sd_realize;
device_class_set_props(dc, sd_properties);
dc->vmsd = &sd_vmstate;
dc->reset = sd_reset;
dc->bus_type = TYPE_SD_BUS;
set_bit(DEVICE_CATEGORY_STORAGE, dc->categories);
sc->set_voltage = sd_set_voltage;
sc->get_dat_lines = sd_get_dat_lines;
sc->get_cmd_line = sd_get_cmd_line;
sc->do_command = sd_do_command;
sc->write_byte = sd_write_byte;
sc->read_byte = sd_read_byte;
sc->receive_ready = sd_receive_ready;
sc->data_ready = sd_data_ready;
sc->enable = sd_enable;
sc->get_inserted = sd_get_inserted;
sc->get_readonly = sd_get_readonly;
}
static const TypeInfo sd_info = {
.name = TYPE_SD_CARD,
.parent = TYPE_DEVICE,
.instance_size = sizeof(SDState),
.class_size = sizeof(SDCardClass),
.class_init = sd_class_init,
.instance_init = sd_instance_init,
.instance_finalize = sd_instance_finalize,
};
static void sd_register_types(void)
{
type_register_static(&sd_info);
}
type_init(sd_register_types)
|