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https://github.com/fail0verflow/mini.git
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380c342890
add better range checking on NAND addresses as per marcan
237 lines
5.8 KiB
C
237 lines
5.8 KiB
C
#include "hollywood.h"
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#include "nand.h"
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#include "utils.h"
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#include "string.h"
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#include "start.h"
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#include "memory.h"
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#include "crypto.h"
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#include "irq.h"
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#include "ipc.h"
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#include "gecko.h"
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//#define NAND_DEBUG 1
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#undef NAND_SUPPORT_WRITE
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#undef NAND_SUPPORT_ERASE
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#ifdef NAND_DEBUG
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# include "gecko.h"
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# define NAND_debug(f, arg...) gecko_printf("NAND: " f "\n", ##arg);
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#else
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# define NAND_debug(f, arg...)
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#endif
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#define STACK_ALIGN(type, name, cnt, alignment) \
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u8 _al__##name[((sizeof(type)*(cnt)) + (alignment) + \
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(((sizeof(type)*(cnt))%(alignment)) > 0 ? ((alignment) - \
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((sizeof(type)*(cnt))%(alignment))) : 0))]; \
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type *name = (type*)(((u32)(_al__##name)) + ((alignment) - (( \
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(u32)(_al__##name))&((alignment)-1))))
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#define NAND_RESET 0xff
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#define NAND_CHIPID 0x90
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#define NAND_GETSTATUS 0x70
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#define NAND_ERASE_PRE 0x60
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#define NAND_ERASE_POST 0xd0
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#define NAND_READ_PRE 0x00
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#define NAND_READ_POST 0x30
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#define NAND_WRITE_PRE 0x80
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#define NAND_WRITE_POST 0x10
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#define NAND_BUSY_MASK 0x80000000
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#define NAND_FLAGS_IRQ 0x40000000
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#define NAND_FLAGS_WAIT 0x8000
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#define NAND_FLAGS_WR 0x4000
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#define NAND_FLAGS_RD 0x2000
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#define NAND_FLAGS_ECC 0x1000
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#define PAGE_SIZE 2048
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#define PAGE_SPARE_SIZE 64
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#define NAND_MAX_PAGE 4096
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static int ipc_code = 0;
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static int ipc_tag = 0;
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void nand_irq(void)
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{
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int code, tag;
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if (ipc_code != 0) {
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code = ipc_code;
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tag = ipc_tag;
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ipc_code = ipc_tag = 0;
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ipc_post(code, tag, 0);
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}
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}
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static inline u32 __nand_read32(u32 addr)
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{
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return read32(addr);
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}
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inline void __nand_write32(u32 addr, u32 data)
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{
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write32(addr, data);
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}
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inline void __nand_wait(void) {
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while(__nand_read32(NAND_CMD) & NAND_BUSY_MASK);
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}
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void nand_send_command(u32 command, u32 bitmask, u32 flags, u32 num_bytes) {
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u32 cmd = NAND_BUSY_MASK | (bitmask << 24) | (command << 16) | flags | num_bytes;
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NAND_debug("nand_send_command(%x, %x, %x, %x) -> %x\n",
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command, bitmask, flags, num_bytes, cmd);
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__nand_write32(NAND_CMD, 0x7fffffff);
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__nand_write32(NAND_CMD, 0);
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__nand_write32(NAND_CMD, cmd);
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}
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void __nand_set_address(s32 page_off, s32 pageno) {
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NAND_debug("nand_set_address: %d, %d\n", page_off, pageno);
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if (page_off != -1) __nand_write32(NAND_ADDR0, page_off);
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if (pageno != -1) __nand_write32(NAND_ADDR1, pageno);
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}
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void __nand_setup_dma(u8 *data, u8 *spare) {
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NAND_debug("nand_setup_dma: %p, %p\n", data, spare);
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if (((s32)data) != -1) {
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dc_invalidaterange(data, 0x800);
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__nand_write32(NAND_DATA, (s32)data);
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}
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if (((s32)spare) != -1) {
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dc_invalidaterange(spare, 0x50); // +0x10 for calculated syndrome?
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__nand_write32(NAND_ECC, (s32)spare);
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}
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}
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int nand_reset(void)
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{
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NAND_debug("nand_reset()\n");
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nand_send_command(NAND_RESET, 0, NAND_FLAGS_WAIT, 0);
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__nand_wait();
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// yay cargo cult
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__nand_write32(NAND_CONF, 0x08000000);
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__nand_write32(NAND_CONF, 0x4b3e0e7f);
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return 0;
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}
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void nand_get_id(u8 *idbuf) {
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__nand_set_address(0,0);
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dc_invalidaterange(idbuf, 0x40);
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__nand_setup_dma(idbuf, (u8 *)-1);
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nand_send_command(NAND_CHIPID, 1, NAND_FLAGS_IRQ | NAND_FLAGS_RD, 0x40);
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}
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void nand_get_status(u8 *status_buf) {
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status_buf[0]=0;
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dc_invalidaterange(status_buf, 0x40);
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__nand_setup_dma(status_buf, (u8 *)-1);
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nand_send_command(NAND_GETSTATUS, 0, NAND_FLAGS_IRQ | NAND_FLAGS_RD, 0x40);
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}
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void nand_read_page(u32 pageno, void *data, void *ecc) {
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NAND_debug("nand_read_page(%u, %p, %p)\n", pageno, data, ecc);
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__nand_set_address(0, pageno);
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nand_send_command(NAND_READ_PRE, 0x1f, 0, 0);
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dc_invalidaterange(data, 0x800);
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dc_invalidaterange(ecc, 0x50);
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__nand_setup_dma(data, ecc);
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nand_send_command(NAND_READ_POST, 0, NAND_FLAGS_IRQ | NAND_FLAGS_WAIT | NAND_FLAGS_RD | NAND_FLAGS_ECC, 0x840);
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}
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void nand_wait() {
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__nand_wait();
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}
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#ifdef NAND_SUPPORT_WRITE
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void nand_write_page(u32 pageno, void *data, void *ecc) {
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NAND_debug("nand_write_page(%u, %p, %p)\n", pageno, data, ecc);
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if ((pageno < 0x200) || (pageno >= NAND_PAGE_MAX)) {
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printf("Error: nand_write to page %d forbidden\n", pageno);
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return;
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}
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dc_flushrange(data, 0x800);
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dc_flushrange(ecc, 0x40);
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__nand_set_address(0, pageno);
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__nand_setup_dma(data, ecc);
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nand_send_command(NAND_WRITE_PRE, 0x1f, NAND_FLAGS_IRQ | NAND_FLAGS_WR | NAND_FLAGS_ECC, 0x840);
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nand_send_command(NAND_WRITE_POST, 0, NAND_FLAGS_IRQ | NAND_FLAGS_WAIT, 0);
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}
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#endif
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#ifdef NAND_SUPPORT_ERASE
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void nand_erase_block(u32 pageno) {
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NAND_debug("nand_erase_block(%d)\n", pageno);
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if ((pageno < 0x200) || (pageno >= NAND_PAGE_MAX)) {
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printf("Error: nand_erase to page %d forbidden\n", pageno);
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return;
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}
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__nand_set_address(0, pageno);
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nand_send_command(NAND_ERASE_PRE, 0x1c, 0, 0);
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nand_send_command(NAND_ERASE_POST, 0, NAND_FLAGS_IRQ | NAND_FLAGS_WAIT, 0);
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}
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#endif
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void nand_initialize(void)
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{
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ipc_code = ipc_tag = 0;
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nand_reset();
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irq_enable(IRQ_NAND);
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}
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void nand_ipc(volatile ipc_request *req)
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{
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if (ipc_code != 0 || ipc_tag != 0) {
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gecko_printf("NAND: previous IPC request is not done yet.");
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ipc_post(req->code, req->tag, 1, -1);
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return;
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}
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switch (req->req) {
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case IPC_NAND_RESET:
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nand_reset();
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ipc_post(req->code, req->tag, 0);
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break;
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case IPC_NAND_GETID:
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ipc_code = req->code;
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ipc_tag = req->tag;
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nand_get_id((u8 *)req->args[0]);
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break;
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case IPC_NAND_READ:
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ipc_code = req->code;
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ipc_tag = req->tag;
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nand_read_page(req->args[0], (void *)req->args[1],
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(void *)req->args[2]);
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break;
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#ifdef NAND_SUPPORT_WRITE
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case IPC_NAND_WRITE:
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ipc_code = req->code;
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ipc_tag = req->tag;
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nand_write_page(req->args[0], (void *)req->args[1],
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(void *)req->args[2]);
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break;
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#endif
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#ifdef NAND_SUPPORT_ERASE
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case IPC_NAND_ERASE:
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ipc_code = req->code;
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ipc_tag = req->tag;
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nand_erase_block(req->args[0]);
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break;
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#endif
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default:
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gecko_printf("IPC: unknown SLOW NAND request %04x\n",
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req->req);
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}
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}
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