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Message-Id: <1496704922-12261-11-git-send-email-yamada.masahiro@socionext.com>
Date: Tue, 6 Jun 2017 08:21:49 +0900
From: Masahiro Yamada <yamada.masahiro@...ionext.com>
To: linux-mtd@...ts.infradead.org
Cc: Enrico Jorns <ejo@...gutronix.de>,
Artem Bityutskiy <artem.bityutskiy@...ux.intel.com>,
Dinh Nguyen <dinguyen@...nel.org>,
Boris Brezillon <boris.brezillon@...e-electrons.com>,
Marek Vasut <marek.vasut@...il.com>,
Graham Moore <grmoore@...nsource.altera.com>,
David Woodhouse <dwmw2@...radead.org>,
Masami Hiramatsu <mhiramat@...nel.org>,
Chuanxiao Dong <chuanxiao.dong@...el.com>,
Jassi Brar <jaswinder.singh@...aro.org>,
Masahiro Yamada <yamada.masahiro@...ionext.com>,
Cyrille Pitchen <cyrille.pitchen@...ev4u.fr>,
linux-kernel@...r.kernel.org,
Brian Norris <computersforpeace@...il.com>,
Richard Weinberger <richard@....at>
Subject: [PATCH v4 10/23] mtd: nand: denali: handle timing parameters by setup_data_interface()
Handling timing parameters in a driver's own way should be avoided
because it duplicates efforts of drivers/mtd/nand/nand_timings.c
Besides, this driver hard-codes Intel specific parameters such as
CLK_X=5, CLK_MULTI=4. Taking a certain device (Samsung K9WAG08U1A)
into account by get_samsung_nand_para() is weird as well.
Now, the core framework provides .setup_data_interface() hook, which
handles timing parameters in a generic manner.
While I am working on this, I found even more issues in the current
code, so fixed the following as well:
- In recent IP versions, WE_2_RE and TWHR2 share the same register.
Likewise for ADDR_2_DATA and TCWAW, CS_SETUP_CNT and TWB. When
updating one, the other must be masked. Otherwise, the other will
be set to 0, then timing settings will be broken.
- The recent IP release expanded the ADDR_2_DATA to 7-bit wide.
This register is related to tADL. As commit 74a332e78e8f ("mtd:
nand: timings: Fix tADL_min for ONFI 4.0 chips") addressed, the
ONFi 4.0 increased the minimum of tADL to 400 nsec. This may not
fit in the 6-bit ADDR_2_DATA in older versions. Check the IP
revision and handle this correctly, otherwise the register value
would wrap around.
Signed-off-by: Masahiro Yamada <yamada.masahiro@...ionext.com>
---
Changes in v4: None
Changes in v3: None
Changes in v2:
- Newly added
drivers/mtd/nand/denali.c | 351 +++++++++++++++---------------------------
drivers/mtd/nand/denali.h | 26 ++--
drivers/mtd/nand/denali_dt.c | 3 +-
drivers/mtd/nand/denali_pci.c | 6 +-
4 files changed, 142 insertions(+), 244 deletions(-)
diff --git a/drivers/mtd/nand/denali.c b/drivers/mtd/nand/denali.c
index a289011..1bb57de 100644
--- a/drivers/mtd/nand/denali.c
+++ b/drivers/mtd/nand/denali.c
@@ -28,17 +28,6 @@
MODULE_LICENSE("GPL");
-/*
- * We define a module parameter that allows the user to override
- * the hardware and decide what timing mode should be used.
- */
-#define NAND_DEFAULT_TIMINGS -1
-
-static int onfi_timing_mode = NAND_DEFAULT_TIMINGS;
-module_param(onfi_timing_mode, int, S_IRUGO);
-MODULE_PARM_DESC(onfi_timing_mode,
- "Overrides default ONFI setting. -1 indicates use default timings");
-
#define DENALI_NAND_NAME "denali-nand"
/*
@@ -63,12 +52,6 @@ MODULE_PARM_DESC(onfi_timing_mode,
#define CHIP_SELECT_INVALID -1
/*
- * This macro divides two integers and rounds fractional values up
- * to the nearest integer value.
- */
-#define CEIL_DIV(X, Y) (((X)%(Y)) ? ((X)/(Y)+1) : ((X)/(Y)))
-
-/*
* this macro allows us to convert from an MTD structure to our own
* device context (denali) structure.
*/
@@ -103,6 +86,14 @@ static void denali_irq_enable(struct denali_nand_info *denali,
static uint32_t read_interrupt_status(struct denali_nand_info *denali);
/*
+ * The bus interface clock, clk_x, is phase aligned with the core clock. The
+ * clk_x is an integral multiple N of the core clk. The value N is configured
+ * at IP delivery time, and its available value is 4, 5, or 6. We need to align
+ * to the largest value to make it work with any possible configuration.
+ */
+#define DENALI_CLK_X_MULT 6
+
+/*
* Certain operations for the denali NAND controller use an indexed mode to
* read/write data. The operation is performed by writing the address value
* of the command to the device memory followed by the data. This function
@@ -196,148 +187,6 @@ static uint16_t denali_nand_reset(struct denali_nand_info *denali)
}
/*
- * this routine calculates the ONFI timing values for a given mode and
- * programs the clocking register accordingly. The mode is determined by
- * the get_onfi_nand_para routine.
- */
-static void nand_onfi_timing_set(struct denali_nand_info *denali,
- uint16_t mode)
-{
- uint16_t Trea[6] = {40, 30, 25, 20, 20, 16};
- uint16_t Trp[6] = {50, 25, 17, 15, 12, 10};
- uint16_t Treh[6] = {30, 15, 15, 10, 10, 7};
- uint16_t Trc[6] = {100, 50, 35, 30, 25, 20};
- uint16_t Trhoh[6] = {0, 15, 15, 15, 15, 15};
- uint16_t Trloh[6] = {0, 0, 0, 0, 5, 5};
- uint16_t Tcea[6] = {100, 45, 30, 25, 25, 25};
- uint16_t Tadl[6] = {200, 100, 100, 100, 70, 70};
- uint16_t Trhw[6] = {200, 100, 100, 100, 100, 100};
- uint16_t Trhz[6] = {200, 100, 100, 100, 100, 100};
- uint16_t Twhr[6] = {120, 80, 80, 60, 60, 60};
- uint16_t Tcs[6] = {70, 35, 25, 25, 20, 15};
-
- uint16_t data_invalid_rhoh, data_invalid_rloh, data_invalid;
- uint16_t dv_window = 0;
- uint16_t en_lo, en_hi;
- uint16_t acc_clks;
- uint16_t addr_2_data, re_2_we, re_2_re, we_2_re, cs_cnt;
-
- en_lo = CEIL_DIV(Trp[mode], CLK_X);
- en_hi = CEIL_DIV(Treh[mode], CLK_X);
-#if ONFI_BLOOM_TIME
- if ((en_hi * CLK_X) < (Treh[mode] + 2))
- en_hi++;
-#endif
-
- if ((en_lo + en_hi) * CLK_X < Trc[mode])
- en_lo += CEIL_DIV((Trc[mode] - (en_lo + en_hi) * CLK_X), CLK_X);
-
- if ((en_lo + en_hi) < CLK_MULTI)
- en_lo += CLK_MULTI - en_lo - en_hi;
-
- while (dv_window < 8) {
- data_invalid_rhoh = en_lo * CLK_X + Trhoh[mode];
-
- data_invalid_rloh = (en_lo + en_hi) * CLK_X + Trloh[mode];
-
- data_invalid = data_invalid_rhoh < data_invalid_rloh ?
- data_invalid_rhoh : data_invalid_rloh;
-
- dv_window = data_invalid - Trea[mode];
-
- if (dv_window < 8)
- en_lo++;
- }
-
- acc_clks = CEIL_DIV(Trea[mode], CLK_X);
-
- while (acc_clks * CLK_X - Trea[mode] < 3)
- acc_clks++;
-
- if (data_invalid - acc_clks * CLK_X < 2)
- dev_warn(denali->dev, "%s, Line %d: Warning!\n",
- __FILE__, __LINE__);
-
- addr_2_data = CEIL_DIV(Tadl[mode], CLK_X);
- re_2_we = CEIL_DIV(Trhw[mode], CLK_X);
- re_2_re = CEIL_DIV(Trhz[mode], CLK_X);
- we_2_re = CEIL_DIV(Twhr[mode], CLK_X);
- cs_cnt = CEIL_DIV((Tcs[mode] - Trp[mode]), CLK_X);
- if (cs_cnt == 0)
- cs_cnt = 1;
-
- if (Tcea[mode]) {
- while (cs_cnt * CLK_X + Trea[mode] < Tcea[mode])
- cs_cnt++;
- }
-
-#if MODE5_WORKAROUND
- if (mode == 5)
- acc_clks = 5;
-#endif
-
- /* Sighting 3462430: Temporary hack for MT29F128G08CJABAWP:B */
- if (ioread32(denali->flash_reg + MANUFACTURER_ID) == 0 &&
- ioread32(denali->flash_reg + DEVICE_ID) == 0x88)
- acc_clks = 6;
-
- iowrite32(acc_clks, denali->flash_reg + ACC_CLKS);
- iowrite32(re_2_we, denali->flash_reg + RE_2_WE);
- iowrite32(re_2_re, denali->flash_reg + RE_2_RE);
- iowrite32(we_2_re, denali->flash_reg + WE_2_RE);
- iowrite32(addr_2_data, denali->flash_reg + ADDR_2_DATA);
- iowrite32(en_lo, denali->flash_reg + RDWR_EN_LO_CNT);
- iowrite32(en_hi, denali->flash_reg + RDWR_EN_HI_CNT);
- iowrite32(cs_cnt, denali->flash_reg + CS_SETUP_CNT);
-}
-
-/* queries the NAND device to see what ONFI modes it supports. */
-static uint16_t get_onfi_nand_para(struct denali_nand_info *denali)
-{
- int i;
-
- /*
- * we needn't to do a reset here because driver has already
- * reset all the banks before
- */
- if (!(ioread32(denali->flash_reg + ONFI_TIMING_MODE) &
- ONFI_TIMING_MODE__VALUE))
- return FAIL;
-
- for (i = 5; i > 0; i--) {
- if (ioread32(denali->flash_reg + ONFI_TIMING_MODE) &
- (0x01 << i))
- break;
- }
-
- nand_onfi_timing_set(denali, i);
-
- /*
- * By now, all the ONFI devices we know support the page cache
- * rw feature. So here we enable the pipeline_rw_ahead feature
- */
- /* iowrite32(1, denali->flash_reg + CACHE_WRITE_ENABLE); */
- /* iowrite32(1, denali->flash_reg + CACHE_READ_ENABLE); */
-
- return PASS;
-}
-
-static void get_samsung_nand_para(struct denali_nand_info *denali,
- uint8_t device_id)
-{
- if (device_id == 0xd3) { /* Samsung K9WAG08U1A */
- /* Set timing register values according to datasheet */
- iowrite32(5, denali->flash_reg + ACC_CLKS);
- iowrite32(20, denali->flash_reg + RE_2_WE);
- iowrite32(12, denali->flash_reg + WE_2_RE);
- iowrite32(14, denali->flash_reg + ADDR_2_DATA);
- iowrite32(3, denali->flash_reg + RDWR_EN_LO_CNT);
- iowrite32(2, denali->flash_reg + RDWR_EN_HI_CNT);
- iowrite32(2, denali->flash_reg + CS_SETUP_CNT);
- }
-}
-
-/*
* Use the configuration feature register to determine the maximum number of
* banks that the hardware supports.
*/
@@ -352,58 +201,6 @@ static void detect_max_banks(struct denali_nand_info *denali)
denali->max_banks <<= 1;
}
-static uint16_t denali_nand_timing_set(struct denali_nand_info *denali)
-{
- uint16_t status = PASS;
- uint32_t id_bytes[8], addr;
- uint8_t maf_id, device_id;
- int i;
-
- /*
- * Use read id method to get device ID and other params.
- * For some NAND chips, controller can't report the correct
- * device ID by reading from DEVICE_ID register
- */
- addr = MODE_11 | BANK(denali->flash_bank);
- index_addr(denali, addr | 0, 0x90);
- index_addr(denali, addr | 1, 0);
- for (i = 0; i < 8; i++)
- index_addr_read_data(denali, addr | 2, &id_bytes[i]);
- maf_id = id_bytes[0];
- device_id = id_bytes[1];
-
- if (ioread32(denali->flash_reg + ONFI_DEVICE_NO_OF_LUNS) &
- ONFI_DEVICE_NO_OF_LUNS__ONFI_DEVICE) { /* ONFI 1.0 NAND */
- if (FAIL == get_onfi_nand_para(denali))
- return FAIL;
- } else if (maf_id == 0xEC) { /* Samsung NAND */
- get_samsung_nand_para(denali, device_id);
- }
-
- dev_info(denali->dev,
- "Dump timing register values:\n"
- "acc_clks: %d, re_2_we: %d, re_2_re: %d\n"
- "we_2_re: %d, addr_2_data: %d, rdwr_en_lo_cnt: %d\n"
- "rdwr_en_hi_cnt: %d, cs_setup_cnt: %d\n",
- ioread32(denali->flash_reg + ACC_CLKS),
- ioread32(denali->flash_reg + RE_2_WE),
- ioread32(denali->flash_reg + RE_2_RE),
- ioread32(denali->flash_reg + WE_2_RE),
- ioread32(denali->flash_reg + ADDR_2_DATA),
- ioread32(denali->flash_reg + RDWR_EN_LO_CNT),
- ioread32(denali->flash_reg + RDWR_EN_HI_CNT),
- ioread32(denali->flash_reg + CS_SETUP_CNT));
-
- /*
- * If the user specified to override the default timings
- * with a specific ONFI mode, we apply those changes here.
- */
- if (onfi_timing_mode != NAND_DEFAULT_TIMINGS)
- nand_onfi_timing_set(denali, onfi_timing_mode);
-
- return status;
-}
-
static void denali_set_intr_modes(struct denali_nand_info *denali,
uint16_t INT_ENABLE)
{
@@ -1209,7 +1006,122 @@ static void denali_cmdfunc(struct mtd_info *mtd, unsigned int cmd, int col,
break;
}
}
-/* end NAND core entry points */
+
+#define DIV_ROUND_DOWN_ULL(ll, d) \
+ ({ unsigned long long _tmp = (ll); do_div(_tmp, d); _tmp; })
+
+static int denali_setup_data_interface(struct mtd_info *mtd,
+ const struct nand_data_interface *conf,
+ bool check_only)
+{
+ struct denali_nand_info *denali = mtd_to_denali(mtd);
+ const struct nand_sdr_timings *timings;
+ unsigned long t_clk;
+ int acc_clks, re_2_we, re_2_re, we_2_re, addr_2_data;
+ int rdwr_en_lo, rdwr_en_hi, rdwr_en_lo_hi, cs_setup;
+ int addr_2_data_mask;
+ uint32_t tmp;
+
+ timings = nand_get_sdr_timings(conf);
+ if (IS_ERR(timings))
+ return PTR_ERR(timings);
+
+ /* clk_x period in picoseconds */
+ t_clk = DIV_ROUND_DOWN_ULL(1000000000000ULL, denali->clk_x_rate);
+ if (!t_clk)
+ return -EINVAL;
+
+ if (check_only)
+ return 0;
+
+ /* tREA -> ACC_CLKS */
+ acc_clks = DIV_ROUND_UP(timings->tREA_max, t_clk);
+ acc_clks = min_t(int, acc_clks, ACC_CLKS__VALUE);
+
+ tmp = ioread32(denali->flash_reg + ACC_CLKS);
+ tmp &= ~ACC_CLKS__VALUE;
+ tmp |= acc_clks;
+ iowrite32(tmp, denali->flash_reg + ACC_CLKS);
+
+ /* tRWH -> RE_2_WE */
+ re_2_we = DIV_ROUND_UP(timings->tRHW_min, t_clk);
+ re_2_we = min_t(int, re_2_we, RE_2_WE__VALUE);
+
+ tmp = ioread32(denali->flash_reg + RE_2_WE);
+ tmp &= ~RE_2_WE__VALUE;
+ tmp |= re_2_we;
+ iowrite32(tmp, denali->flash_reg + RE_2_WE);
+
+ /* tRHZ -> RE_2_RE */
+ re_2_re = DIV_ROUND_UP(timings->tRHZ_max, t_clk);
+ re_2_re = min_t(int, re_2_re, RE_2_RE__VALUE);
+
+ tmp = ioread32(denali->flash_reg + RE_2_RE);
+ tmp &= ~RE_2_RE__VALUE;
+ tmp |= re_2_re;
+ iowrite32(tmp, denali->flash_reg + RE_2_RE);
+
+ /* tWHR -> WE_2_RE */
+ we_2_re = DIV_ROUND_UP(timings->tWHR_min, t_clk);
+ we_2_re = min_t(int, we_2_re, TWHR2_AND_WE_2_RE__WE_2_RE);
+
+ tmp = ioread32(denali->flash_reg + TWHR2_AND_WE_2_RE);
+ tmp &= ~TWHR2_AND_WE_2_RE__WE_2_RE;
+ tmp |= we_2_re;
+ iowrite32(tmp, denali->flash_reg + TWHR2_AND_WE_2_RE);
+
+ /* tADL -> ADDR_2_DATA */
+
+ /* for older versions, ADDR_2_DATA is only 6 bit wide */
+ addr_2_data_mask = TCWAW_AND_ADDR_2_DATA__ADDR_2_DATA;
+ if (denali->revision < 0x0501)
+ addr_2_data_mask >>= 1;
+
+ addr_2_data = DIV_ROUND_UP(timings->tADL_min, t_clk);
+ addr_2_data = min_t(int, addr_2_data, addr_2_data_mask);
+
+ tmp = ioread32(denali->flash_reg + TCWAW_AND_ADDR_2_DATA);
+ tmp &= ~addr_2_data_mask;
+ tmp |= addr_2_data;
+ iowrite32(tmp, denali->flash_reg + TCWAW_AND_ADDR_2_DATA);
+
+ /* tREH, tWH -> RDWR_EN_HI_CNT */
+ rdwr_en_hi = DIV_ROUND_UP(max(timings->tREH_min, timings->tWH_min),
+ t_clk);
+ rdwr_en_hi = min_t(int, rdwr_en_hi, RDWR_EN_HI_CNT__VALUE);
+
+ tmp = ioread32(denali->flash_reg + RDWR_EN_HI_CNT);
+ tmp &= ~RDWR_EN_HI_CNT__VALUE;
+ tmp |= rdwr_en_hi;
+ iowrite32(tmp, denali->flash_reg + RDWR_EN_HI_CNT);
+
+ /* tRP, tWP -> RDWR_EN_LO_CNT */
+ rdwr_en_lo = DIV_ROUND_UP(max(timings->tRP_min, timings->tWP_min),
+ t_clk);
+ rdwr_en_lo_hi = DIV_ROUND_UP(max(timings->tRC_min, timings->tWC_min),
+ t_clk);
+ rdwr_en_lo_hi = max(rdwr_en_lo_hi, DENALI_CLK_X_MULT);
+ rdwr_en_lo = max(rdwr_en_lo, rdwr_en_lo_hi - rdwr_en_hi);
+ rdwr_en_lo = min_t(int, rdwr_en_lo, RDWR_EN_LO_CNT__VALUE);
+
+ tmp = ioread32(denali->flash_reg + RDWR_EN_LO_CNT);
+ tmp &= ~RDWR_EN_LO_CNT__VALUE;
+ tmp |= rdwr_en_lo;
+ iowrite32(tmp, denali->flash_reg + RDWR_EN_LO_CNT);
+
+ /* tCS, tCEA -> CS_SETUP_CNT */
+ cs_setup = max3((int)DIV_ROUND_UP(timings->tCS_min, t_clk) - rdwr_en_lo,
+ (int)DIV_ROUND_UP(timings->tCEA_max, t_clk) - acc_clks,
+ 0);
+ cs_setup = min_t(int, cs_setup, CS_SETUP_CNT__VALUE);
+
+ tmp = ioread32(denali->flash_reg + CS_SETUP_CNT);
+ tmp &= ~CS_SETUP_CNT__VALUE;
+ tmp |= cs_setup;
+ iowrite32(tmp, denali->flash_reg + CS_SETUP_CNT);
+
+ return 0;
+}
/* Initialization code to bring the device up to a known good state */
static void denali_hw_init(struct denali_nand_info *denali)
@@ -1241,7 +1153,6 @@ static void denali_hw_init(struct denali_nand_info *denali)
/* Should set value for these registers when init */
iowrite32(0, denali->flash_reg + TWO_ROW_ADDR_CYCLES);
iowrite32(1, denali->flash_reg + ECC_ENABLE);
- denali_nand_timing_set(denali);
denali_irq_init(denali);
}
@@ -1432,17 +1343,6 @@ int denali_init(struct denali_nand_info *denali)
struct mtd_info *mtd = nand_to_mtd(chip);
int ret;
- if (denali->platform == INTEL_CE4100) {
- /*
- * Due to a silicon limitation, we can only support
- * ONFI timing mode 1 and below.
- */
- if (onfi_timing_mode < -1 || onfi_timing_mode > 1) {
- pr_err("Intel CE4100 only supports ONFI timing mode 1 or below\n");
- return -EINVAL;
- }
- }
-
/* allocate a temporary buffer for nand_scan_ident() */
denali->buf.buf = devm_kzalloc(denali->dev, PAGE_SIZE,
GFP_DMA | GFP_KERNEL);
@@ -1473,6 +1373,9 @@ int denali_init(struct denali_nand_info *denali)
chip->cmdfunc = denali_cmdfunc;
chip->read_byte = denali_read_byte;
chip->waitfunc = denali_waitfunc;
+ /* clk rate info is needed for setup_data_interface */
+ if (denali->clk_x_rate)
+ chip->setup_data_interface = denali_setup_data_interface;
/*
* scan for NAND devices attached to the controller
diff --git a/drivers/mtd/nand/denali.h b/drivers/mtd/nand/denali.h
index 80767cf..f0f4d75 100644
--- a/drivers/mtd/nand/denali.h
+++ b/drivers/mtd/nand/denali.h
@@ -72,11 +72,14 @@
#define GLOBAL_INT_ENABLE 0xf0
#define GLOBAL_INT_EN_FLAG BIT(0)
-#define WE_2_RE 0x100
-#define WE_2_RE__VALUE GENMASK(5, 0)
+#define TWHR2_AND_WE_2_RE 0x100
+#define TWHR2_AND_WE_2_RE__WE_2_RE GENMASK(5, 0)
+#define TWHR2_AND_WE_2_RE__TWHR2 GENMASK(13, 8)
-#define ADDR_2_DATA 0x110
-#define ADDR_2_DATA__VALUE GENMASK(5, 0)
+#define TCWAW_AND_ADDR_2_DATA 0x110
+/* The width of ADDR_2_DATA is 6 bit for old IP, 7 bit for new IP */
+#define TCWAW_AND_ADDR_2_DATA__ADDR_2_DATA GENMASK(6, 0)
+#define TCWAW_AND_ADDR_2_DATA__TCWAW GENMASK(13, 8)
#define RE_2_WE 0x120
#define RE_2_WE__VALUE GENMASK(5, 0)
@@ -128,6 +131,7 @@
#define CS_SETUP_CNT 0x220
#define CS_SETUP_CNT__VALUE GENMASK(4, 0)
+#define CS_SETUP_CNT__TWB GENMASK(17, 12)
#define SPARE_AREA_SKIP_BYTES 0x230
#define SPARE_AREA_SKIP_BYTES__VALUE GENMASK(5, 0)
@@ -294,16 +298,8 @@
#define CHNL_ACTIVE__CHANNEL2 BIT(2)
#define CHNL_ACTIVE__CHANNEL3 BIT(3)
-#define FAIL 1 /*failed flag*/
#define PASS 0 /*success flag*/
-#define CLK_X 5
-#define CLK_MULTI 4
-
-#define ONFI_BLOOM_TIME 1
-#define MODE5_WORKAROUND 0
-
-
#define MODE_00 0x00000000
#define MODE_01 0x04000000
#define MODE_10 0x08000000
@@ -316,14 +312,10 @@ struct nand_buf {
dma_addr_t dma_buf;
};
-#define INTEL_CE4100 1
-#define INTEL_MRST 2
-#define DT 3
-
struct denali_nand_info {
struct nand_chip nand;
+ unsigned long clk_x_rate; /* bus interface clock rate */
int flash_bank; /* currently selected chip */
- int platform;
struct nand_buf buf;
struct device *dev;
int page;
diff --git a/drivers/mtd/nand/denali_dt.c b/drivers/mtd/nand/denali_dt.c
index 38800ae..56bfff0 100644
--- a/drivers/mtd/nand/denali_dt.c
+++ b/drivers/mtd/nand/denali_dt.c
@@ -105,7 +105,6 @@ static int denali_dt_probe(struct platform_device *pdev)
denali->stepinfo = &data->stepinfo;
}
- denali->platform = DT;
denali->dev = &pdev->dev;
denali->irq = platform_get_irq(pdev, 0);
if (denali->irq < 0) {
@@ -130,6 +129,8 @@ static int denali_dt_probe(struct platform_device *pdev)
}
clk_prepare_enable(dt->clk);
+ denali->clk_x_rate = clk_get_rate(dt->clk);
+
ret = denali_init(denali);
if (ret)
goto out_disable_clk;
diff --git a/drivers/mtd/nand/denali_pci.c b/drivers/mtd/nand/denali_pci.c
index e0d50b6..8a66254 100644
--- a/drivers/mtd/nand/denali_pci.c
+++ b/drivers/mtd/nand/denali_pci.c
@@ -19,6 +19,9 @@
#define DENALI_NAND_NAME "denali-nand-pci"
+#define INTEL_CE4100 1
+#define INTEL_MRST 2
+
/* List of platforms this NAND controller has be integrated into */
static const struct pci_device_id denali_pci_ids[] = {
{ PCI_VDEVICE(INTEL, 0x0701), INTEL_CE4100 },
@@ -52,13 +55,11 @@ static int denali_pci_probe(struct pci_dev *dev, const struct pci_device_id *id)
}
if (id->driver_data == INTEL_CE4100) {
- denali->platform = INTEL_CE4100;
mem_base = pci_resource_start(dev, 0);
mem_len = pci_resource_len(dev, 1);
csr_base = pci_resource_start(dev, 1);
csr_len = pci_resource_len(dev, 1);
} else {
- denali->platform = INTEL_MRST;
csr_base = pci_resource_start(dev, 0);
csr_len = pci_resource_len(dev, 0);
mem_base = pci_resource_start(dev, 1);
@@ -74,6 +75,7 @@ static int denali_pci_probe(struct pci_dev *dev, const struct pci_device_id *id)
denali->irq = dev->irq;
denali->stepinfo = &denali_pci_stepinfo;
denali->nand.ecc.options |= NAND_ECC_MAXIMIZE;
+ denali->clk_x_rate = 200000000; /* 200 MHz */
ret = pci_request_regions(dev, DENALI_NAND_NAME);
if (ret) {
--
2.7.4
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