diff options
Diffstat (limited to 'src/ao_ee.c')
-rw-r--r-- | src/ao_ee.c | 459 |
1 files changed, 0 insertions, 459 deletions
diff --git a/src/ao_ee.c b/src/ao_ee.c deleted file mode 100644 index f299b925..00000000 --- a/src/ao_ee.c +++ /dev/null @@ -1,459 +0,0 @@ -/* - * Copyright © 2009 Keith Packard <keithp@keithp.com> - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; version 2 of the License. - * - * This program is distributed in the hope that it will be useful, but - * WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * General Public License for more details. - * - * You should have received a copy of the GNU General Public License along - * with this program; if not, write to the Free Software Foundation, Inc., - * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. - */ - -#include "ao.h" -#include "25lc1024.h" - -/* - * Using SPI on USART 0, with P1_2 as the chip select - */ - -#define EE_CS P1_2 -#define EE_CS_INDEX 2 - -__xdata uint8_t ao_ee_dma_in_done; -__xdata uint8_t ao_ee_dma_out_done; -__xdata uint8_t ao_ee_mutex; - -uint8_t ao_ee_dma_out_id; -uint8_t ao_ee_dma_in_id; - -static __xdata uint8_t ao_ee_const = 0xff; - -#define ao_ee_delay() do { \ - _asm nop _endasm; \ - _asm nop _endasm; \ - _asm nop _endasm; \ -} while(0) - -void ao_ee_cs_low(void) -{ - ao_ee_delay(); - EE_CS = 0; - ao_ee_delay(); -} - -void ao_ee_cs_high(void) -{ - ao_ee_delay(); - EE_CS = 1; - ao_ee_delay(); -} - -/* Send bytes over SPI. - * - * This sets up two DMA engines, one writing the data and another reading - * bytes coming back. We use the bytes coming back to tell when the transfer - * is complete, as the transmit register is double buffered and hence signals - * completion one byte before the transfer is actually complete - */ -static void -ao_ee_send(void __xdata *block, uint16_t len) -{ - ao_dma_set_transfer(ao_ee_dma_in_id, - &U0DBUFXADDR, - &ao_ee_const, - len, - DMA_CFG0_WORDSIZE_8 | - DMA_CFG0_TMODE_SINGLE | - DMA_CFG0_TRIGGER_URX0, - DMA_CFG1_SRCINC_0 | - DMA_CFG1_DESTINC_0 | - DMA_CFG1_PRIORITY_NORMAL); - - ao_dma_set_transfer(ao_ee_dma_out_id, - block, - &U0DBUFXADDR, - len, - DMA_CFG0_WORDSIZE_8 | - DMA_CFG0_TMODE_SINGLE | - DMA_CFG0_TRIGGER_UTX0, - DMA_CFG1_SRCINC_1 | - DMA_CFG1_DESTINC_0 | - DMA_CFG1_PRIORITY_NORMAL); - - ao_dma_start(ao_ee_dma_in_id); - ao_dma_start(ao_ee_dma_out_id); - ao_dma_trigger(ao_ee_dma_out_id); - __critical while (!ao_ee_dma_in_done) - ao_sleep(&ao_ee_dma_in_done); -} - -/* Receive bytes over SPI. - * - * This sets up tow DMA engines, one reading the data and another - * writing constant values to the SPI transmitter as that is what - * clocks the data coming in. - */ -static void -ao_ee_recv(void __xdata *block, uint16_t len) -{ - ao_dma_set_transfer(ao_ee_dma_in_id, - &U0DBUFXADDR, - block, - len, - DMA_CFG0_WORDSIZE_8 | - DMA_CFG0_TMODE_SINGLE | - DMA_CFG0_TRIGGER_URX0, - DMA_CFG1_SRCINC_0 | - DMA_CFG1_DESTINC_1 | - DMA_CFG1_PRIORITY_NORMAL); - - ao_dma_set_transfer(ao_ee_dma_out_id, - &ao_ee_const, - &U0DBUFXADDR, - len, - DMA_CFG0_WORDSIZE_8 | - DMA_CFG0_TMODE_SINGLE | - DMA_CFG0_TRIGGER_UTX0, - DMA_CFG1_SRCINC_0 | - DMA_CFG1_DESTINC_0 | - DMA_CFG1_PRIORITY_NORMAL); - - ao_dma_start(ao_ee_dma_in_id); - ao_dma_start(ao_ee_dma_out_id); - ao_dma_trigger(ao_ee_dma_out_id); - __critical while (!ao_ee_dma_in_done) - ao_sleep(&ao_ee_dma_in_done); -} - -#define EE_BLOCK 256 - -struct ao_ee_instruction { - uint8_t instruction; - uint8_t address[3]; -} __xdata ao_ee_instruction; - -static void -ao_ee_write_enable(void) -{ - ao_ee_cs_low(); - ao_ee_instruction.instruction = EE_WREN; - ao_ee_send(&ao_ee_instruction, 1); - ao_ee_cs_high(); -} - -static uint8_t -ao_ee_rdsr(void) -{ - ao_ee_cs_low(); - ao_ee_instruction.instruction = EE_RDSR; - ao_ee_send(&ao_ee_instruction, 1); - ao_ee_recv(&ao_ee_instruction, 1); - ao_ee_cs_high(); - return ao_ee_instruction.instruction; -} - -static void -ao_ee_wrsr(uint8_t status) -{ - ao_ee_cs_low(); - ao_ee_instruction.instruction = EE_WRSR; - ao_ee_instruction.address[0] = status; - ao_ee_send(&ao_ee_instruction, 2); - ao_ee_cs_high(); -} - -#define EE_BLOCK_NONE 0xffff - -static __xdata uint8_t ao_ee_data[EE_BLOCK]; -static __pdata uint16_t ao_ee_block = EE_BLOCK_NONE; -static __pdata uint8_t ao_ee_block_dirty; - -/* Write the current block to the EEPROM */ -static void -ao_ee_write_block(void) -{ - uint8_t status; - - status = ao_ee_rdsr(); - if (status & (EE_STATUS_BP0|EE_STATUS_BP1|EE_STATUS_WPEN)) { - status &= ~(EE_STATUS_BP0|EE_STATUS_BP1|EE_STATUS_WPEN); - ao_ee_wrsr(status); - } - ao_ee_write_enable(); - ao_ee_cs_low(); - ao_ee_instruction.instruction = EE_WRITE; - ao_ee_instruction.address[0] = ao_ee_block >> 8; - ao_ee_instruction.address[1] = ao_ee_block; - ao_ee_instruction.address[2] = 0; - ao_ee_send(&ao_ee_instruction, 4); - ao_ee_send(ao_ee_data, EE_BLOCK); - ao_ee_cs_high(); - for (;;) { - uint8_t status = ao_ee_rdsr(); - if ((status & EE_STATUS_WIP) == 0) - break; - } -} - -/* Read the current block from the EEPROM */ -static void -ao_ee_read_block(void) -{ - ao_ee_cs_low(); - ao_ee_instruction.instruction = EE_READ; - ao_ee_instruction.address[0] = ao_ee_block >> 8; - ao_ee_instruction.address[1] = ao_ee_block; - ao_ee_instruction.address[2] = 0; - ao_ee_send(&ao_ee_instruction, 4); - ao_ee_recv(ao_ee_data, EE_BLOCK); - ao_ee_cs_high(); -} - -static void -ao_ee_flush_internal(void) -{ - if (ao_ee_block_dirty) { - ao_ee_write_block(); - ao_ee_block_dirty = 0; - } -} - -static void -ao_ee_fill(uint16_t block) -{ - if (block != ao_ee_block) { - ao_ee_flush_internal(); - ao_ee_block = block; - ao_ee_read_block(); - } -} - -uint8_t -ao_ee_write(uint32_t pos, uint8_t *buf, uint16_t len) __reentrant -{ - uint16_t block; - uint16_t this_len; - uint8_t this_off; - - if (pos >= AO_EE_DATA_SIZE || pos + len > AO_EE_DATA_SIZE) - return 0; - while (len) { - - /* Compute portion of transfer within - * a single block - */ - this_off = pos; - this_len = 256 - (uint16_t) this_off; - block = (uint16_t) (pos >> 8); - if (this_len > len) - this_len = len; - if (this_len & 0xff00) - ao_panic(AO_PANIC_EE); - - /* Transfer the data */ - ao_mutex_get(&ao_ee_mutex); { - if (this_len != 256) - ao_ee_fill(block); - else { - ao_ee_flush_internal(); - ao_ee_block = block; - } - memcpy(ao_ee_data + this_off, buf, this_len); - ao_ee_block_dirty = 1; - } ao_mutex_put(&ao_ee_mutex); - - /* See how much is left */ - buf += this_len; - len -= this_len; - } - return 1; -} - -uint8_t -ao_ee_read(uint32_t pos, uint8_t *buf, uint16_t len) __reentrant -{ - uint16_t block; - uint16_t this_len; - uint8_t this_off; - - if (pos >= AO_EE_DATA_SIZE || pos + len > AO_EE_DATA_SIZE) - return 0; - while (len) { - - /* Compute portion of transfer within - * a single block - */ - this_off = pos; - this_len = 256 - (uint16_t) this_off; - block = (uint16_t) (pos >> 8); - if (this_len > len) - this_len = len; - if (this_len & 0xff00) - ao_panic(AO_PANIC_EE); - - /* Transfer the data */ - ao_mutex_get(&ao_ee_mutex); { - ao_ee_fill(block); - memcpy(buf, ao_ee_data + this_off, this_len); - } ao_mutex_put(&ao_ee_mutex); - - /* See how much is left */ - buf += this_len; - len -= this_len; - } - return 1; -} - -void -ao_ee_flush(void) __reentrant -{ - ao_mutex_get(&ao_ee_mutex); { - ao_ee_flush_internal(); - } ao_mutex_put(&ao_ee_mutex); -} - -/* - * Read/write the config block, which is in - * the last block of the ao_eeprom - */ -uint8_t -ao_ee_write_config(uint8_t *buf, uint16_t len) __reentrant -{ - if (len > AO_EE_BLOCK_SIZE) - return 0; - ao_mutex_get(&ao_ee_mutex); { - ao_ee_fill(AO_EE_CONFIG_BLOCK); - memcpy(ao_ee_data, buf, len); - ao_ee_block_dirty = 1; - ao_ee_flush_internal(); - } ao_mutex_put(&ao_ee_mutex); - return 1; -} - -uint8_t -ao_ee_read_config(uint8_t *buf, uint16_t len) __reentrant -{ - if (len > AO_EE_BLOCK_SIZE) - return 0; - ao_mutex_get(&ao_ee_mutex); { - ao_ee_fill(AO_EE_CONFIG_BLOCK); - memcpy(buf, ao_ee_data, len); - } ao_mutex_put(&ao_ee_mutex); - return 1; -} - -static void -ee_dump(void) -{ - __xdata uint8_t b; - __xdata uint16_t block; - __xdata uint8_t i; - - ao_cmd_hex(); - block = ao_cmd_lex_i; - if (ao_cmd_status != ao_cmd_success) - return; - i = 0; - do { - if ((i & 7) == 0) { - if (i) - putchar('\n'); - ao_cmd_put16((uint16_t) i); - } - putchar(' '); - ao_ee_read(((uint32_t) block << 8) | i, &b, 1); - ao_cmd_put8(b); - ++i; - } while (i != 0); - putchar('\n'); -} - -static void -ee_store(void) -{ - __xdata uint16_t block; - __xdata uint8_t i; - __xdata uint16_t len; - __xdata uint8_t b; - __xdata uint32_t addr; - - ao_cmd_hex(); - block = ao_cmd_lex_i; - ao_cmd_hex(); - i = ao_cmd_lex_i; - addr = ((uint32_t) block << 8) | i; - ao_cmd_hex(); - len = ao_cmd_lex_i; - if (ao_cmd_status != ao_cmd_success) - return; - while (len--) { - ao_cmd_hex(); - if (ao_cmd_status != ao_cmd_success) - return; - b = ao_cmd_lex_i; - ao_ee_write(addr, &b, 1); - addr++; - } - ao_ee_flush(); -} - -__code struct ao_cmds ao_ee_cmds[] = { - { 'e', ee_dump, "e <block> Dump a block of EEPROM data" }, - { 'w', ee_store, "w <block> <start> <len> <data> ... Write data to EEPROM" }, - { 0, ee_store, NULL }, -}; - -/* - * To initialize the chip, set up the CS line and - * the SPI interface - */ -void -ao_ee_init(void) -{ - /* set up CS */ - EE_CS = 1; - P1DIR |= (1 << EE_CS_INDEX); - P1SEL &= ~(1 << EE_CS_INDEX); - - /* Set up the USART pin assignment */ - PERCFG = (PERCFG & ~PERCFG_U0CFG_ALT_MASK) | PERCFG_U0CFG_ALT_2; - - /* Ensure that USART0 takes precidence over USART1 for pins that - * they share - */ - P2SEL = (P2SEL & ~P2SEL_PRI3P1_MASK) | P2SEL_PRI3P1_USART0; - - /* Make the SPI pins be controlled by the USART peripheral */ - P1SEL |= ((1 << 5) | (1 << 4) | (1 << 3)); - - /* Set up OUT DMA */ - ao_ee_dma_out_id = ao_dma_alloc(&ao_ee_dma_out_done); - - /* Set up IN DMA */ - ao_ee_dma_in_id = ao_dma_alloc(&ao_ee_dma_in_done); - - /* Set up the USART. - * - * SPI master mode - */ - U0CSR = (UxCSR_MODE_SPI | UxCSR_RE | UxCSR_MASTER); - - /* Set the baud rate and signal parameters - * - * The cc1111 is limited to a 24/8 MHz SPI clock, - * while the 25LC1024 is limited to 20MHz. So, - * use the 3MHz clock (BAUD_E 17, BAUD_M 0) - */ - U0BAUD = 0; - U0GCR = (UxGCR_CPOL_NEGATIVE | - UxGCR_CPHA_FIRST_EDGE | - UxGCR_ORDER_MSB | - (17 << UxGCR_BAUD_E_SHIFT)); - ao_cmd_register(&ao_ee_cmds[0]); -} |