/*************************************************************************** * drivers/mtd/gd25.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ***************************************************************************/ /*************************************************************************** * Included Files ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*************************************************************************** * Configuration ***************************************************************************/ #ifndef CONFIG_GD25_SPIMODE # define CONFIG_GD25_SPIMODE SPIDEV_MODE0 #endif #ifndef CONFIG_GD25_SPIFREQUENCY # define CONFIG_GD25_SPIFREQUENCY 20000000 #endif /*************************************************************************** * GD25 Instructions ***************************************************************************/ /* Command Value Description */ #define GD25_WREN 0x06 /* Write enable */ #define GD25_WRDI 0x04 /* Write Disable */ #define GD25_RDSR 0x05 /* Read status register */ #define GD25_RDSR1 0x35 /* Read status register-1 */ #define GD25_WRSR 0x01 /* Write Status Register */ #define GD25_RDDATA 0x03 /* Read data bytes */ #define GD25_FRD 0x0b /* Higher speed read */ #define GD25_FRDD 0x3b /* Fast read, dual output */ #define GD25_PP 0x02 /* Program page */ #define GD25_SE 0x20 /* Sector erase (4KB) */ #define GD25_BE 0xd8 /* Block Erase (64KB) */ #define GD25_CE 0xc7 /* Chip erase */ #define GD25_PD 0xb9 /* Power down */ #define GD25_PURDID 0xab /* Release PD, Device ID */ #define GD25_RDMFID 0x90 /* Read Manufacturer / Device */ #define GD25_JEDEC_ID 0x9f /* JEDEC ID read */ #define GD25_4BEN 0xb7 /* Enable 4-byte Mode */ /*************************************************************************** * GD25 Registers ***************************************************************************/ /* JEDEC Read ID register values */ #define P25_JEDEC_MANUFACTURER 0x85 #define GD25_JEDEC_MANUFACTURER 0xc8 /* GigaDevice manufacturer ID */ #define GD25L_JEDEC_MEMORY_TYPE 0x60 /* GD25L memory type, 1.8V */ #define GD25Q_JEDEC_MEMORY_TYPE 0x40 /* GD25Q memory type, 3V */ #define GD25_JEDEC_CAPACITY_8MBIT 0x14 /* 256x4096 = 8Mbit memory capacity */ #define GD25_JEDEC_CAPACITY_16MBIT 0x15 /* 512x4096 = 16Mbit memory capacity */ #define GD25_JEDEC_CAPACITY_32MBIT 0x16 /* 1024x4096 = 32Mbit memory capacity */ #define GD25_JEDEC_CAPACITY_64MBIT 0x17 /* 2048x4096 = 64Mbit memory capacity */ #define GD25_JEDEC_CAPACITY_128MBIT 0x18 /* 4096x4096 = 128Mbit memory capacity */ #define GD25_JEDEC_CAPACITY_256MBIT 0x19 /* 8192x4096 = 256Mbit memory capacity */ #define GD25_NSECTORS_8MBIT 256 /* 256 sectors x 4096 bytes/sector = 1Mb */ #define GD25_NSECTORS_16MBIT 512 /* 512 sectors x 4096 bytes/sector = 2Mb */ #define GD25_NSECTORS_32MBIT 1024 /* 1024 sectors x 4096 bytes/sector = 4Mb */ #define GD25_NSECTORS_64MBIT 2048 /* 2048 sectors x 4096 bytes/sector = 8Mb */ #define GD25_NSECTORS_128MBIT 4096 /* 4096 sectors x 4096 bytes/sector = 16Mb */ #define GD25_NSECTORS_256MBIT 8192 /* 8192 sectors x 4096 bytes/sector = 32Mb */ /* Status register bit definitions */ #define GD25_SR_WIP (1 << 0) /* Bit 0: Write in Progress */ #define GD25_SR_WEL (1 << 1) /* Bit 1: Write Enable Latch */ #define GD25_SR1_EN4B (1 << 3) /* Bit 3: Enable 4byte address */ #define GD25_DUMMY 0x00 /*************************************************************************** * Chip Geometries ***************************************************************************/ /* All members of the family support uniform 4KB sectors and 256B pages */ #define GD25_SECTOR_SHIFT 12 /* Sector size 1 << 12 = 4Kb */ #define GD25_SECTOR_SIZE (1 << 12) /* Sector size 1 << 12 = 4Kb */ #define GD25_PAGE_SHIFT 8 /* Sector size 1 << 8 = 256b */ #define GD25_PAGE_SIZE (1 << 8) /* Sector size 1 << 8 = 256b */ #define GD25_ERASED_STATE 0xff /* State of FLASH when erased */ /*************************************************************************** * Private Types ***************************************************************************/ /* This type represents the state of the MTD device. The struct mtd_dev_s * must appear at the beginning of the definition so that you can freely * cast between pointers to struct mtd_dev_s and struct gd25_dev_s. */ struct gd25_dev_s { struct mtd_dev_s mtd; /* MTD interface */ FAR struct spi_dev_s *spi; /* Saved SPI interface instance */ uint32_t spi_devid; /* Chip select inputs */ uint16_t nsectors; /* Number of erase sectors */ uint8_t prev_instr; /* Previous instruction given to GD25 device */ bool addr_4byte; /* True: Use Four-byte address */ }; /*************************************************************************** * Private Function Prototypes ***************************************************************************/ /* Helpers */ static inline void gd25_purdid(FAR struct gd25_dev_s *priv); static inline void gd25_pd(FAR struct gd25_dev_s *priv); static void gd25_lock(FAR struct spi_dev_s *spi); static inline void gd25_unlock(FAR struct spi_dev_s *spi); static inline int gd25_readid(FAR struct gd25_dev_s *priv); #ifndef CONFIG_GD25_READONLY static void gd25_unprotect(FAR struct gd25_dev_s *priv); #endif static uint8_t gd25_waitwritecomplete(FAR struct gd25_dev_s *priv); static inline void gd25_wren(FAR struct gd25_dev_s *priv); static inline void gd25_wrdi(FAR struct gd25_dev_s *priv); static bool gd25_is_erased(FAR struct gd25_dev_s *priv, off_t address, off_t size); static void gd25_sectorerase(FAR struct gd25_dev_s *priv, off_t offset); static inline int gd25_chiperase(FAR struct gd25_dev_s *priv); static void gd25_byteread(FAR struct gd25_dev_s *priv, FAR uint8_t *buffer, off_t address, size_t nbytes); #ifndef CONFIG_GD25_READONLY static void gd25_pagewrite(FAR struct gd25_dev_s *priv, FAR const uint8_t *buffer, off_t address, size_t nbytes); #endif static inline uint8_t gd25_rdsr(FAR struct gd25_dev_s *priv, uint32_t id); static inline void gd25_4ben(FAR struct gd25_dev_s *priv); /* MTD driver methods */ static int gd25_erase(FAR struct mtd_dev_s *dev, off_t startblock, size_t nblocks); static ssize_t gd25_bread(FAR struct mtd_dev_s *dev, off_t startblock, size_t nblocks, FAR uint8_t *buf); static ssize_t gd25_bwrite(FAR struct mtd_dev_s *dev, off_t startblock, size_t nblocks, FAR const uint8_t *buf); static ssize_t gd25_read(FAR struct mtd_dev_s *dev, off_t offset, size_t nbytes, FAR uint8_t *buffer); static int gd25_ioctl(FAR struct mtd_dev_s *dev, int cmd, unsigned long arg); #ifdef CONFIG_MTD_BYTE_WRITE static ssize_t gd25_write(FAR struct mtd_dev_s *dev, off_t offset, size_t nbytes, FAR const uint8_t *buffer); #endif /*************************************************************************** * Private Functions ***************************************************************************/ /*************************************************************************** * Name: gd25_purdid ***************************************************************************/ static inline void gd25_purdid(FAR struct gd25_dev_s *priv) { SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); SPI_SEND(priv->spi, GD25_PURDID); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); up_udelay(20); } /*************************************************************************** * Name: gd25_pd ***************************************************************************/ static inline void gd25_pd(FAR struct gd25_dev_s *priv) { SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); SPI_SEND(priv->spi, GD25_PD); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); } /*************************************************************************** * Name: gd25_lock ***************************************************************************/ static void gd25_lock(FAR struct spi_dev_s *spi) { SPI_LOCK(spi, true); SPI_SETMODE(spi, CONFIG_GD25_SPIMODE); SPI_SETBITS(spi, 8); SPI_HWFEATURES(spi, 0); SPI_SETFREQUENCY(spi, CONFIG_GD25_SPIFREQUENCY); } /*************************************************************************** * Name: gd25_unlock ***************************************************************************/ static inline void gd25_unlock(FAR struct spi_dev_s *spi) { SPI_LOCK(spi, false); } /*************************************************************************** * Name: gd25_readid ***************************************************************************/ static inline int gd25_readid(FAR struct gd25_dev_s *priv) { uint16_t manufacturer; uint16_t memory; uint16_t capacity; int ret = -ENODEV; /* Lock and configure the SPI bus */ gd25_lock(priv->spi); gd25_purdid(priv); /* Select this FLASH part. */ SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send the "Read ID (RDID)" command and read the first three ID bytes */ SPI_SEND(priv->spi, GD25_JEDEC_ID); manufacturer = SPI_SEND(priv->spi, GD25_DUMMY); memory = SPI_SEND(priv->spi, GD25_DUMMY); capacity = SPI_SEND(priv->spi, GD25_DUMMY); /* Deselect the FLASH and unlock the bus */ SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); finfo("manufacturer: %02x memory: %02x capacity: %02x\n", manufacturer, memory, capacity); /* Check for a valid manufacturer and memory type */ if ((manufacturer == GD25_JEDEC_MANUFACTURER || manufacturer == P25_JEDEC_MANUFACTURER) && (memory == GD25L_JEDEC_MEMORY_TYPE || memory == GD25Q_JEDEC_MEMORY_TYPE)) { if (capacity == GD25_JEDEC_CAPACITY_8MBIT) { priv->nsectors = GD25_NSECTORS_8MBIT; } else if (capacity == GD25_JEDEC_CAPACITY_16MBIT) { priv->nsectors = GD25_NSECTORS_16MBIT; } else if (capacity == GD25_JEDEC_CAPACITY_32MBIT) { priv->nsectors = GD25_NSECTORS_32MBIT; } else if (capacity == GD25_JEDEC_CAPACITY_64MBIT) { priv->nsectors = GD25_NSECTORS_64MBIT; } else if (capacity == GD25_JEDEC_CAPACITY_128MBIT) { priv->nsectors = GD25_NSECTORS_128MBIT; } else if (capacity == GD25_JEDEC_CAPACITY_256MBIT) { priv->nsectors = GD25_NSECTORS_256MBIT; } else { goto out; } /* Capacity greater than 16MB, Enable four-byte address */ if (priv->nsectors > GD25_NSECTORS_128MBIT) { gd25_4ben(priv); if ((gd25_rdsr(priv, 1) & GD25_SR1_EN4B) != GD25_SR1_EN4B) { ferr("ERROR: capacity %02x: Can't enable 4-byte mode!\n", capacity); ret = -EBUSY; goto out; } priv->addr_4byte = true; } ret = OK; } out: /* We don't understand the manufacturer or the memory type. * Or enable four-byte address failed. * Or success. */ gd25_pd(priv); gd25_unlock(priv->spi); return ret; } /*************************************************************************** * Name: gd25_unprotect ***************************************************************************/ #ifndef CONFIG_GD25_READONLY static void gd25_unprotect(FAR struct gd25_dev_s *priv) { /* Lock and configure the SPI bus */ gd25_lock(priv->spi); gd25_purdid(priv); /* Wait for any preceding write or erase operation to complete. */ gd25_waitwritecomplete(priv); /* Send "Write enable (WREN)" */ gd25_wren(priv); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send "Write enable status (EWSR)" */ SPI_SEND(priv->spi, GD25_WRSR); /* Following by the new status value */ SPI_SEND(priv->spi, 0); SPI_SEND(priv->spi, 0); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); /* Unlock the SPI bus */ gd25_pd(priv); gd25_unlock(priv->spi); } #endif /*************************************************************************** * Name: gd25_waitwritecomplete ***************************************************************************/ static uint8_t gd25_waitwritecomplete(FAR struct gd25_dev_s *priv) { uint8_t status; do { status = gd25_rdsr(priv, 0); if (priv->prev_instr != GD25_PP && (status & GD25_SR_WIP) != 0) { gd25_unlock(priv->spi); nxsig_usleep(1000); gd25_lock(priv->spi); } } while ((status & GD25_SR_WIP) != 0); return status; } /*************************************************************************** * Name: gd25_rdsr ***************************************************************************/ static inline uint8_t gd25_rdsr(FAR struct gd25_dev_s *priv, uint32_t id) { uint8_t status; uint8_t rdsr[2] = { GD25_RDSR, GD25_RDSR1 }; SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); SPI_SEND(priv->spi, rdsr[id]); status = SPI_SEND(priv->spi, GD25_DUMMY); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); return status; } /*************************************************************************** * Name: gd25_4ben ***************************************************************************/ static inline void gd25_4ben(FAR struct gd25_dev_s *priv) { SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); SPI_SEND(priv->spi, GD25_4BEN); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); } /*************************************************************************** * Name: gd25_wren ***************************************************************************/ static inline void gd25_wren(FAR struct gd25_dev_s *priv) { SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); SPI_SEND(priv->spi, GD25_WREN); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); } /*************************************************************************** * Name: gd25_wrdi ***************************************************************************/ static inline void gd25_wrdi(FAR struct gd25_dev_s *priv) { SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); SPI_SEND(priv->spi, GD25_WRDI); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); } /*************************************************************************** * Name: gd25_is_erased ***************************************************************************/ static bool gd25_is_erased(FAR struct gd25_dev_s *priv, off_t address, off_t size) { size_t npages = size >> GD25_PAGE_SHIFT; uint32_t erased_32; unsigned int i; uint32_t buf[GD25_PAGE_SIZE / sizeof(uint32_t)]; DEBUGASSERT((address % GD25_PAGE_SIZE) == 0); DEBUGASSERT((size % GD25_PAGE_SIZE) == 0); memset(&erased_32, GD25_ERASED_STATE, sizeof(erased_32)); /* Walk all pages in given area. */ while (npages) { /* Check if all bytes of page is in erased state. */ gd25_byteread(priv, (uint8_t *)buf, address, GD25_PAGE_SIZE); for (i = 0; i < GD25_PAGE_SIZE / sizeof(uint32_t); i++) { if (buf[i] != erased_32) { /* Page not in erased state! */ return false; } } address += GD25_PAGE_SIZE; npages--; } return true; } /*************************************************************************** * Name: gd25_sectorerase ***************************************************************************/ static void gd25_sectorerase(FAR struct gd25_dev_s *priv, off_t sector) { off_t address = sector << GD25_SECTOR_SHIFT; finfo("sector: %08lx\n", (long)sector); /* Check if sector is already erased. */ if (gd25_is_erased(priv, address, GD25_SECTOR_SIZE)) { /* Sector already in erased state, so skip erase. */ return; } /* Wait for any preceding write or erase operation to complete. */ gd25_waitwritecomplete(priv); /* Send write enable instruction */ gd25_wren(priv); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send the "Sector Erase (SE)" instruction */ SPI_SEND(priv->spi, GD25_SE); priv->prev_instr = GD25_SE; /* Send the sector address high byte first. Only the most significant * bits (those corresponding to the sector) have any meaning. */ if (priv->addr_4byte) { SPI_SEND(priv->spi, (address >> 24) & 0xff); } SPI_SEND(priv->spi, (address >> 16) & 0xff); SPI_SEND(priv->spi, (address >> 8) & 0xff); SPI_SEND(priv->spi, address & 0xff); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); } /*************************************************************************** * Name: gd25_chiperase ***************************************************************************/ static inline int gd25_chiperase(FAR struct gd25_dev_s *priv) { /* Wait for any preceding write or erase operation to complete. */ gd25_waitwritecomplete(priv); /* Send write enable instruction */ gd25_wren(priv); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send the "Chip Erase (CE)" instruction */ SPI_SEND(priv->spi, GD25_CE); priv->prev_instr = GD25_CE; SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); return OK; } /*************************************************************************** * Name: gd25_byteread ***************************************************************************/ static void gd25_byteread(FAR struct gd25_dev_s *priv, FAR uint8_t *buffer, off_t address, size_t nbytes) { finfo("address: %08lx nbytes: %d\n", (long)address, (int)nbytes); /* Wait for any preceding write or erase operation to complete. */ gd25_waitwritecomplete(priv); /* Make sure that writing is disabled */ gd25_wrdi(priv); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send "Read from Memory " instruction */ #ifdef CONFIG_GD25_SLOWREAD SPI_SEND(priv->spi, GD25_RDDATA); priv->prev_instr = GD25_RDDATA; #else SPI_SEND(priv->spi, GD25_FRD); priv->prev_instr = GD25_FRD; #endif /* Send the address high byte first. */ if (priv->addr_4byte) { SPI_SEND(priv->spi, (address >> 24) & 0xff); } SPI_SEND(priv->spi, (address >> 16) & 0xff); SPI_SEND(priv->spi, (address >> 8) & 0xff); SPI_SEND(priv->spi, address & 0xff); /* Send a dummy byte */ #ifndef CONFIG_GD25_SLOWREAD SPI_SEND(priv->spi, GD25_DUMMY); #endif /* Then read all of the requested bytes */ SPI_RECVBLOCK(priv->spi, buffer, nbytes); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); } /*************************************************************************** * Name: gd25_pagewrite ***************************************************************************/ #ifndef CONFIG_GD25_READONLY static void gd25_pagewrite(FAR struct gd25_dev_s *priv, FAR const uint8_t *buffer, off_t address, size_t nbytes) { finfo("address: %08lx nwords: %d\n", (long)address, (int)nbytes); DEBUGASSERT(priv && buffer && (address & 0xff) == 0 && (nbytes & 0xff) == 0); for (; nbytes > 0; nbytes -= GD25_PAGE_SIZE) { /* Wait for any preceding write or erase operation to complete. */ gd25_waitwritecomplete(priv); /* Enable write access to the FLASH */ gd25_wren(priv); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send the "Page Program (GD25_PP)" Command */ SPI_SEND(priv->spi, GD25_PP); priv->prev_instr = GD25_PP; /* Send the address high byte first. */ if (priv->addr_4byte) { SPI_SEND(priv->spi, (address >> 24) & 0xff); } SPI_SEND(priv->spi, (address >> 16) & 0xff); SPI_SEND(priv->spi, (address >> 8) & 0xff); SPI_SEND(priv->spi, address & 0xff); /* Then send the page of data */ SPI_SNDBLOCK(priv->spi, buffer, GD25_PAGE_SIZE); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); /* Update addresses */ address += GD25_PAGE_SIZE; buffer += GD25_PAGE_SIZE; } } #endif /*************************************************************************** * Name: gd25_bytewrite ***************************************************************************/ #if defined(CONFIG_MTD_BYTE_WRITE) && !defined(CONFIG_GD25_READONLY) static inline void gd25_bytewrite(FAR struct gd25_dev_s *priv, FAR const uint8_t *buffer, off_t offset, uint16_t count) { finfo("offset: %08lx count:%d\n", (long)offset, count); /* Wait for any preceding write to complete. We could simplify things by * perform this wait at the end of each write operation (rather than at * the beginning of ALL operations), but have the wait first will slightly * improve performance. */ gd25_waitwritecomplete(priv); /* Enable the write access to the FLASH */ gd25_wren(priv); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), true); /* Send "Page Program (PP)" command */ SPI_SEND(priv->spi, GD25_PP); priv->prev_instr = GD25_PP; /* Send the page offset high byte first. */ if (priv->addr_4byte) { SPI_SEND(priv->spi, (offset >> 24) & 0xff); } SPI_SEND(priv->spi, (offset >> 16) & 0xff); SPI_SEND(priv->spi, (offset >> 8) & 0xff); SPI_SEND(priv->spi, offset & 0xff); /* Then write the specified number of bytes */ SPI_SNDBLOCK(priv->spi, buffer, count); SPI_SELECT(priv->spi, SPIDEV_FLASH(priv->spi_devid), false); finfo("Written\n"); } #endif /* defined(CONFIG_MTD_BYTE_WRITE) && !defined(CONFIG_GD25_READONLY) */ /*************************************************************************** * Name: gd25_erase ***************************************************************************/ static int gd25_erase(FAR struct mtd_dev_s *dev, off_t startblock, size_t nblocks) { #ifdef CONFIG_GD25_READONLY return -EACESS #else FAR struct gd25_dev_s *priv = (FAR struct gd25_dev_s *)dev; size_t blocksleft = nblocks; finfo("startblock: %08lx nblocks: %d\n", (long)startblock, (int)nblocks); /* Lock access to the SPI bus until we complete the erase */ gd25_lock(priv->spi); gd25_purdid(priv); while (blocksleft-- > 0) { /* Erase each sector */ gd25_sectorerase(priv, startblock); startblock++; } gd25_pd(priv); gd25_unlock(priv->spi); return (int)nblocks; #endif } /*************************************************************************** * Name: gd25_bread ***************************************************************************/ static ssize_t gd25_bread(FAR struct mtd_dev_s *dev, off_t startblock, size_t nblocks, FAR uint8_t *buffer) { ssize_t nbytes; finfo("startblock: %08lx nblocks: %d\n", (long)startblock, (int)nblocks); nbytes = gd25_read(dev, startblock << GD25_PAGE_SHIFT, nblocks << GD25_PAGE_SHIFT, buffer); if (nbytes > 0) { nbytes >>= GD25_PAGE_SHIFT; } return nbytes; } /*************************************************************************** * Name: gd25_bwrite ***************************************************************************/ static ssize_t gd25_bwrite(FAR struct mtd_dev_s *dev, off_t startblock, size_t nblocks, FAR const uint8_t *buffer) { #ifdef CONFIG_GD25_READONLY return -EACCESS; #else FAR struct gd25_dev_s *priv = (FAR struct gd25_dev_s *)dev; finfo("startblock: %08lx nblocks: %d\n", (long)startblock, (int)nblocks); /* Lock the SPI bus and write all of the pages to FLASH */ gd25_lock(priv->spi); gd25_purdid(priv); gd25_pagewrite(priv, buffer, startblock << GD25_PAGE_SHIFT, nblocks << GD25_PAGE_SHIFT); gd25_pd(priv); gd25_unlock(priv->spi); return nblocks; #endif } /*************************************************************************** * Name: gd25_read ***************************************************************************/ static ssize_t gd25_read(FAR struct mtd_dev_s *dev, off_t offset, size_t nbytes, FAR uint8_t *buffer) { FAR struct gd25_dev_s *priv = (FAR struct gd25_dev_s *)dev; finfo("offset: %08lx nbytes: %d\n", (long)offset, (int)nbytes); /* Lock the SPI bus and select this FLASH part */ gd25_lock(priv->spi); gd25_purdid(priv); gd25_byteread(priv, buffer, offset, nbytes); gd25_pd(priv); gd25_unlock(priv->spi); finfo("return nbytes: %d,%x,%x\n", (int)nbytes, buffer[0], buffer[1]); return nbytes; } /*************************************************************************** * Name: gd25_write ***************************************************************************/ #ifdef CONFIG_MTD_BYTE_WRITE static ssize_t gd25_write(FAR struct mtd_dev_s *dev, off_t offset, size_t nbytes, FAR const uint8_t *buffer) { #ifdef CONFIG_GD25_READONLY return -EACCESS; #else FAR struct gd25_dev_s *priv = (FAR struct gd25_dev_s *)dev; int startpage; int endpage; int count; int index; int bytestowrite; finfo("offset: %08lx nbytes: %d\n", (long)offset, (int)nbytes); /* We must test if the offset + count crosses one or more pages * and perform individual writes. The devices can only write in * page increments. */ startpage = offset / GD25_PAGE_SIZE; endpage = (offset + nbytes) / GD25_PAGE_SIZE; gd25_lock(priv->spi); gd25_purdid(priv); if (startpage == endpage) { /* All bytes within one programmable page. Just do the write. */ gd25_bytewrite(priv, buffer, offset, nbytes); } else { /* Write the 1st partial-page */ count = nbytes; bytestowrite = GD25_PAGE_SIZE - (offset & (GD25_PAGE_SIZE - 1)); gd25_bytewrite(priv, buffer, offset, bytestowrite); /* Update offset and count */ offset += bytestowrite; count -= bytestowrite; index = bytestowrite; /* Write full pages */ while (count >= GD25_PAGE_SIZE) { gd25_bytewrite(priv, &buffer[index], offset, GD25_PAGE_SIZE); /* Update offset and count */ offset += GD25_PAGE_SIZE; count -= GD25_PAGE_SIZE; index += GD25_PAGE_SIZE; } /* Now write any partial page at the end */ if (count > 0) { gd25_bytewrite(priv, &buffer[index], offset, count); } } gd25_pd(priv); gd25_unlock(priv->spi); return nbytes; #endif } #endif /*************************************************************************** * Name: gd25_ioctl ***************************************************************************/ static int gd25_ioctl(FAR struct mtd_dev_s *dev, int cmd, unsigned long arg) { FAR struct gd25_dev_s *priv = (FAR struct gd25_dev_s *)dev; int ret = -EINVAL; finfo("cmd: %d \n", cmd); switch (cmd) { case MTDIOC_GEOMETRY: { FAR struct mtd_geometry_s *geo = (FAR struct mtd_geometry_s *)((uintptr_t)arg); if (geo) { geo->blocksize = GD25_PAGE_SIZE; geo->erasesize = GD25_SECTOR_SIZE; geo->neraseblocks = priv->nsectors; ret = OK; finfo("blocksize: %" PRIu32 " erasesize: %" PRIu32 " neraseblocks: %" PRIu32 "\n", geo->blocksize, geo->erasesize, geo->neraseblocks); } } break; case MTDIOC_BULKERASE: { /* Erase the entire device */ gd25_lock(priv->spi); gd25_purdid(priv); ret = gd25_chiperase(priv); gd25_pd(priv); gd25_unlock(priv->spi); } break; case MTDIOC_XIPBASE: default: ret = -ENOTTY; break; } finfo("return %d\n", ret); return ret; } /*************************************************************************** * Public Functions ***************************************************************************/ /*************************************************************************** * Name: gd25_initialize * * Description: * Create an initialize MTD device instance. MTD devices aren't registered * in the file system, but are created as instances that can be bound to * other functions (such as a block or character driver front end). * ***************************************************************************/ FAR struct mtd_dev_s *gd25_initialize(FAR struct spi_dev_s *spi, uint32_t spi_devid) { FAR struct gd25_dev_s *priv; int ret; priv = (FAR struct gd25_dev_s *)kmm_zalloc(sizeof(struct gd25_dev_s)); if (priv) { /* Initialize the allocated structure (unsupported methods were * nullified by kmm_zalloc). */ priv->mtd.erase = gd25_erase; priv->mtd.bread = gd25_bread; priv->mtd.bwrite = gd25_bwrite; priv->mtd.read = gd25_read; priv->mtd.ioctl = gd25_ioctl; #ifdef CONFIG_MTD_BYTE_WRITE priv->mtd.write = gd25_write; #endif priv->mtd.name = "gd25"; priv->spi = spi; priv->spi_devid = spi_devid; /* Deselect the FLASH */ SPI_SELECT(spi, SPIDEV_FLASH(priv->spi_devid), false); /* Identify the FLASH chip and get its capacity */ ret = gd25_readid(priv); if (ret != OK) { ferr("ERROR: Unrecognized\n"); kmm_free(priv); return NULL; } else { /* Make sure that the FLASH is unprotected * so that we can write into it */ #ifndef CONFIG_GD25_READONLY gd25_unprotect(priv); #endif } } /* Return the implementation-specific state structure as the MTD device */ return (FAR struct mtd_dev_s *)priv; }