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[AVR32] SMC configuration in clock cycles
This patch makes the SMC configuration take timings in clock cycles instead of nanoseconds. A function to calculate timings in clock cycles is added. This patch removes the rounding troubles of the previous SMC configuration method. [hskinnemoen@atmel.com: fix atstk1002/atngw100 flash config] Signed-off-by: Kristoffer Nyborg Gregertsen <gregerts@stud.ntnu.no> Signed-off-by: Haavard Skinnemoen <hskinnemoen@atmel.com>
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193fdd1a99
commit
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4 changed files with 163 additions and 31 deletions
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@ -15,7 +15,7 @@
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#include <asm/arch/smc.h>
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static struct smc_config flash_config __initdata = {
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static struct smc_timing flash_timing __initdata = {
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.ncs_read_setup = 0,
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.nrd_setup = 40,
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.ncs_write_setup = 0,
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@ -28,7 +28,9 @@ static struct smc_config flash_config __initdata = {
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.read_cycle = 120,
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.write_cycle = 120,
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};
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static struct smc_config flash_config __initdata = {
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.bus_width = 2,
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.nrd_controlled = 1,
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.nwe_controlled = 1,
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@ -82,6 +84,7 @@ static int __init atngw100_flash_init(void)
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{
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int ret;
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smc_set_timing(&flash_config, &flash_timing);
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ret = smc_set_configuration(0, &flash_config);
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if (ret < 0) {
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printk(KERN_ERR "atngw100: failed to set NOR flash timing\n");
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@ -15,7 +15,7 @@
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#include <asm/arch/smc.h>
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static struct smc_config flash_config __initdata = {
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static struct smc_timing flash_timing __initdata = {
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.ncs_read_setup = 0,
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.nrd_setup = 40,
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.ncs_write_setup = 0,
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@ -28,7 +28,9 @@ static struct smc_config flash_config __initdata = {
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.read_cycle = 120,
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.write_cycle = 120,
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};
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static struct smc_config flash_config __initdata = {
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.bus_width = 2,
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.nrd_controlled = 1,
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.nwe_controlled = 1,
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@ -82,6 +84,7 @@ static int __init atstk1000_flash_init(void)
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{
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int ret;
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smc_set_timing(&flash_config, &flash_timing);
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ret = smc_set_configuration(0, &flash_config);
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if (ret < 0) {
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printk(KERN_ERR "atstk1000: failed to set NOR flash timing\n");
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@ -29,16 +29,25 @@ struct hsmc {
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static struct hsmc *hsmc;
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int smc_set_configuration(int cs, const struct smc_config *config)
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void smc_set_timing(struct smc_config *config,
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const struct smc_timing *timing)
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{
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unsigned long mul;
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unsigned long offset;
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u32 setup, pulse, cycle, mode;
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int recover;
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int cycle;
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if (!hsmc)
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return -ENODEV;
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if (cs >= NR_CHIP_SELECTS)
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return -EINVAL;
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unsigned long mul;
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/* Reset all SMC timings */
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config->ncs_read_setup = 0;
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config->nrd_setup = 0;
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config->ncs_write_setup = 0;
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config->nwe_setup = 0;
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config->ncs_read_pulse = 0;
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config->nrd_pulse = 0;
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config->ncs_write_pulse = 0;
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config->nwe_pulse = 0;
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config->read_cycle = 0;
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config->write_cycle = 0;
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/*
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* cycles = x / T = x * f
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@ -50,16 +59,102 @@ int smc_set_configuration(int cs, const struct smc_config *config)
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#define ns2cyc(x) ((((x) * mul) + 65535) >> 16)
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setup = (HSMC_BF(NWE_SETUP, ns2cyc(config->nwe_setup))
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| HSMC_BF(NCS_WR_SETUP, ns2cyc(config->ncs_write_setup))
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| HSMC_BF(NRD_SETUP, ns2cyc(config->nrd_setup))
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| HSMC_BF(NCS_RD_SETUP, ns2cyc(config->ncs_read_setup)));
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pulse = (HSMC_BF(NWE_PULSE, ns2cyc(config->nwe_pulse))
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| HSMC_BF(NCS_WR_PULSE, ns2cyc(config->ncs_write_pulse))
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| HSMC_BF(NRD_PULSE, ns2cyc(config->nrd_pulse))
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| HSMC_BF(NCS_RD_PULSE, ns2cyc(config->ncs_read_pulse)));
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cycle = (HSMC_BF(NWE_CYCLE, ns2cyc(config->write_cycle))
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| HSMC_BF(NRD_CYCLE, ns2cyc(config->read_cycle)));
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if (timing->ncs_read_setup > 0)
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config->ncs_read_setup = ns2cyc(timing->ncs_read_setup);
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if (timing->nrd_setup > 0)
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config->nrd_setup = ns2cyc(timing->nrd_setup);
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if (timing->ncs_write_setup > 0)
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config->ncs_write_setup = ns2cyc(timing->ncs_write_setup);
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if (timing->nwe_setup > 0)
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config->nwe_setup = ns2cyc(timing->nwe_setup);
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if (timing->ncs_read_pulse > 0)
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config->ncs_read_pulse = ns2cyc(timing->ncs_read_pulse);
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if (timing->nrd_pulse > 0)
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config->nrd_pulse = ns2cyc(timing->nrd_pulse);
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if (timing->ncs_write_pulse > 0)
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config->ncs_write_pulse = ns2cyc(timing->ncs_write_pulse);
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if (timing->nwe_pulse > 0)
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config->nwe_pulse = ns2cyc(timing->nwe_pulse);
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if (timing->read_cycle > 0)
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config->read_cycle = ns2cyc(timing->read_cycle);
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if (timing->write_cycle > 0)
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config->write_cycle = ns2cyc(timing->write_cycle);
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/* Extend read cycle in needed */
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if (timing->ncs_read_recover > 0)
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recover = ns2cyc(timing->ncs_read_recover);
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else
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recover = 1;
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cycle = config->ncs_read_setup + config->ncs_read_pulse + recover;
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if (config->read_cycle < cycle)
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config->read_cycle = cycle;
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/* Extend read cycle in needed */
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if (timing->nrd_recover > 0)
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recover = ns2cyc(timing->nrd_recover);
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else
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recover = 1;
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cycle = config->nrd_setup + config->nrd_pulse + recover;
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if (config->read_cycle < cycle)
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config->read_cycle = cycle;
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/* Extend write cycle in needed */
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if (timing->ncs_write_recover > 0)
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recover = ns2cyc(timing->ncs_write_recover);
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else
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recover = 1;
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cycle = config->ncs_write_setup + config->ncs_write_pulse + recover;
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if (config->write_cycle < cycle)
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config->write_cycle = cycle;
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/* Extend write cycle in needed */
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if (timing->nwe_recover > 0)
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recover = ns2cyc(timing->nwe_recover);
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else
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recover = 1;
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cycle = config->nwe_setup + config->nwe_pulse + recover;
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if (config->write_cycle < cycle)
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config->write_cycle = cycle;
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}
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EXPORT_SYMBOL(smc_set_timing);
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int smc_set_configuration(int cs, const struct smc_config *config)
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{
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unsigned long offset;
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u32 setup, pulse, cycle, mode;
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if (!hsmc)
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return -ENODEV;
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if (cs >= NR_CHIP_SELECTS)
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return -EINVAL;
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setup = (HSMC_BF(NWE_SETUP, config->nwe_setup)
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| HSMC_BF(NCS_WR_SETUP, config->ncs_write_setup)
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| HSMC_BF(NRD_SETUP, config->nrd_setup)
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| HSMC_BF(NCS_RD_SETUP, config->ncs_read_setup));
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pulse = (HSMC_BF(NWE_PULSE, config->nwe_pulse)
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| HSMC_BF(NCS_WR_PULSE, config->ncs_write_pulse)
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| HSMC_BF(NRD_PULSE, config->nrd_pulse)
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| HSMC_BF(NCS_RD_PULSE, config->ncs_read_pulse));
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cycle = (HSMC_BF(NWE_CYCLE, config->write_cycle)
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| HSMC_BF(NRD_CYCLE, config->read_cycle));
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switch (config->bus_width) {
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case 1:
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@ -15,22 +15,50 @@
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/*
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* All timing parameters are in nanoseconds.
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*/
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struct smc_config {
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struct smc_timing {
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/* Delay from address valid to assertion of given strobe */
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u16 ncs_read_setup;
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u16 nrd_setup;
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u16 ncs_write_setup;
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u16 nwe_setup;
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int ncs_read_setup;
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int nrd_setup;
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int ncs_write_setup;
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int nwe_setup;
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/* Pulse length of given strobe */
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u16 ncs_read_pulse;
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u16 nrd_pulse;
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u16 ncs_write_pulse;
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u16 nwe_pulse;
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int ncs_read_pulse;
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int nrd_pulse;
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int ncs_write_pulse;
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int nwe_pulse;
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/* Total cycle length of given operation */
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u16 read_cycle;
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u16 write_cycle;
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int read_cycle;
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int write_cycle;
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/* Minimal recovery times, will extend cycle if needed */
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int ncs_read_recover;
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int nrd_recover;
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int ncs_write_recover;
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int nwe_recover;
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};
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/*
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* All timing parameters are in clock cycles.
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*/
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struct smc_config {
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/* Delay from address valid to assertion of given strobe */
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u8 ncs_read_setup;
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u8 nrd_setup;
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u8 ncs_write_setup;
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u8 nwe_setup;
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/* Pulse length of given strobe */
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u8 ncs_read_pulse;
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u8 nrd_pulse;
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u8 ncs_write_pulse;
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u8 nwe_pulse;
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/* Total cycle length of given operation */
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u8 read_cycle;
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u8 write_cycle;
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/* Bus width in bytes */
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u8 bus_width;
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@ -76,6 +104,9 @@ struct smc_config {
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unsigned int tdf_mode:1;
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};
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extern void smc_set_timing(struct smc_config *config,
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const struct smc_timing *timing);
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extern int smc_set_configuration(int cs, const struct smc_config *config);
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extern struct smc_config *smc_get_configuration(int cs);
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