usbtest/libopencm3/lib/lm4f/rcc.c

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/*
* This file is part of the libopencm3 project.
*
* Copyright (C) 2012 Alexandru Gagniuc <mr.nuke.me@gmail.com>
*
* This library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This library 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*
*/
/**
* @defgroup rcc_file RCC
*
* @ingroup LM4Fxx
*
@author @htmlonly &copy; @endhtmlonly 2012
Alexandru Gagniuc <mr.nuke.me@gmail.com>
* \brief <b>libopencm3 LM4F Clock control API</b>
*
* The LM$F clock API provides functionaliity for manipulating the system clock,
* oscillator, and PLL. Functions are provided for fine-grained control of clock
* control registers, while also providing higher level functionality to easily
* configure the main system clock source.
*
* The following code snippet uses fine-grained mechanisms to configures the
* chip to run off an external 16MHz crystal, and use the PLL to derive a clock
* frequency of 80MHz.
* @code{.c}
* // A divisor of 5 gives us a clock of 400/5 = 80MHz
* #define PLLDIV_80MHZ 5
*
* // Enable the main oscillator
* rcc_enable_main_osc();
*
* // Make RCC2 override RCC
* rcc_enable_rcc2();
*
* // Set XTAL value to 16MHz
* rcc_configure_xtal(XTAL_16M);
* // Set the oscillator source as the main oscillator
* rcc_set_osc_source(OSCSRC_MOSC);
* // Enable the PLL
* rcc_pll_on();
*
* // Change the clock divisor
* rcc_set_pll_divisor(PLLDIV_80MHZ);
*
* // We cannot use the PLL as a clock source until it locks
* rcc_wait_for_pll_ready();
* // Disable PLL bypass to derive the system clock from the PLL clock
* rcc_pll_bypass_disable();
*
* // Keep track of frequency
* lm4f_rcc_sysclk_freq = 80E6;
* @endcode
*
* The same can be achieved by a simple call to high-level routines:
* @code
* // A divisor of 5 gives us a clock of 400/5 = 80MHz
* #define PLLDIV_80MHZ 5
*
* rcc_sysclk_config(OSCSRC_MOSC, XTAL_16M, PLLDIV_80MHZ);
* @endcode
*
* @{
*/
#include <libopencm3/lm4f/rcc.h>
/**
* @defgroup rcc_low_level Low-level clock control API
@ingroup rcc_file
* @{
*/
/**
* \brief System clock frequency
*
* This variable is provided to keep track of the system clock frequency. It
* should be updated every time the system clock is changed via the fine-grained
* mechanisms. The initial value is 16MHz, which corresponds to the clock of the
* internal 16MHz oscillator.
*
* High-level routines update the system clock automatically.
* For read access, it is recommended to access this variable via
* @code
* rcc_get_system_clock_frequency();
* @endcode
*
* If write access is desired (i.e. when changing the system clock via the
* fine-grained mechanisms), then include the following line in your code:
* @code
* extern uint32_t lm4f_rcc_sysclk_freq;
* @endcode
*/
uint32_t lm4f_rcc_sysclk_freq = 16000000;
/**
* \brief Configure the crystal type connected to the device.
*
* Configure the crystal type connected between the OSCO and OSCI pins by
* writing the appropriate value to the XTAL field in SYSCTL_RCC. The PLL
* parameters are automatically adjusted in hardware to provide a PLL clock of
* 400MHz.
*
* @param[in] xtal predefined crystal type @see xtal_t
*/
void rcc_configure_xtal(enum xtal_t xtal)
{
uint32_t reg32;
reg32 = SYSCTL_RCC;
reg32 &= ~SYSCTL_RCC_XTAL_MASK;
reg32 |= (xtal & SYSCTL_RCC_XTAL_MASK);
SYSCTL_RCC = reg32;
}
/**
* \brief Disable the main oscillator
*
* Sets the IOSCDIS bit in SYSCTL_RCC, disabling the main oscillator.
*/
void rcc_disable_main_osc(void)
{
SYSCTL_RCC |= SYSCTL_RCC_MOSCDIS;
}
/**
* \brief Disable the internal oscillator
*
* Sets the IOSCDIS bit in SYSCTL_RCC, disabling the internal oscillator.
*/
void rcc_disable_interal_osc(void)
{
SYSCTL_RCC |= SYSCTL_RCC_IOSCDIS;
}
/**
* \brief Enable the main oscillator
*
* Clears the MOSCDIS bit in SYSCTL_RCC, enabling the main oscillator.
*/
void rcc_enable_main_osc(void)
{
SYSCTL_RCC &= ~SYSCTL_RCC_MOSCDIS;
}
/**
* \brief Enable the internal oscillator
*
* Clears the IOSCDIS bit in SYSCTL_RCC, enabling the internal oscillator.
*/
void rcc_enable_interal_osc(void)
{
SYSCTL_RCC &= ~SYSCTL_RCC_IOSCDIS;
}
/**
* \brief Enable the use of SYSCTL_RCC2 register for clock control
*
* Enables the USERCC2 bit in SYSCTTL_RCC2. Settings in SYSCTL_RCC2 will
* override settings in SYSCTL_RCC.
* This function must be called before other calls to manipulate the clock, as
* libopencm3 uses the SYSCTL_RCC2 register.
*/
void rcc_enable_rcc2(void)
{
SYSCTL_RCC2 |= SYSCTL_RCC2_USERCC2;
}
/**
* \brief Power down the main PLL
*
* Sets the SYSCTL_RCC2_PWRDN2 in SYSCTL_RCC2 to power down the PLL.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_pll_off(void)
{
SYSCTL_RCC2 |= SYSCTL_RCC2_PWRDN2;
}
/**
* \brief Power up the main PLL
*
* Clears the PWRDN2 in SYSCTL_RCC2 to power on the PLL.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_pll_on(void)
{
SYSCTL_RCC2 &= ~SYSCTL_RCC2_PWRDN2;
}
/**
* \brief Set the oscillator source to be used by the system clock
*
* Set the clock source for the system clock.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_set_osc_source(enum osc_src src)
{
uint32_t reg32;
reg32 = SYSCTL_RCC2;
reg32 &= ~SYSCTL_RCC2_OSCSRC2_MASK;
reg32 |= (src & SYSCTL_RCC2_OSCSRC2_MASK);
SYSCTL_RCC2 = reg32;
}
/**
* \brief Disable the PLL bypass and use the PLL clock
*
* Clear BYPASS2 in SYSCTL_RCC2. The system clock is derived from the PLL
* clock divided by the divisor specified in SYSDIV2.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_pll_bypass_disable(void)
{
SYSCTL_RCC2 &= ~SYSCTL_RCC2_BYPASS2;
}
/**
* \brief Enable the PLL bypass and use the oscillator clock
*
* Set BYPASS2 in SYSCTL_RCC2. The system clock is derived from the oscillator
* clock divided by the divisor specified in SYSDIV2.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_pll_bypass_enable(void)
{
SYSCTL_RCC2 |= SYSCTL_RCC2_BYPASS2;
}
/**
* \brief Set the PLL clock divisor (from 400MHz)
*
* Set the binary divisor used to predivide the system clock down for use as the
* timing reference for the PWM module. The divisor is expected to be a divisor
* from 400MHz, not 200MHz. The DIV400 is also set.
*
* Specifies the divisor that used to generate the system clock from either the
* PLL output or the oscillator source (depending on the BYPASS2 bit in
* SYSCTL_RCC2). SYSDIV2 is used for the divisor when both the USESYSDIV bit in
* SYSCTL_RCC is set.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*
* @param[in] div clock divisor to apply to the 400MHz PLL clock. It is the
* caller's responsibility to ensure that the divisor will not create
* a system clock that is out of spec.
*/
void rcc_set_pll_divisor(uint8_t div400)
{
uint32_t reg32;
SYSCTL_RCC |= SYSCTL_RCC_USESYSDIV;
reg32 = SYSCTL_RCC2;
reg32 &= ~SYSCTL_RCC2_SYSDIV400_MASK;
reg32 |= ((div400 - 1) << 22) & SYSCTL_RCC2_SYSDIV400_MASK;
/* We are expecting a divider from 400MHz */
reg32 |= SYSCTL_RCC2_DIV400;
SYSCTL_RCC2 = reg32;
}
/**
* \brief Set the PWM unit clock divisor
*
* Set the binary divisor used to predivide the system clock down for use as the
* timing reference for the PWM module.
*
* @param[in] div clock divisor to use @see pwm_clkdiv_t
*/
void rcc_set_pwm_divisor(enum pwm_clkdiv div)
{
uint32_t reg32;
reg32 = SYSCTL_RCC;
reg32 &= ~SYSCTL_RCC_PWMDIV_MASK;
reg32 |= (div & SYSCTL_RCC_PWMDIV_MASK);
SYSCTL_RCC = reg32;
}
/**
* \brief Power down the USB PLL
*
* Sets the USBPWRDN in SYSCTL_RCC2 to power down the USB PLL.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_usb_pll_off(void)
{
SYSCTL_RCC2 |= SYSCTL_RCC2_USBPWRDN;
}
/**
* \brief Power up the USB PLL
*
* Clears the USBPWRDN in SYSCTL_RCC2 to power on the USB PLL.
*
* USERCC2 must have been set by a call to rcc_enable_rcc2() before calling this
* function.
*/
void rcc_usb_pll_on(void)
{
SYSCTL_RCC2 &= ~SYSCTL_RCC2_USBPWRDN;
}
/**
* \brief Wait for main PLL to lock
*
* Waits until the LOCK bit in SYSCTL_PLLSTAT is set. This guarantees that the
* PLL is locked, and ready to use.
*/
void rcc_wait_for_pll_ready(void)
{
while (!(SYSCTL_PLLSTAT & SYSCTL_PLLSTAT_LOCK));
}
/**
* @}
*/
/**
* @defgroup rcc_high_level High-level clock control API
@ingroup rcc_file
* @{
*/
/**
* \brief Change the PLL divisor
*
* Changes the divisor applied to the 400MHz PLL clock. The PLL must have
* previously been configured by selecting an appropriate XTAL value, and
* turning on the PLL. This function does not reconfigure the XTAL value or
* oscillator source. It only changes the PLL divisor.
*
* The PLL is bypassed before modifying the divisor, and the function blocks
* until the PLL is locked, then the bypass is disabled, before returning.
*
* @param [in] pll_div400 The clock divisor to apply to the 400MHz PLL clock.
*/
void rcc_change_pll_divisor(uint8_t pll_div400)
{
/* Bypass the PLL while its settings are modified */
rcc_pll_bypass_enable();
/* Change the clock divisor */
rcc_set_pll_divisor(pll_div400);
/* We cannot use the PLL as a clock source until it locks */
rcc_wait_for_pll_ready();
/* Disable PLL bypass to derive the system clock from the PLL clock */
rcc_pll_bypass_disable();
/* Update the system clock frequency for housekeeping */
lm4f_rcc_sysclk_freq = (uint32_t)400E6 / pll_div400;
}
/**
* \brief Get the system clock frequency
*
* @return System clock frequency in Hz
*/
uint32_t rcc_get_system_clock_frequency(void)
{
return lm4f_rcc_sysclk_freq;
}
/* Get the clock frequency corresponding to a given XTAL value */
static uint32_t xtal_to_freq(enum xtal_t xtal)
{
const uint32_t freqs[] = {
4000000, /* XTAL_4M */
4096000, /* XTAL_4M_096 */
4915200, /* XTAL_4M_9152 */
5000000, /* ,XTAL_5M */
5120000, /* XTAL_5M_12 */
6000000, /* XTAL_6M */
6144000, /* XTAL_6M_144 */
7372800, /* XTAL_7M_3728 */
8000000, /* XTAL_8M */
8192000, /* XTAL_8M_192 */
10000000, /* XTAL_10M */
12000000, /* XTAL_12M */
12288000, /* XTAL_12M_288 */
13560000, /* XTAL_13M_56 */
14318180, /* XTAL_14M_31818 */
16000000, /* XTAL_16M */
16384000, /* XTAL_16M_384 */
18000000, /* XTAL_18M */
20000000, /* XTAL_20M */
24000000, /* XTAL_24M */
25000000, /* XTAL_25M */
};
return freqs[xtal - XTAL_4M];
}
/**
* \brief Configure the system clock source
*
* Sets up the system clock, including configuring the oscillator source, and
* PLL to acheve the desired system clock frequency. Where applicable, The LM4F
* clock API uses the new RCC2 register to configure clock parameters.
*
* Enables the main oscillator if the clock source is OSCSRC_MOSC. If the main
* oscillator was previously enabled, it will not be disabled. If desired, it
* can be separately disabled by a call to rcc_disable_main_osc().
*
* Configures the system clock to run from the 400MHz PLL with a divisor of
* pll_div400 applied. If pll_div400 is 0, then the PLL is disabled, and the
* system clock is configured to run off a "raw" clock. If the PLL was
* previously powered on, it will not be disabled. If desired, it can de powered
* off by a call to rcc_pll_off().
*
* @param [in] osc_src Oscillator from where to derive the system clock.
* @param [in] xtal Type of crystal connected to the OSCO/OSCI pins
* @param [in] pll_div400 The clock divisor to apply to the 400MHz PLL clock.
* If 0, then the PLL is disabled, and the system runs
* off a "raw" clock.
*
* @return System clock frequency in Hz
*/
void rcc_sysclk_config(enum osc_src src, enum xtal_t xtal, uint8_t pll_div400)
{
/*
* We could be using the PLL at this point, or we could be running of a
* raw clock. Either way, it is safer to bypass the PLL now.
*/
rcc_pll_bypass_enable();
/* Enable the main oscillator, if needed */
if (src == OSCSRC_MOSC) {
rcc_enable_main_osc();
}
/* Make RCC2 override RCC */
rcc_enable_rcc2();
/* Set XTAL value to 16MHz */
rcc_configure_xtal(xtal);
/* Set the oscillator source */
rcc_set_osc_source(src);
if (pll_div400) {
/* Enable the PLL */
rcc_pll_on();
/* Configure the PLL to the divisor we want */
rcc_change_pll_divisor(pll_div400);
} else {
/* We are running off a raw clock */
switch (src) {
case OSCSRC_PIOSC:
lm4f_rcc_sysclk_freq = 16000000;
break;
case OSCSRC_PIOSC_D4:
lm4f_rcc_sysclk_freq = 4000000;
break;
case OSCSRC_MOSC:
lm4f_rcc_sysclk_freq = xtal_to_freq(xtal);
break;
case OSCSRC_32K_EXT:
lm4f_rcc_sysclk_freq = 32768;
break;
case OSCSRC_30K_INT: /* Fall through. */
default:
/*
* We either are running off the internal 30KHz
* oscillator, which is +- 50% imprecise, or we got a
* bad osc_src parameter.
*/
lm4f_rcc_sysclk_freq = 0;
}
}
}
/**
* @}
* @}
*/